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刘建军
刘建军,博士,教授,凝聚态物理专业博士生导师,1962年12月出生,河北省高碑店市人。曾任河北师大物理科学与信息工程学院副院长、院长,现任我校教务处长,中国物理学会半导体物理专业委员会委员,中国物理学会液晶专业委员会委员,河北省物理学会副理事长,河北省中青年骨干教师,我校学术带头人。曾获高等教育国家级教学成果二等奖1项,河北省科技进步二等奖1项,河北省自然科学三等奖和河北省教学成果三等奖各1项。2004年被中共河北省委授予优秀共产党员称号,2008年被评为河北省科教文卫系统“三育人”先进个人。
从事凝聚态物理专业研究,主要方向是低维纳米结构受限量子系统的理论计算。先后主持和参加国家、省部级等自然科学基金资助课题十多项,在公开刊物发表论文70余篇,其中40多篇发表在《Physical Review B》、《Journal of Applied Physics》、《The European Physical Journal B》、《Physics Letters A》、《Journal of Physics: Condensed Matter》和《Chinese Physics Letter》等著名物理杂志上,均被SCI、EI收录。兼任《我校学报》(自然科学版)编委,《半导体技术》理事会理事,Physica E、《Chinese Physics Letter》和《Chinese Physics B》特约审稿人。
先后主讲本科生《量子力学》、《量子力学II》和《原子物理学》等课程,研究生《高等量子力学》、《半导体超晶格物理》和《液晶物理》等课程。
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刘英
刘英 教授
刘英 北京科技大学材料物理与化学专业博士,我校凝聚态物理专业博士生导师、科技部新材料模拟设计实验室客座研究员。
科研课题:
2014.1-2016.12
主持国家自然科学基金项目“星际含碳分子的微波谱和反应途径预测” (U1331116)
2013.1-2016.12
主持国家自然科学基金项目“硼/碳/硅基复合材料的量子调控与储氢机理探索” (1127 4089)
2011.1-2015.12
国家973项目“基于集成计算的材料设计基础科学问题”中“复杂材料原子间相互作用势库的创新与拓展”课题(2011CB606401;参研)
2009.1-2011.12
主持国家自然科学基金项目“金、硼和过渡金属-硅纳米管的结构与性能预测”(10874039)
2006.1-2006.12
主持国家自然科学基金项目“纳米管及其衍生物的分子力场及应用”(10574036)
2006.1-2010.6:
国家重点基础研究发展规划 (973) 项目“面向性能的材料集成设计的科学基础问题”中“材料原子势库创新服务系统”课题的研究(2006CB605101;参研)
2000.7-2005.9:
国家重点基础研究发展规划 (973) 项目“材料计算设计与性能预测基础问题”中的“材料中原子相互作用势研究”课题的研究(G2000067101;参研)
1998.9-2000.12:
国家高新技术发展规划(863)新材料领域“材料微观结构设计与性能预测” 专题中的“原子间相互作用势库及其对复杂材料的应用”课题的研究工作(863-
研究亮点和获奖:
[13]
预言了“Volleyballene(排球烯)”的稳定存在(Nanoscale, 8(2016)11441), 研究结果被科技新闻广泛报道。
[12]
我校双环的硼纳米管的结构、电子结构和的储氢特性的预言,作为 ChemPhysChem的Front Cover论文发表 (ChemPhysChem, 15 (16)(2014)3453-3459)
[11]
基于冰的氢键网络与sp3杂化碳网络的拓扑相似性,提议了一系列新的碳结构,命名为“ICE carbons”(J. Phys. Chem. C, 118 (47)(2014)27502–27508)。
[10]
我校Au42 纳米管的预言,Nature出版集团的 NPG Asia Materials 的Research Highlight 栏目以“Nanostructures: Hollow gold nanotubes”为题进行了评述,评论指出“A hollow tube made from 42 atoms of gold has been added to chemists' list of curious target molecules to synthesize.”,“Scientists have previously made hollow gold clusters containing around 20 atoms, but this is the first time that such relatively large hollow gold nanotubes have been theoretically predicted.”(J. Chem. Phys. 129(2008)134705)
[9]
我校硼纳米管的结构及传输特性的预言作为 ChemPhysChem的Front Cover论文发表,编辑在扉页评论中指出“It indicates the possibility, in the design of nanodevices, to control the electronic transport properties of boron nanotubes through their diameters.”(ChemPhysChem, 10(17)(2009)3119)
[8]
理论预言了一种磁性类碳硅富勒烯(Eu@Si20)和磁性硅纳米管(Eu2@Si30)的稳定存在(Phys Chem Chem Phys, 12(2010)11428-11431; J. Phys. Chem. C, 117 (20) (2013) 10764–10769)。
[7]
与西南大学和清华大学研究人员合作,研究了点手性缺失下的手性风车团簇(Small, 8(13)(2012)2078-2082)。
[6]
基于Kelvin问题的研究,提议了一系列新的碳结构,命名为“Kelvin carbons”(J. Chem. Phys. 138(2013)164703)。
[5]
培养的博士生马庆敏的博士学位论文《磁性过渡金属及其碳混合团簇的DFT研究》(2007年博士)获2009年河北省优秀博士学位论文。
[4]
培养的博士生王静的博士学位论文《金、硼纳米管和内包金属硅富勒烯的结构与性能预测》(2009年博士)获2011年河北省优秀博士学位论文。
[3]
主持项目“低维纳米体系奇异结构和物性的理论预测”获2011年河北省自然科学奖三等奖(2011ZR3005-01)
[2]
参研项目“有机共轭聚合物的物理特性研究” 2006年获河北省自然科学二等奖(No. 2006ZR2001-04)
[1]
参研项目“稀土-过渡金属间化合物磁学性质研究”1999年获河北省科学技术进步二等奖(No. 992016-6)
研究方向:
“低维系统结构和特性的第一原理计算”和 “材料物理特性的计算机设计与模拟”研究。目前主要的研究课题包括:
1) 硼/碳/硅基材料新的物相及其特性;
2) 过渡金属和第IV族元素混合团簇的结构和特性探索;
3) 星际分子结构和光谱预测。
教学工作:
先后讲授热力学统计物理、理论力学、近代物理实验、普通物理学、高等数学、理论物理概论(理力、电动、热统、量子)和研究生的计算物理学等课程。
主持“河北省高等学校二级学院综合改革试点”项目,2013.1-2016.5
主持学校精品课程建设项目《热力学统计物理》课程建设, 2008.7-2011.6;
主持学校教学团队建设项目“理论物理教学研究群体”建设,2008.7-2010.6.
代表论文(†Corresponding author):
[23]
Hui-Yan Zhao, Jing Wang, Ling-Yan Ai, and Ying Liu*,
Cu20Si12: A hollow cage constituted of a copper dodecahedron and a silicon icosahedron,
J Phys Chem A, 120 (2016) 6303; DOI: 10.1021/acs.jpca.6b05258
[22]
Jing Wang and Ying Liu*,
New Volleyballenes: Y20C60 and La20C60,
Scientific Reports, 6 (2016) 30875; DOI: 10.1038/srep30875
[21]
Jing Wang, Hong-Man Ma and Ying Liu*,
Sc20C60: a volleyballene
Nanoscale, 8(2016)11441-11444, DOI: 10.1039/C5NR07784B
http://pubs.rsc.org/en/Content/ArticleLanding/2016/NR/C5NR07784B
This manuscript was submitted to arXiv (arxiv.org/abs/1502.03507) on 10 February, 2015. Soon after, “MIT Technology Review” reviewed this work entitled “Forget Buckyballs, Here Comes Volleyballene” in the “view” column on February 18.[A1] Then, “Physics Today” introduced this work entitled “Buckyball variant resembles a volleyball” in the “News Picks” column of the “Daily Edition” on February 19.[A2] “New Scientist” (Volume 225, Issue 3010, p19) reports this work entitled “Buckyballs play a different sport” (in print)[A3], and “Volleyballene puts a new spin on buckyballs” (online) in the “News (In Brief)” column[A4]. On March 04, the French scientific magazine called “Sciences & Avenir” introduced this work entitled “Le volleyballene, nouvel hommage des chimistes aux sportifs”[A5] and publish a view about the research on the volleyballene in its next issue. The “Volleyballene” as a new word appear at World Wide Words (Issue 910, 7 March 2015).[A6] "ChemistryWorld" introduced this work entitled “Volleyballene nets a place in the buckyball family” in the “News” column on 18 February 2016. [A7] etc.
[A1] http://www.technologyreview.com/view/535281/forget-buckyballs-here-comes-volleyballene/
[A3] http://www.sciencedirect.com/science/article/pii/S0262407915603918#rpctoken=1845261806
[A6] http://www.worldwidewords.org/weirdwords/ww-vol3.htm
[A7] http://www.rsc.org/chemistryworld/2016/02/volleyballene-buckyball-fullerene-nano-cluster
[20]
Jing Wang, Zhi-Jing Wei, Hui-Yan Zhao & Ying Liu*,
Hollow Li20B60 Cage: Stability and Hydrogen Storage,
Scientific Reports, 6(2016)24500, doi:10.1038/srep24500
[19]
Jing Wang*, Ying Liu*,
Magnetic Silicon Fullerenes: Experimental Exploration and Theoretical Insight (REVIEW PAPER)
Journal of Cluster Science, 27(3)(2016)861; DOI: 10.1007/s10876-015-0959-6
http://link.springer.com/article/10.1007%2Fs10876-015-0959-6
[18]
Hong Zhang, Jing Wang, Zhi-Xue Tian and Ying Liu*,
Lithium boride sheet and nanotubes: structure and hydrogen storage,
Phys. Chem. Chem. Phys., 17(2015)13821-13828; DOI: 10.1039/C4CP06086E
*The work is featured as the journal inside front cover.
http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp90086g
[17]
Jing Wang, Hui-Yan Zhao, and Ying Liu*
Boron-Double-Ring Sheet, Fullerene, and Nanotubes: Potential Hydrogen Storage Materials,
ChemPhysChem, 15 (16)(2014)3453-3459,
*The work is featured as the journal front cover.
http://onlinelibrary.wiley.com/doi/10.1002/cphc.v15.16/issuetoc
[16]
Hui-Yan Zhao, Jing Wang, Xiu-Jie Su, Dong-Bo Zhang, and Ying Liu,
Ice Carbons,
J. Phys. Chem. C, 118 (47)(2014)27502–27508;DOI: 10.1021/jp5080048
[15]
Hui-Yan Zhao, Jing Wang, Qing-Min Ma, and Ying Liu†,
sp3-bonded silicon allotropes based on the Kelvin problem,
Phys. Chem. Chem. Phys., 15(2013)17619;
DOI:10.1039/C3CP50946J
http://pubs.rsc.org/en/content/articlelanding/2013/cp/c3cp50946
[14]
Jing Li; Jing Wang; Hui-Yan Zhao; Ying Liu†,
Magnetic Silicon Nanotube: Role of Encapsulated Europium Atoms,
J. Phys. Chem. C, 117 (20) (2013) 10764–10769;
DOI: 10.1021/jp401090p
[13]
Yang Liu, Juntao Song*, Yuxian Li, Ying Liu, and Qing-feng Sun,
Controllable valley polarization using graphene multiple topological line defects,
Phys. Rev. B 87(2013)195445
DOI: 10.1103/PhysRevB.87.195445
[12]
Hui-Yan Zhao, Jing Wang, Qing-Min Ma, and Ying Liu†,
From Kelvin problem to Kelvin carbons,
J. Chem. Phys. 138(2013)164703
DOI: 10.1063/1.4802002; Times Cited: 1 (from Web of Science, 13/6/2014)
http://dx.doi.org/10.1063/1.4802002
[11]
Jing Wang, Shu-Shen Li, Ying Liu†, and Jingbo Li*,
Passivation of CuI Quantum Dots,
J. Phys. Chem. C, 116 (39)(2012)21039-21045;
DOI: 10.1021/jp3048778; Times Cited: 1 (from Web of Science, 13/6/2014)
http://pubs.acs.org/doi/abs/10.1021/jp3048778
[10]
Jing Wang, Hua Ning, Qing-Min Ma, Ying Liu†, and You-Cheng Li
Au42: A possible ground-state noble metallic nanotube
J. Chem. Phys. 129(2008)134705;
DOI: 10.1063/1.2987715; Times Cited: 10 (from Web of Science, 13/6/2014)
http://scitation.aip.org/content/aip/journal/jcp/129/13/10.1063/1.2987715
*The work was featured as a research highlight by Nature Asia Materials.
“Nanostructures: Hollow gold nanotubes”,
http://www.nature.com/am/journal/2008/200812/full/am2008192a.html
[9]
Jing Wang, Ying Liu†, You-Cheng Li,
A New Class of Boron Nanotube,
ChemPhysChem, 10(17)(2009)3119;
DOI: 10.1002/cphc.200900632; Times Cited: 8 (from Web of Science, 13/6/2014)
*The work is featured as the journal front cover.
(http://onlinelibrary.wiley.com/doi/10.1002/cphc.200990071/abstract)
[8]
Jing Wang, Ying Liu†, and You-Cheng Li,
Magnetic Silicon Fullerene,
Phys Chem Chem Phys, 12(2010)11428-11431;
DOI: 10.1039/b923865d; Times Cited: 11 (from Web of Science, 13/6/2014)
http://pubs.rsc.org/en/Content/ArticleLanding/2010/CP/b923865d
[7]
Jing Wang, Qing-Min Ma, Zun Xie, Ying Liu†, and You-Cheng Li,
From SinNi to Ni@Sin: An investigation of configurations and electronic structure,
Phys. Rev. B 76(3)(2007) 035406
DOI: 10.1103/PhysRevB.76.035406; Times Cited: 32 (from Web of Science, 13/6/2014)
http://journals.aps.org/prb/abstract/10.1103/PhysRevB.76.035406
[6]
Meng Lan, Zu-Hong Xiong, Guo-Qing Li, Ting-Na Shao, Jia-Le Xie, Xiu-Fan Yang, Jun-Zhong Wang*, and Ying Liu†,
Strain-driven formation of rubrene crystalline films on Bi(001),
Phys. Rev. B 83(2011)195322;
DOI: 10.1103/PhysRevB.83.195322; Times Cited: 4 (from Web of Science, 13/6/2014)
http://journals.aps.org/prb/abstract/10.1103/PhysRevB.83.195322
[5]
Kai Sun, Ting-Na Shao, Jia-Le Xie, Meng Lan, Hong-Kuan Yuan, Zu-Hong Xiong, Jun-Zhong Wang*, Ying Liu, Qi-Kun Xue*,
Chiral Pinwheel Clusters Lacking Local Point Chirality,
Small, 8(13)(2012)2078-2082.
DOI: 10.1002/smll.201200168; Times Cited: 4 (from Web of Science, 13/6/2014)
http://onlinelibrary.wiley.com/doi/10.1002/smll.201200168/abstract
[4]
Ma Qing-Min, Xie Zun, Wang Jing, Liu Ying†, Li You-Cheng,
Structures and magnetic moments of Fe-C clusters,
Phys. Rev. B76 (2007) 035412
DOI: 10.1103/PhysRevB.76.035412; Times Cited: 17 (from Web of Science, 26/4/2013)
http://journals.aps.org/prb/abstract/10.1103/PhysRevB.76.035412
[3]
Ma Q M, Xie Z, Wang J, Liu Ying†, Li Y C,
Structures, binding energies and magnetic moments of small iron clusters: A study based on all-electron DFT.
Solid State Comm., 142(2007)114-119.
DOI: 10.1016/j.ssc.2006.12.023; Times Cited: 39 (from Web of Science, 13/6/2014)
http://www.sciencedirect.com/science/article/pii/S0038109806010933
[2]
Ma Qing-min, Xie Zun, Wang Jing, Liu Ying†, and Li You-cheng,
Structures, stabilities and magnetic properties of small Co clusters.
Phys. Lett. A, 358 (2006) 289-296.
DOI: 10.1016/j.physleta.2006.05.033 ; Times Cited: 51(from Web of Science, 13/6/2014)
http://www.sciencedirect.com/science/article/pii/S037596010600764X
[1]
Xie Z, Ma Q M, Liu Y†, Li Y C.,
First-principles study of the stability and Jahn-Teller distortion of nickel clusters.
Phys. Lett. A, 342 (2005) 459-467.
DOI: 10.1016/j.physleta.2005.05.067 ; Times Cited: 42 (from Web of Science, 13/6/2014)
http://www.sciencedirect.com/science/article/pii/S0375960105007875
发表论文(*Corresponding author):
[59]
Zhi-Jing Wei, Hui-Yan Zhao, Jing Wang,* and Ying Liu,
Wide Band Gap Carbon Allotropes: Inspired by Zeolite-nets,
J. Appl. Phys., 2016, Accepted.
[58]
Hui-Yan Zhao, Hong-Man Ma, Jing Wang, Ying Liu*,
Eu@Sc20C60: Magnetic Volleyballene,
Chinese Physics Letters, 33 (2016) 108105.
[57]
Hong-Man Ma, Jing Wang, Hui-Yan Zhao, Dong-Bo Zhang, Ying Liu*,
Structural Prediction for Scandium Carbide Monolayer Sheet,
Chemical Physics Letters, 660 (2016) 238.
[56]
Hui-Yan Zhao, Jing Wang, Ling-Yan Ai, and Ying Liu*,
Cu20Si12: A hollow cage constituted of a copper dodecahedron and a silicon icosahedron,
J Phys Chem A, 120 (2016) 6303.
[55]
Jing Wang and Ying Liu*,
New Volleyballenes: Y20C60 and La20C60,
Scientific Reports, 6 (2016) 30875
[54]
Jing Wang, Hong-Man Ma and Ying Liu*,
Sc20C60: a volleyballene
Nanoscale, 8(2016)11441-11444, DOI: 10.1039/C5NR07784B
http://pubs.rsc.org/en/Content/ArticleLanding/2016/NR/C5NR07784B
This manuscript was submitted to arXiv (arxiv.org/abs/1502.03507) on 10 February, 2015. Soon after, “MIT Technology Review” reviewed this work entitled “Forget Buckyballs, Here Comes Volleyballene” in the “view” column on February 18.[A1] Then, “Physics Today” introduced this work entitled “Buckyball variant resembles a volleyball” in the “News Picks” column of the “Daily Edition” on February 19.[A2] “New Scientist” (Volume 225, Issue 3010, p19) reports this work entitled “Buckyballs play a different sport” (in print)[A3], and “Volleyballene puts a new spin on buckyballs” (online) in the “News (In Brief)” column[A4]. On March 04, the French scientific magazine called “Sciences & Avenir” introduced this work entitled “Le volleyballene, nouvel hommage des chimistes aux sportifs”[A5] and publish a view about the research on the volleyballene in its next issue. The “Volleyballene” as a new word appear at World Wide Words (Issue 910, 7 March 2015).[A6] "ChemistryWorld" introduced this work entitled “Volleyballene nets a place in the buckyball family” in the “News” column on 18 February 2016. [A7] etc.
[A1] http://www.technologyreview.com/view/535281/forget-buckyballs-here-comes-volleyballene/
[A3] http://www.sciencedirect.com/science/article/pii/S0262407915603918#rpctoken=1845261806
[A6] http://www.worldwidewords.org/weirdwords/ww-vol3.htm
[A7] http://www.rsc.org/chemistryworld/2016/02/volleyballene-buckyball-fullerene-nano-cluster
[53]
Jing Wang, Zhi-Jing Wei, Hui-Yan Zhao & Ying Liu*,
Hollow Li20B60 Cage: Stability and Hydrogen Storage,
Scientific Reports, 6(2016)24500, doi:10.1038/srep24500
http://www.nature.com/articles/srep24500
[52]
Jing Wang*, Ying Liu*,
Magnetic Silicon Fullerenes: Experimental Exploration and Theoretical Insight (REVIEW PAPER)
Journal of Cluster Science, 27(3)(2016)861; DOI: 10.1007/s10876-015-0959-6
http://link.springer.com/article/10.1007%2Fs10876-015-0959-6
[51]
Sheng-Li Qin*, Peter Schilke, Jingwen Wu, Tie Liu, Yuefang Wu, Álvaro Sánchez-Monge, and Ying Liu*,
SMA observations of the W3(OH) complex: Dynamical differentiation between W3(H2O) and W3(OH),
MNRAS, 456 (3) (March 01, 2016) 2681-2691. DOI: 10.1093/mnras/stv2801
[50]
Na Liu, Hui-Yan Zhao, Li-Jia Zheng, Sheng-Li Qin, Ying Liu*,
Prediction of structures and infrared spectra of the candidate circumstellar molecules Si_{n}O_{m},
Chemical Physics Letters, 644(16)(2016)219-224; DOI:10.1016/j.cplett.2015.11.046.
http://www.sciencedirect.com/science/article/pii/S000926141500915X
[49]
Jialei Rong, Sheng-Li Qin, Luis A. Zapata, Yuefang Wu, Tie Liu, Chengpeng Zhang, Yaping Peng, Li Zhang, Ying Liu,
Complex molecules in W51 North region,
Monthly Notices of the Royal Astronomical Society (MNRAS), 455(2)(2015)1428-1437; DOI:10.1093/mnras/stv2406.
[48]
Na Liu, Zhao Liu, Ying Liu*, Shengli Qin,
Accurate ab initio potential energy surface and spectral calculation for the HOCO+ + H2O reaction,
Journal of Molecular Structure, 1100 (2015) 348–353; DOI:10.1016/j.molstruc.2015.07.037
http://www.sciencedirect.com/science/article/pii/S0022286015301484
[47]
Hai-Xia Cheng, Yao-Wen Hu, Xiao-Xu Wang, Guo-Hua Zhang, Zhi-Wei An, Zhen-Feng Zhang, Biao Zhang, Tao Zhou, Ping Qian*, Ying Liu, Nan-Xian Chen,
The phase stability, magnetic and vibrational properties of A2Ni21B6 (A=Th, U) and Ce3Pd20Si6
Computer Physics Communications, 193(2015)72-77; DOI:10.1016/j.cpc.2015.04.001 (3.11 Impact Factor)
http://www.sciencedirect.com/science/article/pii/S001046551500123X
[46]
Guoli Zhou, Pan Li, Zhixue Tian*, and Ying Liu
A van der Waals Density Functional Investigation on the Improved Adsorption Properties of NO on the Rhn/MgO (100) Interface,
ACS Appl. Mater. Interfaces, 7(31)(2015)17499–17509; DOI: 10.1021/acsami.5b05264
http://pubs.acs.org/doi/abs/10.1021/acsami.5b05264
[45]
Hong Zhang, Jing Wang, Zhi-Xue Tian and Ying Liu*,
Lithium boride sheet and nanotubes: structure and hydrogen storage,
Phys. Chem. Chem. Phys., 17(2015)13821-13828; DOI: 10.1039/C4CP06086E
*The work is featured as the journal inside front cover.
http://pubs.rsc.org/en/content/articlelanding/2015/cp/c5cp90086g
[44]
Sheng-Li Qin*, Peter Schilke, Jingwen Wu, Yuefang Wu, Tie Liu, Ying Liu, and Álvaro Sánchez-Monge,
SMA Observations of the W3(OH) Complex: Physical and Chemical Differentiation Between W3(H2O) and W3(OH),
ApJ(The Astrophysical Journal), 803(1)(2015)39; doi:10.1088/0004-637X/803/1/39.
http://iopscience.iop.org/article/10.1088/0004-637X/803/1/39/
[43]
Jing Wang, Hui-Yan Zhao, and Ying Liu†
Boron-Double-Ring Sheet, Fullerene, and Nanotubes: Potential Hydrogen Storage Materials,
ChemPhysChem, 15 (16)(2014)3453-3459,
*The work is featured as the journal front cover.
http://onlinelibrary.wiley.com/doi/10.1002/cphc.v15.16/issuetoc
[42]
Hui-Yan Zhao, Jing Wang, Xiu-Jie Su, Dong-Bo Zhang, and Ying Liu†,
Ice Carbons,
J. Phys. Chem. C, 118 (47)(2014)27502–27508;DOI: 10.1021/jp5080048
[41]
Huan-Cheng Yang, Jing Wang*, and Ying Liu,
Metal-silicane: stability and properties,J. Appl. Phys. 2014, 116, 083501-1-8
http://scitation.aip.org/content/aip/journal/jap/116/8/10.1063/1.4893722
[40]
Hua Ning, Jing Wang, Qing-Min Ma, Hui-Yun Han, Ying Liu*,
A series of quasi-icosahedral gold fullerene cages: Structures and stability,
Journal of Physics and Chemistry of Solids 01/2014; 75(5):696–699.
DOI: 10.1016/j.jpcs.2014.01.004
http://dx.doi.org/10.1016/j.jpcs.2014.01.004
[39]
Jing Wang, Jingbo Li, Shu-Shen Li, and Ying Liu†,
Hydrogen storage by metalized silicene and silicane,
J. Appl. Phys. 114(2013)124309;
DOI: 10.1063/1.4823738
http://scitation.aip.org/content/aip/journal/jap/114/12/10.1063/1.4823738
[38]
Hui-Yan Zhao, Jing Wang, Qing-Min Ma, and Ying Liu†,
sp3-bonded silicon allotropes based on the Kelvin problem,
Phys. Chem. Chem. Phys., 15(2013)17619;
DOI:10.1039/C3CP50946J
http://pubs.rsc.org/en/Content/ArticleLanding/2013/CP/c3cp50946j
[37]
Jing Li; Jing Wang; Hui-Yan Zhao; Ying Liu†,
Magnetic Silicon Nanotube: Role of Encapsulated Europium Atoms,
J. Phys. Chem. C, 117 (20) (2013) 10764–10769;
DOI: 10.1021/jp401090p
[36]
Yang Liu, Juntao Song†, Yuxian Li, Ying Liu, and Qing-feng Sun,
Controllable valley polarization using graphene multiple topological line defects,
Phys. Rev. B 87(2013)195445
DOI: 10.1103/PhysRevB.87.195445
http://prb.aps.org/abstract/PRB/v87/i19/e195445
[35]
Hui-Yan Zhao, Jing Wang, Qing-Min Ma, and Ying Liu†,
From Kelvin problem to Kelvin carbons,
J. Chem. Phys. 138(2013)164703
DOI: 10.1063/1.4802002; Times Cited: 1 (from Web of Science, 13/6/2014)
http://dx.doi.org/10.1063/1.4802002
[34]
Hui-Yan Zhao, Ke-Min Liu, Jing Wang, Hui-Yun Han, Ying Liu†,
The doorsill of fullerene,
Chemical Physics Letters, 555(2013)217-221.
DOI: 10.1016/j.cplett.2012.11.027
http://www.sciencedirect.com/science/article/pii/S0009261412013334
[33]
Jing Wang, Shu-Shen Li, Ying Liu†, and Jingbo Li*,
Passivation of CuI Quantum Dots,
J. Phys. Chem. C, 116 (39)(2012)21039-21045
DOI: 10.1021/jp3048778; Times Cited: 1 (from Web of Science, 13/6/2014)
http://pubs.acs.org/doi/abs/10.1021/jp3048778
[32]
Kai Sun, Ting-Na Shao, Jia-Le Xie, Meng Lan, Hong-Kuan Yuan, Zu-Hong Xiong, Jun-Zhong Wang*, Ying Liu, Qi-Kun Xue*,
Chiral Pinwheel Clusters Lacking Local Point Chirality,
Small, 8(13)(2012)2078-2082.
DOI: 10.1002/smll.201200168; Times Cited: 4 (from Web of Science, 13/6/2014)
http://onlinelibrary.wiley.com/doi/10.1002/smll.201200168/abstract
[31]
Hui-Yan Zhao, Li Wang, Jing Li, Ying Liu†,You-Cheng Li,Sheng-Li Qin,
The candidate circumstellar molecule SiC4H: Prediction of structure and infrared spectrum,
Computational and Theoretical Chemistry, 994(15)(2012)19-24
DOI: 10.1016/j.comptc.2012.06.002
http://www.sciencedirect.com/science/article/pii/S2210271X12002939
[30]
ZHAO ZhiWei, WANG Jing & LIU Ying†,
Surface geometry and magnetism of Eu@C60 monolayer on Ag(111),
SCIENCE CHINA-Physics, Mechanics & Astronomy, 55(9)(2012)1589-1593.
DOI: 10.1007/s11433-012-4849-8
*The work is featured as the journal front cover.
http://link.springer.com/article/10.1007/s11433-012-4849-8
[29]
Zhi-Wei Zhao, Jing Wang, Hui-Yan Zhao, Ying Liu†,
Possible Si-based half-metallic materials:MnSi46 clathrates,
Modern Physics Letters B, 26(18)(2012)1250114
DOI: 10.1142/S021798491250114X
http://www.worldscientific.com/doi/abs/10.1142/S021798491250114X
[28]
Zhi-Wei Zhao, Hui-Yan Zhao, Jing Wang, Qing-Min Ma, Ying Liu* & You-Cheng Li
Growth Pattern, Electronic Structures and Magnetic Moments of Small Lutetium Clusters,
Journal of Cluster Science, 23(1)(2012)133-145
DOI: 10.1007/s10876-011-0436-9; Times Cited: 1 (from Web of Science, 13/6/2014)
10http://link.springer.com/article/10.1007%2Fs10876-011-0436-9
[27]
Meng Lan, Zu-Hong Xiong, Guo-Qing Li, Ting-Na Shao, Jia-Le Xie, Xiu-Fan Yang, Jun-Zhong Wang*, and Ying Liu†,
Strain-driven formation of rubrene crystalline films on Bi(001),
Phys. Rev. B 83(2011)195322
DOI: 10.1103/PhysRevB.83.195322; Times Cited: 4 (from Web of Science, 13/6/2014)
http://journals.aps.org/prb/abstract/10.1103/PhysRevB.83.195322
[26]
Ma Qing-min, Xie Zun, Wang Bao-Ru, Liu Ying†, and Li You-Cheng,
Structure, stability and magnetic moments of the FenCr (n=1-12) clusters: All - electron density functional theory investigations.
Solid State Comm., 151 (2011) 806-810
DOI: 10.1016/j.ssc.2011.02.029; Times Cited: 3 (from Web of Science, 13/6/2014)
http://www.sciencedirect.com/science/article/pii/S0038109811001098
[25]
Jing Wang, Ying Liu†, and You-Cheng Li,
Magnetic Silicon Fullerene,
Phys Chem Chem Phys, 12(2010)11428-11431
DOI: 10.1039/b923865d; Times Cited: 11 (from Web of Science, 13/6/2014)
http://pubs.rsc.org/en/Content/ArticleLanding/2010/CP/b923865d
[24]
Ma Qing-Min, Xie Zun, Liu Ying†, and Li You-Cheng,
The structures, binding energies and magnetic moments of Cr-C clusters,
Solid State Comm., 150(2010)1439-1444.
DOI: 10.1016/j.ssc.2010.05.028
http://www.sciencedirect.com/science/article/pii/S0038109810002991
[23]
Jing Wang, Ying Liu†, and You-Cheng Li,
Au@Sin: Growth Behavior, Stability and Electronic Structure,
Physics Letters A, 374(2010)2736-2742
DOI: 10.1016/j.physleta.2010.04.068; Times Cited: 9 (from Web of Science, 13/6/2014)
http://www.sciencedirect.com/science/article/pii/S0375960110005402
[22]
Qing-Min Ma, Ying Liu†, Zun Xie, and Jing Wang,
The Structures and Magnetic Moments of Co–C Clusters,
Journal of Nanoscience and Nanotechnology, 10(2010) 5490-5494
DOI: 10.1166/jnn.2010.1957
http://chinesesites.library.ingentaconnect.com/content/asp/jnn/2010/00000010/00000008/art00110
[21]
Jing Wang, Ying Liu†, Qing-Min Ma, and Zun Xie,
Structures and Magnetic Properties of FenB (n=1–12)Clusters,
Journal of Nanoscience and Nanotechnology, 10(2010) 5413-5417
DOI: 10.1166/jnn.2010.1956
http://chinesesites.library.ingentaconnect.com/content/asp/jnn/2010/00000010/00000008/art00094
[20]
Hui-Yan Zhao, Hua Ning, Jing Wang, Xiu-Jie Su, Xin-Ge Guo and Ying Liu†,
Structural evolution of Aun (n=20–32) clusters: Lowest-lying structures and relativistic effects,
Physics Letters A, 374(2010)1033-1038
DOI: 10.1016/j.physleta.2009.12.032; Times Cited: 3 (from Web of Science, 13/6/2014)
http://www.sciencedirect.com/science/article/pii/S0375960109015680
[19]
Jing Wang, Ying Liu†, You-Cheng Li,
A New Class of Boron Nanotube,
ChemPhysChem, 10(17)(2009)3119.
DOI: 10.1002/cphc.200900632; Times Cited: 8 (from Web of Science, 13/6/2014)
*The work is featured as the journal front cover.
(http://onlinelibrary.wiley.com/doi/10.1002/cphc.200990071/abstract)
http://onlinelibrary.wiley.com/doi/10.1002/cphc.200990071/abstract
[18]
H.-Y. Zhao, J.Wang, Y. Liu†, and Y.-C. Li
The effects of nitrogen on the configurations and magnetic moments of small iron, cobalt and nickel clusters,
Eur. Phys. J. Appl. Phys. 48(2009)30601
DOI: 10.1051/epjap/2009170
http://www.epjap.org/action/displayAbstract?fromPage=online&aid=8002483
[17]
Jing Wang, Qing-Min Ma, Rui-Ping Xu, Ying Liu†, You-Cheng Li,
3d transition metals: Which is the ideal guest for Sin(n = 15, 16) cages?
Physics Letters A 373 (2009) 2869–2875
DOI: 10.1016/j.physleta.2009.05.072; Times Cited: 9 (from Web of Science, 13/6/2014)
http://www.sciencedirect.com/science/article/pii/S0375960109006860
[16]
Wang Bao-Ru, Ma Qing-Min, Liu Ying†, and Li You-Cheng,
Small FenMn clusters: Magnetic order and magnetic moment,
Solid State Comm. 149 (2009) 210.
[15]
Jing Wang, Hua Ning, Qing-Min Ma, Ying Liu†, and You-Cheng Li
Au42: A possible ground-state noble metallic nanotube
J. Chem. Phys. 129(2008)134705
DOI: 10.1063/1.2987715; Times Cited: 10 (from Web of Science, 13/6/2014)
http://scitation.aip.org/content/aip/journal/jcp/129/13/10.1063/1.2987715
*The work was featured as a research highlight by Nature Asia Materials.
“Nanostructures: Hollow gold nanotubes”,
http://www.nature.com/am/journal/2008/200812/full/am2008192a.html
[14]
Bao-Ru Wang, Jing Wang, Qing-Ming Ma and Ying Liu†
Structures and magnetic ordering of MnnFe (n=1–12) clusters
Solid State Communications, 147(1-2)(2008)53-56
DOI: 10.1016/j.ssc.2008.04.020
http://www.sciencedirect.com/science/article/pii/S0038109808002111
[13]
Xie Z, Ma Q M, Liu Y†, Li Y C.,
Stability and growth modes of Ni-C clusters: A study based on all-electron density function theory.
CHIN. PHYS. LETT., 25(4) (2008)1270.
DOI: 10.1088/0256-307X/25/4/029; Times Cited: 4 (from Web of Science, 13/6/2014)
http://iopscience.iop.org/0256-307X/25/4/029/
[12]
Jing Wang, Qing-Min Ma, Zun Xie, Ying Liu†, and You-Cheng Li,
From SinNi to Ni@Sin: An investigation of configurations and electronic structure,
Phys. Rev. B 76(3)(2007) 035406
DOI: 10.1103/PhysRevB.76.035406; Times Cited: 32 (from Web of Science, 13/6/2014)
http://journals.aps.org/prb/abstract/10.1103/PhysRevB.76.035406
[11]
Ma Qing-Min, Xie Zun, Wang Jing, Liu Ying†, Li You-Cheng,
Structures and magnetic moments of Fe-C clusters,
Phys. Rev. B76 (2007) 035412
DOI: 10.1103/PhysRevB.76.035412; Times Cited: 17 (from Web of Science, 13/6/2014)
http://journals.aps.org/prb/abstract/10.1103/PhysRevB.76.035412
[10]
Liu N, Ma Q M, Xie Z, Liu Ying†, Li Y C,
Structures, stabilities and magnetic moments of small Lanthanum-nickel clusters.
Chem. Phys. Lett., 436 (2007) 184-188.
DOI: 10.1016/j.cplett.2007.01.024 ; Times Cited: 17 (from Web of Science, 13/6/2014)
http://www.sciencedirect.com/science/article/pii/S0009261407000553
[9]
Ma Q M, Xie Z, Wang J, Liu Ying†, Li Y C,
Structures, binding energies and magnetic moments of small iron clusters: A study based on all-electron DFT.
Solid State Comm., 142(2007)114-119.
DOI: 10.1016/j.ssc.2006.12.023; Times Cited: 39 (from Web of Science, 13/6/2014)
http://www.sciencedirect.com/science/article/pii/S0038109806010933
[8]
Ma Q. M., Xie Z., Liu Ying†, Li Y.-C.,
Configurations, Electronic Structure and Magnetic Ordering of Small Manganese Clusters,
CHIN. PHYS. LETT., 24(7) (2007)1908.
DOI:10.1088/0256-307X/24/7/033; Times Cited: 5 (from Web of Science, 13/6/2014)
http://iopscience.iop.org/0256-307X/24/7/033/
[7]
Xie Zun(谢尊), Ma Qing-Min(马庆敏), Wang Jing(王静), Liu Ying† (刘英), and Li You-Cheng(李有成),
Effects of charge on the structures and spin moments of Ni13 cluster,
Chinese Physics, 16(12)(2007)1009-1963
DOI:10.1088/1009-1963/16/12/014; Times Cited: 5 (from Web of Science, 13/6/2014)
http://iopscience.iop.org/1009-1963/16/12/014/
[6]
Ma Qing-min, Xie Zun, Wang Jing, Liu Ying†, and Li You-cheng,
Structures, stabilities and magnetic properties of small Co clusters.
Phys. Lett. A, 358 (2006) 289-296.
DOI: 10.1016/j.physleta.2006.05.033 ; Times Cited: 51(from Web of Science, 13/6/2014)
http://www.sciencedirect.com/science/article/pii/S037596010600764X
[5]
Xie Z, Ma Q M, Liu Y†, Li Y C.,
First-principles study of the stability and Jahn-Teller distortion of nickel clusters.
Phys. Lett. A, 342 (2005) 459-467.
DOI: 10.1016/j.physleta.2005.05.067 ; Times Cited: 42 (from Web of Science, 13/6/2014)
http://www.sciencedirect.com/science/article/pii/S0375960105007875
[4]
Liu Ying, Kang Yanmei, Chen Nanxian,
ab initio Interatomic Potentials of Cubic Boron Nitride.
Journal of Alloys and Compounds. 349 (2003) 17-22.
DOI: 10.1016/S0925-8388(02)00911-8;
http://www.sciencedirect.com/science/article/pii/S0925838802009118
[3]
Liu Ying, Chen Nanxian, Zhao Hongmin, Wei Chengwen,
Monte Carlo Simulation of the Reorientation Transition in Heisenberg Model with Dipole Interactions,
Solid State Communications, 126(2003)223-227.
DOI: 10.1016/S0038-1098(03)00010-3
http://www.sciencedirect.com/science/article/pii/S0038109803000103
[2]
Liu Ying, Chen Nanxian, Kang Yanmei,
Virtual Lattice Technique and the Interatomic Potentials of the Zinc-blend-type Binary Compounds.
MODERN PHYSICS LETTERS B, 16(5-6)(2002)187.
DOI: 10.1142/S0217984902003622; Times Cited: 13 (from Web of Science, 20/4/2012)
[1]
刘英,陈难先,
基于第一性原理计算的C、Si、Ge的原子间相互作用势及晶格动力学.
半导体学报, 23(12)(2002)1275。
早期发表论文
[1]
Liu Y, Sun HL, Hua WS,
Pressure dependence of the orientational ordering in solid C60: The statistical theory,
CHINESE PHYSICS LETTERS, 13(5)(1996)386-389.
合作发表论文
[12]
Zhao-Hua Chen , Zun Xie, Qing-Min Ma, Shu-Lan Liu, Ying Liu, You-Cheng Li,
Density-functional calculations of the geometries, electronic structures, and magnetic moments of CnBi (n=1–20) clusters,
Physics Letters A, 375(24)(2011)2338–2347
[11]
Wei Su, Ping Qian*, Ying Liu, Jiang Shen and Nan-Xian Chen,
First principle calculations of yttrium-doped palladium clusters,
Computer Physics Communications, 181(4)(2010)726-731.
[10]
Zhen Cong-Mian*, Zhang, Jin-Juan, Ma, Li, Hou Deng-Lu, Liu Ying, Li Shi-Qiang,
Effects of sputtered Ar pressure and substrate temperature on the microstructure and magnetic properties of Cr/SmCo5/Cr films,
SURFACE REVIEW AND LETTERS, 15(1-2)(2008)105-109.
[9]
Tang GD*, Liu Y, Hu HN, Liu YP, Sun HY, Nie XF,
Study on additive effective interaction between vertical Bloch lines,
PHYSICA STATUS SOLIDI B-BASIC RESEARCH, 240(1)(2003)201-212.
[8]
An Zhong, Li Zhan-jie, Liu Ying and Li You-cheng,
Two-dimensional localized modes in conjugated polymers: the nonlinear electron–phonon coupling effect,
Chinese Phys. 9 (2000)37 doi:10.1088/1009-
Times Cited: 10 (from Web of Science, 20/4/2012)
[7]
Chen W*, Hou DL, Liu Y, Tang GD, Zhu MG, Zhao JG, Nie XF, Wu HY,
Preparation and magnetic properties of (Fe7Co3)(0.15)(SiO2)(0.85) granular solids using the sol-gel method,
JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY, 15(4)(1999)389-389
[6]
Tang GD*, Chen W, Zhao JG, Hou DL, Liu Y, Pan CF, Nie XF,
Co content dependence of crystal structure and specific magnetization of Fe1-xCox-SiO2 granules prepared by sol-gel method,
JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY, 15(4)(1999) 390-390
[5]
Hou DL, Tang GD, Chen W, Liu Y, Nie XF, Luo HL,
Preparation and magnetic properties of Fe0.7Co0.3-SiO2 granular alloy solid,
PHYSICA STATUS SOLIDI A-APPLICATIONS AND MATERIALS SCIENCE, 169(1)(1998)131-137.
[4]
Liu JJ, Kong XJ, Liu Y,
Binding energy of biexcitons in GaAs-AlxGa1-xAs quantum wells,
JOURNAL OF APPLIED PHYSICS, 84(5)(1998)2638-2642.
DOI: 10.1063/1.368375; Times Cited: 19 (from Web of Science, 20/4/2012)
[3]
Z. An, Z.J. Li, Y. Liu and Y.C. Li,
Effects of the nonlinear electron-lattice interaction on the electronic states and localized modes around a soliton in polyacetylene,
Zeitschrift für Physik B Condensed Matter 103,(1) (1997) 61-62,
DOI: 10.1007/s002570050335
[2]
Sun HY, Sun HL, Liu Y,
The behaviour of the first kind of dumbbell domains with both static bias field and temperature,
JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 162(2-3) (1996) 235- 238.
[1]
Shi-Wei R.; Zhong-Wu Z.; Ying L.; Ren S.-W.; Zhang Z.-W.; Liu Y.
The molecular field theory analysis of RFe10V2Nx (R = Y, Nd, Sm, Gd, Dy, Er) intermetallic compounds,
Journal of Magnetism and Magnetic Materials, 139 (1)(1995)175-178.
Times Cited: 9 (from Web of Science, 20/4/2012)
-
刘德
刘德,男,理学博士,副教授,我校凝聚态物理专业硕士生导师,中国力学学会会员。
研究方向:
低维量子物理,主要在半导体量子器件、类石墨烯基量子器件和磁性量子器件等介观系统中电子输运特性等方面开展研究。
研究生培养:
每年计划招收1名物理学硕士研究生。在研硕士研究生2人,已指导毕业硕士生7人。
获奖情况:
近年来,荣获我校物理科学与信息工程学院第三届和第四届魅力教师、校级优秀顶岗实习驻县管理教师、院级先进工作者、院级优秀共产党员等荣誉称号。
通信地址(邮政编码):
河北省石家庄市南二环东路20号我校物理科学与信息工程学院(050024)
Email: liude@hebtu.edu.cn
教学工作及获奖:
先后讲授量子力学、量子力学II、理论力学、热力学统计物理和原子物理等课程;
主持第八批精品课程《理论力学》建设项目(JPKC0835),2008-2010;
参加(第一主讲教师)第三批精品课程《量子力学》建设项目, 2002-2005;
参加(第一主讲教师)2008年度校级精品课程《量子力学》网站建设维护项目(XJPK0807),2008—今;
荣获2010-2011学年本科教学质量评估优秀课程暨优秀教师荣誉称号;
荣获2011-2012学年本科教学质量评估优秀课程暨优秀教师荣誉称号;
荣获2013-2014学年我校本科教学质量评估优秀教师荣誉称号;
荣获2014-2015学年我校本科教学质量优秀奖;
荣获2015-2016学年我校本科教学质量评估优秀教师荣誉称号;
荣获2015-2016学年我校汇华学院教学优秀奖。
科研课题:
2012.01-2014.12
主持河北省自然科学基金面上项目“准周期和非周期石墨烯超晶格中量子输运特性及噪声研究” (A2012205019)
2009.01-2011.12
主持我校博士基金项目“纳米结构中自旋极化电子输运特性研究” (L2009B02)
2000.12-2002.12
主持我校青年基金项目“分形输运动力系统中的反常扩散” (L2000q02)
2010.01-2012.12
参研国家自然科学基金面上项目“原子层石墨/超导体/铁磁体混杂结构中的输运特性”(10974043)
2007.01-2009.12
参研国家自然科学基金面上项目“低维量子结构中自旋电子输运理论研究” (10674040)
2007.01-2009.12
参研国家教育部高等学校博士学科点专项科研基金项目“低维纳米结构中自旋相关的输运特性”(20060094002)
2007.01-2009.12
参研河北省自然科学基金项目“介观物理中的噪声理论”(A2007000227)
2005.01-2007.12
参研河北省自然科学基金项目“纳米结构中的自旋电子特性研究”(A2005000147)
近期发表的部分文章(*Corresponding author):
[1]
Yuanqiao Li, Hongmei Zhang, Tao Zhou, De Liu*, Spin transport and tunneling magnetoresistance in Thue-Morse bilayer graphene superlattice with two ferromagnetic electrodes, Physica B: Condensed Matter, 516, 18–26, 2017
[2]
Yuanqiao Li, Hongmei Zhang, De Liu*, Electronic transport and shot noise in a Thue–Morse bilayer graphene superlattice with interlayer potential bias, Modern Physics Letters B,30(16), 1650181[12 pages], 2016
[3]
Haiyan Liu, Hongmei Zhang, De Liu*, Spin transport and tunnel magnetoresistance in ferromagnetic graphene/Thue-Morse graphene superlattice double junction, Physics Letters A, 379(3), 192-198, 2015
[4]
De Liu, Hongmei Zhang*, Spin conductance and tunnelling magnetoresistance in a fractal graphene superlattice with two ferromagnetic graphene electrodes, Journal of Physics D: Applied Physics, 47(18), 185301[8pages], 2014
[5]
Haiyan Liu, Hongmei Zhang, De Liu*, Xiaojun Kong, Spin transport and magnetoresistance in Thue-Morse graphene superlattice with two ferromagnetic graphene electrodes, Journal of Applied Physics, 114(16), 163715[7pages], 2013
[6]
Huaping Huang, De Liu*, Hongmei Zhang, Xiaojun Kong, Electronic transport and shot noise in Thue-Morse sequence graphene superlattice, Journal of Applied Physics, 113(4), 043702[6pages], 2013
[7]
Ning Wang, De Liu*, Xiaojun Kong, Biexciton energies in concentric double quantum rings, Journal of Applied Physics, 113(5), 053714[5pages], 2013
[8]
Aili Qin, De Liu, Spin-dependent shot noise in aperiodic semiconductor multilayers heterostructures, Modern Physics Letters B, 26(30), 1250200[8 pages], 2012
[9]
Xu Baocui, Zhang Hongmei, Liu De* , Kong Xiaojun, Transverse wave-vector-dependent electron transport in terahertz quantum cascade lasers, International Journal of Modelling, Identification and Control, 16(3), 301-306, 2012
[10]
刘德, 张红梅*, 贾秀敏, 对称抛物势阱磁性隧道结中的自旋输运及磁电阻效应, 物理学报, 60(1), 017506[7 pages], 2011
[11]
Xiaoxiao Guo, De Liu, Yuxian Li*, Conductance and shot noise in graphene superlattice, Applied Physics Letters, 98(24): 242101 [3 pages], 2011
[12]
Lilan Qin, De Liu*, Hongmei Zhang, Xiaojun Kong, Spin-dependent tunneling properties of Thue-Morse sequence in ferromagnet/semiconductor/ferromagnet cascade junctions, Journal of Applied Physics, 109(4), 043703[4 pages], 2011
[13]
De Liu*, Xiao-Jun Kong, Spin-dependent shot noise in fractal semiconductor multilayers with two ferromagnetic contacts, Journal of Applied Physics, 105(4), 043703[10 pages], 2009
[14]
De Liu*, Hong-Mei Zhang, Spin polarization and tunneling magnetoresistance in ferromagnetic/semiconductor/ferromagnetic heterostructure, Modern Physics Letters B, 22(27), 2667-2676, 2008
[15]
De Liu*, Xiao-Jun Kong, Spin-polarized electron transport in fractal semiconductor multilayers with two ferromagnetic contacts, Journal of Applied Physics, 104(2), 023707[9 pages], 2008
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谢尊
Email: zxie@hebtu.edu.cn谢尊 博士,教授,凝聚态物理专业硕士生导师
科研课题和获奖
2014.01-2016.12 主持河北省自然科学基金“内包金属纳米颗粒的纳米笼状结构的性能预测”(A2014205104)
2012.01-2014.12 主持河北省教育厅重点科研基金项目“3d过渡金属准一维纳米体系的稳定性和电磁特性”(ZH2011101)
2009.01-2011.12 主持河北省自然科学基金“纳米管内一维限制过渡金属线的结构、磁有序和输运特性”(A2009000246)
2007.01-2010.12 主持河北省教育厅青年基金“过渡金属碳化物Met-cars团簇的DFT研究”(2007125)
2005.01-2007.12 主持我校博士基金“CNTs制备中过渡金属及合金团簇催化作用的第一原理研究”(L2005B07)
主持项目“过渡金属碳化物Met-cars团簇的DFT研究”获2011年度河北省科学技术成果(20110385国内先进)
参研项目“有机共轭聚合物的物理特性研究”获2006年河北省自然科学奖二等奖(2006ZR2001-03)
参研项目“低维纳米体系奇异结构和物性的理论预测”获2011年河北省自然科学奖三等奖(2011ZR3005-04)
研究方向
“低维系统结构和特性的计算机设计与模拟”研究。目前主要的研究课题:小、中尺寸团簇结构和特性的第一原理计算。
教学工作:
先后讲授热学、高等数学B1、大学物理、物理导论本科生课程。
发表论文:
Jia Hui-Lin, Wang Bao-Ru, Ma Qing-Min, Xie Zun*,
Atomic carbon growth on yttrium clusters: Relativistic density functional theory investigations,
Comput. Theor. Chem., 1084 (2016) 59-66.
DOI: 10.1016/j.comptc.2016.03.015
https://doi.org/10.1016/j.comptc.2016.03.015
Wang Bao-ru, Han Hui-yun, Xie Zun *,
Structural and magnetic properties of small NinMn clusters,
Journal of Molecular Structure 1062 (2014) 174-178
https://doi.org/10.1016/j.molstruc.2013.12.039
Chen Zhao-Hua, Xie Zun,
The geometries, electronic structures and magnetic properties of TM doped Cn(TM = Fe, Co, Ni, n=9-15) clusters: a density functional theory investigation,
Eur. Phys. J. Appl. Phys. 67 (01) (2014) 10403(1-10)
http://dx.doi.org/10.1051/epjap/2014140121
Shu-Yu Huang, Zun Xie*, Qing-Min Ma, Ying Liu, You-Cheng Li,
Geometries, electronic structures, and magnetism of small BimCon clusters,
J. Molecular Structure: THEOCHEM, 953(2010)103-113
https://doi.org/10.1016/j.theochem.2010.05.012
Xie Zun, Ma Qing-Min, Liu Ying, and Li You-Cheng.,
Stability and growth modes of Ni-C clusters: A study based on all-electron density function theory.
CHIN. PHYS. LETT., 25(4) (2008)1270. DOI: 10.1088/0256-307X/25/4/029;
http://iopscience.iop.org/0256-307X/25/4/029/
Xie Zun, Ma Qing-Min, Wang Jing, Liu Ying, and Li You-Cheng,
Effects of charge on the structures and spin moments of Ni13 cluster,
Chinese Physics, 16(12)(2007)1009-1963 DOI:10.1088/1009-1963/16/12/014;
http://iopscience.iop.org/1009-1963/16/12/014/
Xie Zun, Ma Qing-Min, Liu Ying, Li You-Cheng.,
First-principles study of the stability and Jahn-Teller distortion of nickel clusters.
Phys. Lett. A, 342 (2005) 459-467. DOI: 10.1016/j.physleta.2005.05.067
http://www.sciencedirect.com/science/article/pii/S0375960105007875
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张迎涛
教育经历:
1995.09-1999.06: 新葡亰8883ent(本科)
1999.09-2002.06: 新葡亰8883ent(硕士研究生)
2003.09-2006.06: 河北工业大学材料学院(博士研究生)
2008.03-2009.03: Lund 大学, 瑞典(访问学者)
2015.10(短期): 国际理论物理中心(ICTP),意大利(访问)
从2009年起多次到中国科学院物理所、北京大学量子与材料中心访问交流与合作
工作经历:
2002.07-2004.07: 新葡亰8883ent(助教)
2004.07-2006.07: 新葡亰8883ent(讲师)
2006.07-2011.07: 新葡亰8883ent(副教授)
2011.07-:至今 新葡亰8883ent(教授)
所获基金项目:
[1]
国家自然科学基金(面上项目),11474084,
拓扑绝缘体与超导体耦合体系中交叉Andreev反射研究,2015.01-2018.12,80万元,在研,主持[2]
国家自然科学基金(青年基金),11004046,
基于石墨烯的“谷”电子学研究,2011.01-2013.12,
19万元,已结题,主持[3]
国家自然科学基金(国际(地区)合作与交流项目),11591240353,我校位错、无序和局域化的会议:静态与动态,2015.09-2015.12,1.5万元,已结题,主持
[4]
国家自然科学基金(理论物理专项),10647126,
介观体系中自旋电子输运性质及时间特性的研究2007.01-2007.12,2万元,已结题,主持[5]
河北省自然科学基金(面上项目),A2012205071,
应力作用下石墨烯输运性质研究
2012.01-2014.12, 5万元,已结题,主持[6]
河北省自然科学基金(青年基金),A2010000339,
受限束缚量子体系中的自旋电子学
2010.01-2012.12, 3万元,已结题,主持研究兴趣:
(1)
低维量子体系拓扑态设计研究:包括量子霍尔效应,量子反常霍尔效应,拓扑绝缘体,拓扑超导体,拓扑半金属等拓扑态的物理实现与相关物理性质的研究
(2)
低维体系中的量子输运现象研究:包括无序和退相干等效应对低维体系(例如:石墨烯,硅烯,过渡金属硫化合物等)热电输运性质的影响,并以此为基础设计原理性功能电子器件。
发表部分文章目录:
[1]
Hai-Bin Wu, Ying-Tao Zhang*, and Jian-Jun Liu,The effect of disorder on spin hall conductance in the bulk states of HgTe/CdTeheterostructure,J. Appl. Phys.121, 094306 (2017)
[2]
Miao-Miao Wei, Ying-Tao Zhang, Ai-Min Guo, Jian-Jun Liu, Yanxia Xing, and Qing-Feng Sun,Magnetothermoelectric transport properties of multiterminal graphene nanoribbon,Phys. Rev. B 93, 245432 (2016).
[3]
Han-Zhao Tang, Ying-Tao Zhang*, and Jian-Jun Liu,Josephson current through a quantum dotcoupled to a Majorana zero mode,J. Phys.: Condens. Matter 28 175301(2016).
[4]
Han-Zhao Tang, Ying-Tao Zhang*, and Jian-Jun Liu,Photon-assisted tunneling through a topological superconductor with Majoranabound states,AIP ADVANCES 5, 127129 (2015).
[5]
Ying-Tao Zhang, Xinzhou Deng, Qing-Feng Sun and Zhenhua Qiao, High-Efficiency Cooper-PairSplitterin Quantum Anomalous HallInsulator Proximity-Coupled withSuperconductor,Scientific Reports, 5,14892 (2015).
[6]
Ying-Tao Zhang, Juntao Song, and Qing-Feng Sun, Dephasing effect on edge states transport through p-n junction in HgTe/CdTequantum wells, J. Phys.: Condens. Matter26085301(2014).
[7]
Lei Liu, Yu-Xian Li, Ying-Tao Zhang, and Jian-Jun Liu, Quantum beats in conductance scillations in graphene-based asymmetricdouble velocity wells and electrostatic wells,J. Appl. Phys.115, 023704 (2014).
[8]
Ying-Tao Zhang,Zhenhua Qiao, and Qing-Feng Sun, Detecting zero-line mode in bilayer graphene via the quantum Hall effect, Phys. Rev. B87, 235405 (2013).
[9]
Ying-Tao Zhang, Feng Zhai, Zhenhua Qiao, and Qing-Feng Sun, Spin-polarized edge modes and snake states in HgTe/CdTe quantum wells under an antisymmetric magnetic field,Phys. Rev. B86, 121403(R) (2012).
[10]
Ying-Tao Zhang,X. C. Xie and Qing-feng Sun, Effect of Zeeman splitting and interlayer bias potential on electron transport in bilayer graphene,Phys. Rev. B86, 035447 (2012).
[11]
Ying-Tao Zhang and Feng Zhai,Strain enhanced spin polarization in graphene with Rashba spin-orbit coupling and exchange effects,J. Appl. Phys.111, 033705 (2012).
[12]
Feng Zhai, Yanling Ma and Ying-Tao Zhang,A valley-filtering switch based on strained grapheme, J. Phys.: Condens. Matter23 385302 (2011).
[13]
Ying-Tao Zhang, Qing-feng Sun, X. C. Xie, The effect of disorder on the valley-dependent transport in zigzag graphene nanoribbons, J.Appl.Phys. 109, 123718 (2011).
[14]
Ying-Tao Zhang, Qing-Ming Li, You-Cheng Li, Yan-Yang Zhang and Feng Zhai,Band tructures and transport properties of zigzag graphene nanoribbons with antidot arrays, J. Phys.:Condens. Matter 22 315304(2010).
[15]
Ying-Tao Zhang, Hua Jiang, Qing-feng Sun, X.C. Xie, Spin polarization and giant magnetoresistance effect induced by magnetization in zigzag graphene, Phys. Rev. B81, 165404 (2010).
[16]
Ying-TaoZhang, Zhan-Feng Song and You-Cheng Li, Electron spin precession in two-dimensional electron gas with Rashba spin–orbit coupling, Phys. Lett. A373, 144 (2008).
[17]
Ying-Tao Zhang and You-Cheng Li, Rashba spin-orbit effect on dwell time of electrons tunneling through semiconductor barrier, Phys. Lett. A 372, 2127 (2008).
[18]
Ying-Tao Zhang, Zhan-Feng Song, and You-Cheng Li, Dresselhaus spin-orbit effect on traversal time in ferromagnetic/semiconductor/ferromagnetic heterojunctions, Phys. Rev. B 76,085313 (2007).
[19]
Ying-Tao Zhang and You-Cheng Li, Rashba spin-orbit effect on spin-tunneling time in a ferromagnetic/semiconductor/ferromagnetic heterojunction with a tunnel barrier, J.Appl.Phys. 99, 013907 (2006).
[20]
Ying-Tao Zhang, Yong Guo, and You-Cheng Li, Rashba spin–orbit effect on shot noise in ferromagnetic/semiconductor/ferromagnetic heterojunctions, Phys. Stat. Sol. (b) 242, 2960 (2005).
[21]
Ying-Tao Zhang, Yong Guo, and You-Cheng Li, Persistent spin currents in a quantum ring with multiple arms in the presence of spin-orbit interaction, Phys. Rev. B 72, 125334 (2005).
[22]
Ying-Tao Zhang, Xie Zun, and Li You-Cheng, Spin-Tunneling Time in Ferromagnetic/Semiconductor/Ferromagnetic Three-Terminal Heterojunction in the Presence of Rashba Spin-Orbit Coupling,Commun. Theor. Phys.46. 945 (2006).
[23]
Ying-Tao Zhang, Di Bing, Xie Zun, Li You-Cheng, Binding Energies of Excitons in Square Quantum-Well Wires in the Presence of a Magnetic Field, Chin.Phys.Lett.21, 166 (2004).
[24]
Li Kui-Hua, Ying-Tao Zhang, Li You-Cheng, Electric Effect of Impurity in Square Quantum Wires, Chin.Phys.Lett.21, 1616 (2004).
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芦杰
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王静
王静 教授 硕士生导师,我校凝聚态物理专业博士,2009-2011年中科院半导体研究所超晶格国家重点实验室博士后。
Prof. Jing Wang, Master's Supervisor. Ph.D, Department of Physics,Hebei Normal University;
2009-2011,postdoc,Institute of Semiconductors,Chinese Academy of Sciences.
Email: jwang@hebtu.edu.cn; Tel: 0311-80787363; Links: ResearcherID
获奖情况/Accolades and Awards:
河北省杰出青年基金获得者(2018年)
The Natural Science Foundation for Distinguished Young Scholars of Hebei Province (2018)
河北省首批青年拔尖人才(2013年);河北省优秀博士学位论文(2011年)
Hebei Youth Top-notch Talent (2013), Hebei Province Excellent Doctoral Dissertation (2011)
河北省“三三三人才工程”三层次人才(2014年);河北省自然科学三等奖(No.2011ZR3005)
The Award for High-level Talents of Hebei Province (2014), the third-prize of Hebei Province Natural Science (No.2011ZR3005)
研究方向/Research Area(s):
低维材料结构和物性的第一原理研究。
Computational and theoretical studies of nanostructured materials.
目前主要研究课题包括:二维材料生长机理、物性调控与设计;团簇结构演化和磁性。
The main research:(i) growth mechanism and design of 2D materials, (ii) structural evolution of clusters (in particular Au, Si, B).
科研课题/ List of Fundings:
2014.01-2016.12
主持国家自然科学基金-青年基金项目“硅基和TiC基纳米体系结构和性能预测”(No.11304076)
2011.01-2011.12
主持国家自然科学基金-理论物理专项“类石墨烯表面结构和性能预测”(No.11047172)
2010.10-2011.06
主持中国博士后科学基金-特别资助项目“新型p-type透明导电CuX(X=Cl,Br,I)性能预测”(No.201003149)
2009.12-2011.06
主持中国博士后科学基金-面上资助项目“稀磁半导体电子结构和磁性研究”(No.20090460500)
2012.01-2014.12
主持河北省自然科学基金-青年基金“4f过渡金属-硅混合团簇结构演化和性能预测”(No.A2012205069)
2014.01-2016.12
主持河北省教育厅优秀青年基金项目“二维原子晶体结构和性能预测”(No.YQ2013008)
2015.01-2017.12
主持河北省自然科学基金-杰青培育项目“新型低维功能材料预测”(No.A2015205179)
2018.01-2020.12
主持河北省自然科学基金-杰出青年基金项目“硼基纳米材料性能研究”(No.A2018205174)
代表性论文/ Publications:
[19]
Jing Wang, Hong-Man Ma, and Ying Liu*, Sc20C60: A Volleyballene, Nanoscale 8 (2016) 11441. (Back Cover & HOT Article)
*The work has been featured by "MIT Technology Review", "Physics Today", "New Scientist" (225, Issue3010, 19), et al. *"Volleyballene" has been included as a new English word in World Wide Words (Issue 910, 7 March 2015).
[18]
Jing Wang and Ying Liu*, New Volleyballenes: Y20C60 and La20C60, Sci. Rep. 6 (2016) 30875.
[17]
Jing Wang, Zhi-Jing Wei, Hui-Yan Zhao, and Ying Liu*,Hollow Li20B60 Cage: Stability and Hydrogen Storage, Sci. Rep. 6 (2016) 24500.
[16]
Zhi-Jing Wei, Hui-Yan Zhao, Jing Wang*, and Ying Liu, Wide Band Gap Carbon Allotropes: Inspired by Zeolite-nets,J. Appl. Phys. 120 (2016) 165101.
[15]
Jing Wang and Ying Liu*, Magnetic Silicon Fullerenes: Experimental Exploration and Theoretical Insight,J. Clust. Sci. 27 (2016) 861. (Review Article)
[14]
Jing Wang, Hui-Yan Zhao, and Ying Liu*, Boron-Double-Ring Sheet, Fullerene, and Nanotubes: Potential Hydrogen Storage Materials, ChemPhysChem 115 (2014) 3453. (Front Cover)
[13]
Huan-Cheng Yang, Jing Wang*, and Ying Liu, Metal-silicane: Stability and properties, J. Appl. Phys. 116 (2014) 083501.
[12]
Jing Wang, Jingbo Li, Shu-Shen Li, and Ying Liu*, Hydrogen storage by metalized silicene and silicane,J. Appl. Phys. 114 (2013) 124309.
[11]
Jing LiII, Jing WangII, Hui-Yan Zhao, Ying Liu*, Magnetic Silicon Nanotube: Role of Encapsulated Europium Atoms,J. Phys. Chem. C 117 (2013) 10764.
[10]
Jing Wang, Shu-Shen Li, Ying Liu*, and Jingbo Li*, Passivation of CuI Quantum Dots, J. Phys. Chem. C 116 (2012) 21039.
[9]
Jing Wang, Jingbo Li*, and Shu-Shen Li, Native p-type transparent conductive CuI via intrinsic defects,J. Appl. Phys. 110 (2011) 054907.
[8]
Jing Wang, Ying Liu*, and You-Cheng Li, Magnetic Silicon Fullerene,Phys. Chem. Chem. Phys. 12 (2010) 11428.
[7]
Jing Wang, Jingbo Li*, and Shu-Shen Li, Origins of Magnetism in Transition Metal Doped CuI,J. Appl. Phys. 108 (2010) 043713.
[6]
Jing Wang, Ying Liu*, and You-Cheng Li, Au@Sin: Growth Behavior, Stability and Electronic Structure,Phys. Lett. A 374 (2010) 2736.
[5]
Jing Wang, Ying Liu*, Qing-Min Ma, and Zun Xie, Structures and magnetic properties of FenB (n = 1-12) clusters,J. Nanosci. Nanotechno. 10 (2010) 5413.
[4]
Jing Wang, Qing-Min Ma, Rui-Ping Xu, Ying Liu*, and You-Cheng Li, 3d transition metals: Which is the ideal guest for Sin (n = 15, 16) cages,Phys. Lett. A 373 (2009) 2869.
[3]
Jing Wang, Ying Liu*,and You-Cheng Li,A New Class of Boron Nanotube,ChemPhysChem 10 (2009) 3119. (Front Cover)
[2]
Jing Wang, Hua Ning, Qing-Min Ma, Ying Liu*, and You-Cheng Li,Au42: A possible ground-state noble metallic nanotube, J. Chem. Phys. 129 (2008) 134705. (Research Highlight)
(http://www.nature.com/am/journal/2008/200812/full/am2008192a.html)
[1]
Jing Wang, Qing-Min Ma, Zun Xie, Ying Liu*, and You-Cheng Li, From SinNi to Ni@Sin: An investigation of configurations and electronic structure, Phys. Rev. B 76 (2007) 035406.
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孙会元
孙会元,男,教授,博士生导师;河北省徐水县人。1997年遴选为我校凝聚态物理专业硕士生导师;2000年被评为河北省中青年骨干教师;2001年破格晋升为教授,并被遴选为校学术带头人;2004年入选河北省三三三工程第二层次人选;2004年遴选为我校凝聚态物理专业博士生导师。2011年被评为校级教学名师,2015年被评为我校优秀研究生指导教师。目前已培养硕士研究生41名,博士研究生8名。国家教育部博士点函评专家,国家教育部物理学科函评专家,国家科学技术奖函评专家;河北省知识产权研究会专利委员会专家委员
联系方式:huiyuansun@126.com;通讯地址:河北省石家庄市南二环东路20号
主要学历:
1983-09至1987-07,我校物理系物理教育专业,理学学士
1987-09至1990-07,我校物理系理论物理方向,理学硕士
2003-03至2006-07,中国科学院固体物理研究所凝聚态物理专业,理学博士
主要工作经历:
1990-07至1993-06,我校物理系,,助教
1993-07至1997-08,我校物理系,,讲师
1997-09至2001-01,我校物理系,副教授
2001-02至今,我校物理科学与信息工程学院,教授
2000-10至2001-10,日本国京都大学化学研究所,中国政府派遣研究员
教学情况:
长期从事在教学、科研第一线,为本科生、研究生先后主讲的课程有:
本科生《近代物理实验》、《磁测量》、《高等数学》、《热学》、《电磁学》、《固体物理》和《物理学导论》等;
研究生《磁性物理》、《铁磁学》、《近代物理实验方法》、《现代磁性材料原理和应用》、《Magneitic Domains》、《Magnetic Domain Walls in Bubble Materials》、《凝聚态物理专题》和《材料物理基础》等;
主编《固体物理基础》, 科学出版社出版, ISBN978-7-03-028065-7 (2010);
参编《物理学导论》, 科学出版社出版, ISBN978-7-03-032389-7 (2011);
主持学校精品课程建设项目《固体物理基础》课程建设, 2008.9-2011.8。
科研情况:
长期从事磁学与磁性薄膜材料方面的实验研究工作。在磁畴壁物理、超高密度磁记录介质、磁性合金纳米线等领域进行了深入而广泛的研究。近年来,在结构色防伪、大室温铁磁性的多孔氧化物半导体和多铁性材料方面也取得了引人注目的成绩。主研了包括国家自然科学基金、河北省自然科学基金等10余个研究项目,已发表与本课题相关的SCI收录论文80多篇。曾获中国科学院自然科学三等奖一项、河北省科技进步二等奖一项、河北省教育厅科技进步一等奖一项;是包括Journal of Materials Chemistry C、Nanotechnology、Applied Surface Science、Materials Characterization、RSC Advances、Thin SolidFilms、MaterialsScience & Engineering B、Materials Research Bulletin、Journal of Porous Materials等在内的20多家国内外期刊的审稿人。
主要研究方向:
纳米材料与结构。研究内容涉及磁畴壁物理、超高密度磁记录介质、磁性合金纳米线(管)、稀磁半导体、结构色、多铁材料等领域。
研究亮点:
在磁泡、磁畴壁物理研究方面,其创新性成果为:证明了三类硬磁畴畴壁结构的一致性;证明了VBL链的解体在面内场中存在一个最易消失方向;证明了VBL平衡间距随温度的升高而增大,纠正了前人的错误结果;发现了VBL的手征性与脉冲幅度有关,随着幅度的增加会改变手征性;证明了三类硬磁畴具有相同的临界面内场区间,纠正了其区间不一致的结论;证明了三类硬磁畴具有相同的临界温度区间,纠正了其区间不一致的结论;
在有序多孔材料方面:首次试验发现有序多孔金属氧化物薄膜材料表现出较强的室温铁磁性,其饱和磁化强度比相应的致密薄膜高出几十倍,并给出了相应的物理机制;
在结构色方面:通过PAA薄膜的分区可控生长技术,实现了在PAA薄膜上可见光范围内全波段结构色的可控化并给出了相应的物理机制,提出并实现了利用结构色构图作为新型多功能防伪材料的方案;文章的结果被收录到2015年德国施普林格出版社(SpringerInternational Publishing)出版的《Electrochemically Engineered Nanoporous Materials》(ISBN 978-3-319-20345-4)中;
在电化学自组织生长纳米材料方面:首次提出了模板法自组织生长不同纳米材料的物理机制,实现了纳米材料自组织生长的可控性;
在磁性纳米管方面:首次发现磁性纳米管中存在非连续磁滞回线,证明了磁性纳米管中磁矩呈涡旋状排列,存在特殊的磁结构。
科研成果及其获奖
(1) 布洛赫线存储器机理研究,1993年10月获中国科学院自然科学三等奖
(2) 三类硬磁畴畴壁中布洛赫线的稳定性,2000年12月获河北省科技进步二等奖
(3) 三类硬磁畴畴壁中布洛赫线的稳定性,2000年7月获省教育厅科技进步一等奖
(4) 布洛赫线物理研究,1996年4月通过河北省科委鉴定;
(5) 三类硬磁畴畴壁中布洛赫线的稳定性,1998年12月通过河北省科委鉴定;
(6) 1991年4月荣获河北省教委“实验室工作先进集体”称号;
(7) 1991年10月荣获国家教委“实验室工作先进集体”称号;
(8) 1996年10月荣获河北省高校“八五计划科技工作先进集体”称号
科研课题:
1. 国家自然科学基金,No.10274018, 超高密度磁记录纳米颗粒膜研究, 2003-2005;
2. 国家自然科学基金,No.19674074,磁泡布洛赫线非线性动力学研究, 1997-1999;
3. 国家自然科学基金,No.19274016, 磁畴壁和布洛赫线物理研究, 1993-1995;
4. 国家自然科学基金,No.1880110, 磁畴壁物理研究和微磁存储器探索, 1989-1991;
5. 河北省自然科学基金,No.A2016205237,氧空位对有序多孔金属氧化物薄膜室温铁磁性的影响, 2016~2018;
6. 河北省自然科学基金,No.A2012205038,基于AAO 模板法制备金属氧化物纳米管及相关结构色研究, 2012~2014;
7. 河北省自然科学基金,No.A2009000254,新型纳米垂直磁记录介质材料的制备、表征和磁性, 2009~2012;
8. 河北省自然科学基金,No.100147,垂直布洛赫线稳定性研究, 2000~2002;
9. 河北省自然科学基金,No.196165,布洛赫线存储器机理研究, 1996-1998;
10. 河北省自然科学基金,No.193009, 布洛赫线物理研究, 1993-1995;
11. 河北省教育厅基金,No.2002116,纳米磁记录颗粒膜研究, 2002-2004;
12. 我校重点基金,No.120203,纳米磁性粒子薄膜的研制, 2001-2003;
13. 我校博士基金,No.L2006B10,纳米磁性薄膜材料的制备和物性研究,2007-2009;
近几年作为责任作者发表的论文和专利目录(2010-2017):
获得国家发明专利目录:
[1] 一种具有鲜艳色彩和不同图案的Co纳米管与氧化铝复合薄膜的制备方法;申请日:2011.04.02,申请号:201110082327.4;公开号:CN102191528A,公开日期2011.09.21,授权:2012.12.19,发明人:孙会元;徐芹;刘力虎;杨玉华;顾建军;张惠敏
[2] 一种直流电沉积法制备Zn/ZnO纳米管的方法;申请日:2011.04.02,申请号:201110082301.X;公开号:CN102181890A,公开日期2011.09.14,授权:2012.7.25,发明人:孙会元;徐芹;刘力虎;杨玉华;顾建军;张惠敏
[3] 一种直流电沉积法制备Ni-ZnO纳米管的方法;申请日:2011.04.02, 申请号:201110082312.8;公开号:CN102181928A,公开日期2011.09.14,授权:2012.8.1,发明人:刘力虎;蔡宁;顾建军;张惠敏;李子岳;孙会元
作为责任作者发表的论文目录(2011-2017):
1. Li-qian Qi, Di-ya Pan, Jun-qing Li, Li-hu Liu, Hui-yuan Sun, HfO2/porous anodic alumina composite films for multifunctional data storage mediamaterials under electric field control; Nanotechnology; 28(2017) 115702;,(IF:3.440,工程技术2区,TOP);
2. L. Q Qi , Lihu Liu , S. Z Feng , H.Y Sun , R.S Han,Synthesis and magnetic properties of ceramicMgO porous film,Journal of the European CeramicSociety ; 37 (2017) 4727–4731; (IF:3.454;工程技术2区,TOP);
3. Qin Xu, Chun-Xin Sun, Zhi-Jun Wang, Jing-Jin Liu, Ya-Xuan Ren,Sheng-Zhen Hao,Ji-Liang Zhu, Yu-Bao Sun, Hui-Yuan Sun, Preparation andCharacterization of iridescent Ni1-xCox -containing anodic aluminum oxidefilms ; Dyes and Pigments; 147 (2017) 313e317;(IF :3.473 ; 工程技术2区,TOP);
4. Lihu, Liu; Liqian, Qi; Rushuai,Han; Huihui, Zhang; Yanlu Wang,HuiyuanSun*; Growth mechanism and magnetic properties of dendritic nanostructureprepared by pulse electrodeposition; Journal of Alloys and Compounds;694(2017)1239-1245; (IF:3.133, 工程技术2区,Top)
5. Ru-shuai Han, Li-qian Qi, Li-hu Liu, Qin Xu, Ge-Xin Guo, Hui-yuan Sun,Microstructures and room temperature ferromagnetism of ordered porous ZrO2 thinfilms sputter deposited onto porous anodic alumina substrates; Journal ofMagnetism and Magnetic Materials; 428 (2017) 99–104;(IF:2.63,物理类 3区);
6. Yanlu Wang, Rushuai Han, Liqian Qi, Lihu Liu*, Huiyuan Sun*, Synthesisof ultrathin TiO2 /Ti films with tunable structural color, Applied Optics; (IF:1.650,工程技术3区)
7. Li-qian Qi, Ru-shuai Han, Li-huLiu*, Hui-yuan Sun*,Preparation and magneticproperties of DC-sputtered porous HfO2 films, Ceramics International 42 (2016)pp. 18925-18930; (IF:2.986; 工程技术2区);
8. Qin Xu , Zhi-Jun Wang , Ze-JiangChang, Jing-Jin Liu , Ya-Xuan Ren , Hui-Yuan Sun*,Synthesis and properties of Ag-doped ZnO films with room temperatureferromagnetism; Chemical Physics Letters 666(2016)28-32;(IF:1.815,化学类4区,物理类3区)
9. Ru-shuai Han, Li-qian Qi, Xue Hou,Li-hu Liu, Hui-yuan Liu, Xiao-Ning Xian, Ge-Xin Guo*, Hui-yuan Sun*,Magnetic contribution of Bi0.85La0.15FeO3 in(1-x)Bi0.85La0.15FeO3 - (x)CoFe2O4 nanocomposite powder,Journal of Magnetism and Magnetic Materials,420(2016)pp.117-121; (IF:2.63,物理类 3区);
10. Qin Xu, ZhiJun Wang, Yongguo Wang,Huiyuan Sun*, The effect of Co content on the structure and the magneticproperties of CoxNi1-x nanotubes,Journalof Magnetism and Magnetic Materials,419(2016)166-170;(IF:2.63,物理类3区);
11. L.Q Qi, H.Y Liu, H.Y Sun*, LihuLiu, and R.S Han, Electric field control of magnetization in Cu2O/porous anodicalumina hybrid structures at room temperature, Applied Physics Letters, 108,142402 (2016),(IF:3.411,物理类2区,TOP)
12. Qin Xu, Hong-Mei Ma, Yan-JunZhang, Ru-Song Li, Hui-Yuan Sun*, Synthesis of iridescent Ni-containing anodicaluminum oxide films by anodization in oxalic acid, Optical Materials, 2016,52:107-110, 2015.02.01出版, (IF: 2.238, 工程类3区)
13. Xue Hou, Hui-yuan Liu, Hui-yuanSun*, Li-hu Liu*, Xiao-xuan Jia, Significant room-temperature ferromagnetism inpure porous ZnO films: The role of oxygen vacanies,Materials Science and Engineering B 200(2015) 22–27;(IF:2.331,工程类3区)
14. Xiaoxuan Jia, Huiyuan Sun*, Lihuliu, Xue Hou, Huiyuan Liu, Synthesis and properties of iridescent Zn-containinganodic aluminum oxide films, Thin Solid Films, 586(2015)8-12; (IF: 1.867,工程技术3区)
15. Xue Hou, Huiyuan Sun*, Lihu Liu,Xiaoxuan Jia, Huiyuan Liu, Resistive property and ferromagnetism in ZnO/PAAnanoporous composite films, Journal of Alloys and Compounds, 640(2015)444-448,(IF:3.014, 工程技术2区,TOP)
16. Hui-yuan Liu, Hui-yuan Sun*, Li-huLiu, Xue Hou, Xiao-xuan Jia, Optical properties of porous anodic aluminaembedded Cu nanocomposite films, Optical Materials44(2015), pp. 9-12(IF:2.183, 工程类3区)
17. Xue Hou, Hui-yuan Sun*, Li-hu Liu,Xiao-xuan Jia and Hui-yuan Liu,Unexpectedlarge room-temperature ferromagnetism in porous Cu2O thin films, Journal ofMagnetism and Magnetic Materials 382(2015)20-25, (IF:2.357, 物理类3区)
18. Qin Xu, Wen-Jiang Ye, Shun-ZhenFeng, Hui-Yuan Sun*, Synthesis and properties of iridescent Co-con taininganodic aluminum oxide films , Dyes and Pigments, 111(2014) 185-189, ( IF: 3.468,工程技术2区,TOP)
19. Tianshan Wu, Huiyuan Sun*, XueHou, Lihu liu, Huimin Zhang, Jingjing Zhang, Significant room-temperatureferromagnetism in porous TiO2 thin films, Microporous and Mesoporous Materials,190 (2014) 63–66, [JCR Q1@Q2, IF: 3.209]
20. ZhiJun Zhang, JingJing Zhang, XueHou, TianShan Wu, HuiYuan Sun*, Iridescent colored thin films of porous anodicalumina embedded silver, Thin Solid Films, 558 (2014) 344–348,[JCR Q2,IF:1.867]
21. Janjun Gu; Shumin Yang; Wei Yang;Yunkai Qi; Guoliang Zhao; Huiyuan Sun*; Effects of NiFe2O4 on magnetoelectriccoupling effect of BiFeO3 thin films; Journal of Magnetism and Magnetic Materials,349 (2014) 140-143,[ JCR Q2,IF:2.002]
22. Hui-yuan Sun*, Hui-min Zhang, XueHou, Li-hu Liu, Tian-shan Wu, Shu-min Yang, Significant Room Temperature Ferromagnetism in PAA Thin Films, Journalof Materials Chemistry C, 1 (2013),3569 [ JCR Q1, IF: 6.626]
23. Hui-min Zhang, Xiu-li Zhang,Jing-jing Zhang, Zi-yue Li, and Hui-yuan Sun*, Template-based ElectrodepositionGrowth Mechanism of Metal Nanotubes, Journal of The Electrochemical Society ,160(2)D41-D42(2013),[JCRQ1@Q2,IF:2.859]
24. Hui-min Zhang, Xiu-li Zhang, Tianshan Wu, Zhi jun Zhang, Jin fei Zheng and Hui-yuan Sun*, Template-basedSynthesis and discontinuous hysteresis loops of Cobalt Nanotube arrays,Journal of Materials Science,Volume48, Issue 21 (2013), Page 7392-7398,[JCRQ1,IF:2.305]
25. Jing-jing Zhang,Zi-yue Li, Zhi-jun Zhang, Tian-shan Wu,Hui-yuan Sun*,Optical and magnetic properties ofPAA @Ni nanocomposite films,J. Appl. Phys. 113, 244305 (2013); [JCR Q2,IF:2.185 ]
26. Xiuli Zhang, Huimin Zhang,Tianshan Wu, Ziyue Li , Zhijun Zhang, Huiyuan Sun*, Comparative study inFabrication and Magnetic properties of FeNi alloy nanowires and nanotubes, J.Magn.Magn.Mate., 331 (2013) 162–167 , [JCR Q2,IF:2.002]
27. Hui-min Zhang, Xiu-li Zhang,Jing-jing Zhang, Zi-yue Li, HuiyuanSun*, Fabrication and magnetic properties of CoNi alloy nanotube arrays, J. Magn. Magn.Mater., 342(2013)69-73, [JCR Q2, IF: 2.002]
28. Jing-jing Zhang, Xue Hou, Li-huLiu, and Huiyuan Sun*, Optical and magnetic properties of PAA@Fe nanocompositefilms, AIP Advances , 3, 072116 (2013); [JCRQ2@Q3,IF:1.590]
29. Zhang Jing-Jing , Li Zi-Yue, ZhangHui-Min, Hou Xue, and Huiyuan Sun*, Optical and magnetic properties of PAA @Conanocomposite films,Chin. Phys. B Vol. 22, No. 8(2013) 087805,[JCR Q2,IF:1.293]
30. Yunkai Qi, Guoliang Zhao, JianjunGu, Shumin Yang, Huiyuan Sun, Influence of oxygen partial pressure andannealing on magnetic properties of Al -doped ZnO thin films, Optoelectronics and Advanced Materials –Rapid Communications, Vol. 7, No. 5-6, 2013, pp. 420 – 424, [JCR Q4, IF: 0.402]
31. Qin Xu, Yu-Hua Yang, Li-Hu Liu,Jian-Jun Gu, Jing-Jin Liu, Zi-Yue Li, Huiyuan Sun*, Synthesis and OpticalProperties of Iridescent Porous Anodic Alumina Thin Films, J. Electrochem.Soc., 159 (1) C25-C28 (2012), [JCR Q1@Q2,IF: 2.590]
32. Qin Xu, Yuhua Yang, Jianjun Gu,Ziyue Li, Huiyuan Sun*,Influence of Al substrate on theoptical properties of porous anodic alumina film,Materials Letters,74(2012)137-139,[IF:2.307, JCR Q1@Q2 ]
33. 顾建军,孙会元*,刘力虎,岂云开,徐芹,结构相变对Fe掺杂TiO2薄膜室温铁磁性的影响,物理学报,Acta Phys. Sin. Vol. 61, No. 1(2012) 017501, [JCR Q3,IF:1.027]
34. 赵荣,顾建军,刘力虎,徐芹,蔡宁,孙会元*,FeCo二元合金纳米线阵列的磁化反转,物理学报,Acta Phys. Sin. Vol.61, No.2,027504, 2012, [JCR Q3,IF:1.027]
35. 顾建军,韩金荣,成福伟,刘力虎,孙会元*,镍锰铁氧体纳米线阵列的制备与表征,物理学报,Acta Phys. Sin. Vol. 61, No.9, 2012,097502[JCR Q3,IF:1.027]
36. 李志文,岂云开,顾建军,孙会元*,退火氛围对掺杂ZnO薄膜磁性的影响,物理学报,Acta Phys. Sin. Vol 61, No.13,2012,137501[JCR Q3,IF:1.027]
37. 顾建军,孙会元*,刘力虎,岂云开,徐芹,结构相变对Fe掺杂TiO2薄膜室温铁磁性的影响,物理学报,Acta Phys. Sin. Vol. 61, No. 1(2012) 017501, [JCR Q3,IF:1.027]
38. LI Zi-Yue, ZHANG Hui-Min, LIULi-Hu, SUN Hui-Yuan, Influence of Heating Rate on Morphologies and MagneticProperties of a-Fe2O3, 2012 Vol.29,No 3,036802,Chin. Phys. Lett. 29(3),[JCR 4区,IF:0.811]
39. Jian-Jun Gu, Guo-Liang Zhao,Fu-Wei Cheng, Jin-Rong Han, Li-Hu Liu,Hui-Yuan Sun,Magnetoelectricproperties of Mn-substituted BiFeO3 thin films with a TiO2 barrier,Physica B: Condensed Matter, Vol. 406, issue23, pp4400-4403, [JCR Q3,IF:0.856]
40. 顾建军,刘力虎,岂云开,徐芹,张慧敏,孙会元*,复合薄膜NiFe2O4-BiFeO3中的磁电耦合,物理学报, Vol.60, No.6, 067701,2011, [JCR Q3,IF:1.259]
41. 岂云开,顾建军,刘力虎,张海峰,徐芹,孙会元*,Al掺杂ZnO 薄膜的厚度对其结构及磁学性能的影响,物理学报, Vol.60, No.6, 067502,2011, [JCR Q3,IF:1.259]
42. 岂云开,顾建军,刘力虎,张海峰,徐芹,孙会元*,Al/ZnO/Al薄膜的结构与磁性分析,物理学报, Vol.60, No5, 057502(-1~5), 2011,[JCR Q3,IF:1.259]
43. Shunzhen Feng, Jihong Liu, Pu Hao,Yanhui Dong, Huiyuan Sun,Influence of annealing temperature on microstructure and magnetic properties ofTi/Ni/Ti thin films, Advanced Materials Research Vols.239-242(2011)pp1699-1702
44. Yunkai Qi,Jianjun Gu,Lihu Liu, Huiyuan Sun,Annealing effects on structural and magneticproperties of Al doped ZnO thin films,AdvancedMaterials Research Vols. 239-242(2011)pp2835-2838
45. Jian-Jun Gu, Li-Hu Liu, Yun-KaiQi, Qin Xu, Hui-Yuan Sun,Synthesisand Magnetic Characterization of Nickel Ferrite Nanowire Arrays Doped withManganese,Advanced Ma terials Research Vols.239-242(2011)pp1799-1802
46. Jian-Jun Gu, Li-Hu Liu,Yun-KaiQi, Qin Xu, Hai-Feng Zhang,Hui-YuanSun*,Magnetic characterization ofdiluted magnetic semiconductor thin films,Journalof Applied Physics,Vol. 109,No.2, 023902(2011), [JCRQ2,IF:2.064]
47. Qin Xu, Huiyuan Sun*, Yuhua Yang,Lihu Liu, Ziyue Li, Optical properties and color generation mechanism of porousanodic alumina films, APPLIED SURFACE SCIENCE, 258 (2011) 1826~1830, [JCR Q1@Q2,IF:2.103]
48. Shunzhen Feng, Jihong Liu, Pu Hao,Yanhui Dong, Huiyuan Sun,Influence of annealing temperature on microstructure and magnetic properties ofTi/Ni/Ti thin films, Advanced Materials Research Vols.239-242(2011)pp1699-1702,
49. Yunkai Qi,Jianjun Gu,Lihu Liu, Huiyuan Sun,Annealing effects on structural and magneticproperties of Al doped ZnO thin films,AdvancedMaterials Research Vols. 239-242(2011)pp2835-2838
50. Jian-Jun Gu, Li-Hu Liu, Yun-KaiQi, Qin Xu, Hui-Yuan Sun,Synthesis and Magnetic Characterization ofNickel Ferrite Nanowire Arrays Doped with Manganese,Advanced Materials Research Vols. 239-242(2011)pp1799-1802
51. FENG Shunzhen,XU Qin,DONGYanhui,MA Zhichun,Liu Jihong,SUNHuiyuan,Effect of Ti cap layer thicknesson microstructures and magnetic properties of Ti/Ni/Ti films,JOURNAL OF RARE EARTHS, Vol. 28, Spec. Issue,Dec. 2010, p. 406,(JCR 4区,1.086)
52. LIU Li-Hu, GU Jian-Jun, LIHai-Tao, CAI Ning, SUN Hui-Yuan, Synthesis and Characteristics ofElectrodeposited CoxZn1−x Nanorods, 2010 Vol.27,No 6,067501; Chin. Phys. Lett.26(1), (IF:1.077)
53. Jian-jun Gu, Li-hu Liu, Hai-taoLi, Qin Xu, Hui-yuan Sun, Annealing effects on structural and magnetic properties of Co-dopedZnO nanowires synthesized by an electrodeposition process ; Journal of Alloys andCompounds,508 (2010) 516–519 ;( IF:2.135, 工程技术2区,TOP)
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唐贵德
唐贵德 教授
tanggd@hebtu.edu.cn唐贵德 博士学位,我校凝聚态物理专业教授、博士生导师,
国务院特殊津贴专家,河北省有突出贡献中青年专家。
科研工作主要获奖成果
2014.12 钙钛矿和尖晶石结构磁性氧化物的阳离子分布研究,河北省自然科学一等奖,第一完成人
2010.12 宽禁带氧化物半导体磁有序研究,河北省自然科学二等奖,第三完成人
2000.12 三类硬磁畴畴壁中布洛赫线的稳定性, 河北省科技进步二等奖,第三完成人
1993.12 直流偏磁场和面内场中硬磁畴的稳定性,河北省科技进步二等奖,第三完成人
1993.10 布洛赫线存储器机理研究,中国科学院自然科学三等奖,第三完成人
1989.06 脉冲偏场作用下磁泡畴壁中布洛赫线的形成, 中科院自然科学三等奖,第六完成人
科研课题
2012.01-2015.12
主持国家自然科学基金面上项目,尖晶石铁氧体中阳离子分布的量子力学方法研究, 项目号:11174069
2001.01-2013.12
主持国家自然科学基金面上项目,(类钙钛矿/软磁材料)纳米复合材料研究, 项目号:10074013,
2015.01-2018.12
主持河北省自然科学基金项目,元素电离能和3d电子数目对尖晶石铁氧体磁结构影响的研究,A2015205111
2011.01-2013.12
主持河北省自然科学基金项目,钙钛矿结构材料中阳离子空位的分布和含量研究,项目号:E2011205083
2008.01-2010.12
主持河北省基础研究重点项目,类钙钛矿结构锰氧化物的结合能与阳离子化合价问题研究,项目号: 08965108D
2006.01-2008.12
主持河北省自然科学基金重点项目,掺杂(LaSr)MnO3复合材料磁电阻磁场传感器的温度稳定性研究,项目号: E2006000168
2000.01-2012.12
主持河北省自然科学基金项目,垂直布洛赫线稳定性研究, 项目号: 100147
近年来的主要研究亮点
[1]
为解决长期以来磁性材料磁有序方面存在的多个争议问题,以原子物理学为基础提出了我校磁性材料磁有序的三个模型:
第一,基于氧化物中除负二价氧离子外还存在一部分负一价氧离子,提出一个O2p巡游电子模型,用以替代传统的超交换和双交换作用模型,成功解释了典型氧化物的磁有序现象,包括存在广泛争议的我校尖晶石铁氧体中Mn、Cr、Ti离子的磁有序问题、钙钛矿结构锰氧化物磁矩变化问题等。
第二,提出自由原子Fe、Ni、Co的大部分4s电子在形成铁磁性金属时进入3d轨道,剩余的4s电子是导致金属导电性自由电子;从而利用平均原子磁矩实验值计算出实际的3d电子平均数目,成功解释了Fe、Ni、Co、Cu的电阻率随自由电子浓度的增加而减小。
第三,基于前两个模型,提出磁性金属和氧化物中巡游电子具有相似的性质:当相邻离子或原子实的外层轨道电子相遇时,只有两个电子的自旋方向相同才可以发生交换;如果自旋方向相反则不能交换,而是形成具有一定几率和寿命的外斯电子对;这种外斯电子对的能量才是磁性材料磁有序能的来源。
[2]
提出一个利用自由原子电离能的比值研究化合物中阳离子化合价和电离度问题的量子力学势垒模型,应用这个模型和上述O2p巡游电子模型,成功估算了多个系列尖晶石铁氧体的中的离子分布,把尖晶石铁氧体的的磁矩和阳离子分布关系从定性讨论推进到定量估算阶段。
[3]
成功解释了在欧美科学家间存在重要争议的我校自掺杂钙钛矿结构锰氧化物的阳离子分布问题。
主要教学工作和成果
本科生: 《固体物理学》、 《近代物理实验》
研究生: 《纳米材料学》、 《高等固体物理实验方法》
2013.03 庞磁电阻材料电阻率和磁电阻的温度特性测量—本科生实验设备和教材, 河北省教学成果三等奖,第一完成人
1993.04 固体物理教材建设习题、幻灯片和实验,河北省教学成果一等奖,第二完成人
2003.03 主编《近代物理实验》,河北科学技术出版社出版
至2016年,指导的研究生已有28人获硕士学位, 3人获博士学位。
主要兼职
2009-2017我校物理科学与信息工程学院材料科学与技术研究室主任
2002-2007我校物理实验教学中心主任,2005年获批省级物理实验教学示范中心。
1999-2005 新葡亰8883ent近代物理实验室主任,主持近代物理实验精品课建设,2003年获批省级精品课。
2003-2007作为特聘专家,协助河北省科技厅条件财务处编制河北省科技基础条件平台规划,参与一些相关的文件的起草工作。
2009-2011河北省大型精密仪器管理办公室专家组组长
多家期刊审稿人,包括Journal of Alloys and Compounds、Inorganic Chemistry、Materials Chemistry and Physics、RSC Advances、Journal of Cluster Science,中国物理快报、物理学报
与磁学国家重点实验室合作发表论文
[1]
齐伟华 李壮志 马丽 唐贵德*, 吴光恒, 胡凤霞, 磁性材料磁有序的分子场来源, 物理学报,66, 067501 (2017)
[2]
齐伟华,马丽, 李壮志,唐贵德*, 吴光恒, 金属价电子结构对磁性和电输运性质的影响, 物理学报,66, 027101 (2017)
[3]
J.Xu,L.Ma, Z.Z.Li, L.L.Lang, W.H.Qi, G.D.Tang*, L.Q.Wu, L.C.Xue, G.H.Wu, Antiferromagnetic coupling between Mn3+ and Mn2+ cations in Mn doped spinel ferrites, Physica Status Solidi B, 252, 2820-2829(2015)
其他代表性论文
[4]
L. Q. Wu, S. Q. Li, Y. C. Li, Z. Z. Li, G. D. Tang*, W. H. Qi, L. C. Xue, L. L. Ding and X. S. Ge, Presence of monovalent oxygen anions in oxides demonstrated using X-ray photoelectron spectra, Appl. Phys. Lett., 108, 021905-(1-4) (2016)
[5]
G. D. Tang*, D. H. Ji, Y. X. Yao, S. P. Liu, Z. Z. Li, W. H. Qi, Q. J. Han, X. Hou, and D. L. Hou, Quantum-mechanical method for estimating ion distributions in spinel ferrites, Appl. Phys. Lett., 98, 072511-(1-3) (2011)
[6]
G. D. Tang, S. P. Liu, X. Zhao, Y. G. Zhang, D. H. Ji, Y. F. Li, W. H. Qi, W. Chen, and D. L. Hou, Study of the free energy of the La1-xCaxMnO3 manganites based on the temperature dependence of the crystal cell volume, Appl. Phys. Lett., 95, 121906-(1-3) (2009)
[7]
G. D. Tang, D. L. Hou, W. Chen, P. Hao, G. H. Liu, S. P. Liu, X. L. Zhang, and L. Q. Xu, Estimation of Mn4+ ion content ratio in self-doped compound La1-xMnO3-d, Appl. Phys. Lett., 91, 152503-(1-3) (2007)
[8]
G. D. Tang, D. L. Hou, W. Chen, X. Zhao, and W. H. Qi, Quantum-mechanical model estimating the number ratio between different valence cations in multi-atom compounds, Appl. Phys. Lett., 90, 144101-(1-2) (2007)
[9]
G. D. Tang, D. L. Hou, Z. Z. Li, X. Zhao, W. H. Qi, S. P. Liu, F. W. Zhao, Influence of cohesive energy on unit cell volume of perovskite manganites La1-xMxMnO3, Appl. Phys. Lett., 89, 261919-(1-3), (2006)
[10]
J.Xu, D.H.Ji, Z.Z.Li, W.H.Qi, G.D.Tang*, Z.F.Shang, X.Y.Zhang, Magnetic moments of Ti cations in Ti-doped Ni0.68Fe2.32O4 spinel ferrites, J. Alloy Comp., 619, 228-234(2015)
[11]
S.R.Liu, D.H.Ji, J.Xu, Z.Z.Li, G.D.Tang*, R.R.Bian, W.H.Qi, Z.F.Shang, X.Y.Zhang, Estimation of cation distribution in spinel ferrites Co1+xFe2-xO4 (0.0£x£2.0) using the magnetic moments measured at 10 K, J. Alloy Comp., 581, 616-624 (2013)
[12]
S. P. Liu, G. D. Tang*, Z. Z. Li, W.H.Qi, D. H. Ji, Y. F. Li, W. Chen, D. L. Hou, Study of the structure, magnetic properties and free energy of the three phase composites La0.7-y-zSr0.3-xMn1-δ/3O3-δ/(La2O3)y/2/(La(OH)3)z, J. Alloy Comp., 509, 2320-2325 (2011)
[13]
L.L.Lang, J.Xu, W.H.Qi, Z.Z.Li, G.D.Tang*, Z.F.Shang, X.Y.Zhang, L.Q.Wu, L.C.Xue, Study of cation magnetic moment directions in Cr (Co) doped nickel ferrites, J. Appl. Phys., 116, 123901-(1-10)(2014)
[14]
D.H.Ji, G.D.Tang*, Z.Z.Li, Q.J.Han, X.Hou, R.R.Bian, S.R.Liu, Investigation on the maximum content of vacancy at the B sites in La0.75Sr0.25Mn1-xO3 perovskite, J. Appl. Phys., 111, 113902-(1-6) (2012)
[15]
Shao-Peng Liu, Yan Xie, Juan Xie, Gui-De Tang*, Structural and magnetic properties of self-doped perovskite manganites La0.8-xSr0.2MnO3-d, J. Appl. Phys., 110, 123714-(1-6) (2011)
[16]
S. P. Liu, G. D. Tang*, P. Hao, L. Q. Xu, Y. G. Zhang, W. H. Qi, X. Zhao, D. L. Hou, W. Chen. Rietveld fitting of X-ray diffraction spectra for the double phase composites La0.7-xSr0.3Mn1-yO3-1.5(x+y)/(Mn3O4)y/3,J. Appl. Phys., 105, 013905-(1-6) (2009)
[17]
D. H. Ji, G. D. Tang*, Z. Z. Li, X. Hou, Q. J. Han, W. H. Qi, R. R. Bian and S. R. Liu, Quantum mechanical Method for Estimating Ionicity of Spinel Ferrites J. Magn. Magn. Mater., 326, 197-200 (2013)
[18]
Q.J.Han, D.H.Ji, G.D.Tang*, Z.Z.Li, X.Hou, W.H.Qi, S.R.Liu, R.R.Bian, Estimating the cation distributions in the spinel ferrites Cu0.5-xNi0.5ZnxFe2O4 (0.0£x£0.5), J. Magn.Magn. Mater., 324, 1975-1981 (2012)
[19]
S.P. Liu, Y. Xie, G.D. Tang*, Z.Z. Li, D.H. Ji, Y.F. Li, D.L Hou, Investigation on cation distribution and magnetic properties in self-doped manganites La0.6-xSr0.4MnO3-d , J. Magn.Magn.Mater. 324, 1992-1997(2012)
[20]
Q.J.Han, D.H.Ji, G.D.Tang*, Z.Z.Li, X.Hou, W.H.Qi, R.R.Bian, S.R.Liu, Dependence of magnetization on cation distributions in the spinel ferrites Cu1-xZnxFe2O4(0.0£x£1.0), Phys. Stat. Sol. (a), 209: 766–772 (2012)
[21]
S. P. Liu, Y. G. Zhang, G. D. Tang*, W. H. Qi, D. H. Ji, Y. F. Li, G. H. Liu, Y. Xie, W. Chen, D. L. Hou, Influence of heat treatment on the vacancy content at the B-site in the ABO3 manganites La0.6Sr0.1MnO3-δ, Phys. Stat. Sol. (a), 207, 2437-2445 (2010)
[22]
G. D. Tang*, X. M. Liu, Z. Z. Li, D. L. Hou, X. Zhao, L. H. Liu1 W. H. Qi, Y. Yu, R. C. Yu, and C. Q. Jin, Temperature stability and linear magnetic field response of the magnetoresistance in Ag0.07–La0.67Sr0.13Ag0.08D0.12MnO3 composite, Phys. Stat. Sol. (a), 203, 2522–2531(2006)
[23]
J.Xu, D.H.Ji, Z.Z.Li, W.H.Qi, G.D.Tang*, X.Y.Zhang, Z.F.Shang, L.L.Lang, Estimate of the cation distribution for Ti-doped Ni0.68Fe2.32O4 spinel ferrites by fitting magnetic moments at 10 K, Physica Status Solidi B, 252, 411-420(2015)
[24]
L.L. Ding, L.C. Xue, Z.Z. Li, S.Q. Li, G.D.Tang*, W.H. Qi, L.Q. Wu, X.S. Ge, Study of cation distributions in spinel ferrites MxMn1-xFe2O4 (M=Zn, Mg, Al). AIP Advances, 6, 105012-(1-23) (2016)
[25]
L. C. Xue, L. L. Lang, J. Xu, Z. Z. Li, W. H. Qi, G. D. Tang*, and L. Q. Wu, Magnetic moment directions and distributions of cations in Cr (Co) substituted spinel ferrites Ni0.7Fe2.3O4, AIP Advances, 5, 097167-(1-18) (2015)
[26]
L.Q.Wu, Y.C.Li, S.Q.Li, Z.Z.Li, G.D.Tang*, W.H.Qi , L.C.Xue , X.S.Ge, and L.L.Ding, Method for estimating ionicities of oxides using O1s photoelectron spectra, AIP Advances, 5, 097210-(1-7) (2015)
[27]
X. S. Ge, L. Q. Wu, S. Q. Li, Z. Z. Li, G. D. Tang*, W. H. Qi, H. J. Zhou, L. C. Xue, L. L. Ding, Study of magnetic ordering in the perovskite manganitesPr0.6Sr0.4CrxMn1-xO3, AIP Advances, 7 : 045302-(1-16) (2017)
[28]
L. C. Xue, L. Q. Wu, S. Q. Li, Z. Z. Li, G. D. Tang*, W. H. Qi, X. S. Ge, and L. L. Ding, Study of electron transition energies between anions and cations in spinel ferrites using differential UV-vis absorption spectra, Physica B, 492, 61-64(2016)
[29]
G.D.Tang, Z.F.Shang, X.Y.Zhang, J.Xu, Z.Z.Li*, C.M.Zhen, W.H.Qi, L.L.Lang, Evidence from infrared spectra for the magnetic moment directions of Cr cations in the spinel ferrites, Physica B, 463, 26-29(2015)
[30]
L.L.Lang, J.Xu, Z.Z.Li, W.H.Qi, G.D.Tang*, Z.F.Shang, X.Y.Zhang, L.Q.Wu, L.C.Xue, Study of the magnetic structure and the cation distributions in MnCo spinel ferrites, Physica B , 462, 47-53(2015)
[31]
X.Y. Zhang, J.Xu, Z.Z.Li, W.H.Qi, G.D.Tang*, Z.F.Shang, D.H.Ji, L.L.Lang, Experimental evidence for the magnetic moment directions of Cr2+ and Cr3+ cations in the spinel ferrites Cux1Crx2Fe3- x1-x2O4, Physica B, 446, 92-99 (2014)
[32]
G.D.Tang, Q.J.Han, J.Xu, D.H.Ji, W.H.Qi, Z.Z.Li*, Z.F.Shang, and X.Y.Zhang, Investigation for magnetic ordering and cation distribution in spinel ferrites CrxFe3-xO4 (0.0£x£1.0), Physica B. 438, 91-96 (2014)
[33]
S. P. Liu, G. D. Tang*, Z. Z. Li, W. H. Qi, D. H. Ji, Y. F. Li, W. Chen, D. L. Hou, Structural and magnetic properties in the self-doped perovskite manganites with nominal composition La0.7S0.3-xMnO3-d, Physica B, 406, 869-876 (2011)
[34]
X.Hou, D.H.Ji, W.H.Qi*, G.D.Tang, Z.Z.Li, Study of structural and magnetic properties of La0.7Sr0.1AgxMnO3-δ perovskite manganites, Chinese Physics B, 24, 057501-(1-7)(2015)
[35]
Z.F.Shang, W.H.Qi, D.H.Ji, J.Xu, G.D.Tang*, X.Y.Zhang, Z.Z.Li, L.L.Lang, Cation distributions estimated using the magnetic moments of the spinel ferrites Co1−xCrxFe2O4 at 10 K, Chinese Physics B, 23, 107503-(1-10)(2014)
[36]
武力乾, 齐伟华, 李雨辰, 李世强, 李壮志, 唐贵德*, 薛立超, 葛兴烁, 丁丽莉, 热处理对钙钛矿锰氧化物La0.95Sr0.05MnO3离子价态和磁结构的影响, 物理学报,65, 027501-(1-9) (2016)
[37]
徐静, 齐伟华,纪登辉,李壮志,唐贵德* 等,尖晶石铁氧体TixNi1-xFe2O4中阳离子分布和Ti 离子磁矩的实验研究,物理学报,64, 017501-(1-11) (2015)
[38]
杨虹 齐伟华* 纪登辉 尚志丰 张晓云 徐静 郎莉莉 唐贵德, 钙钛矿锰氧化物La2/3Sr1/3FexMn1-xO3的结构与磁性研究, 物理学报,63, 087503-(1-7)(2014)
[39]
JI Denghui, HOU Xue, Tang Guide*, Li Zhuangzhi, HOU Denglu, and ZHU Minggang, Oxygen content and magnetic properties of composites La0.75Sr0.25MnO3±δ calcined at different temperatures, Rare metals, 33, 452-458(2014)
[40]
Yanfeng Li, Denghui Ji, Shaopeng Liu, Guide Tang*, Yuxi Yao, Zhuangzhi Li, and Denglu Hou, Minggang Zhu, Behavior of Mn2+ ions in perovskite manganites with nominal composition La0.6-xNdxSr0.1MnO3, Rare metals, 31, 379-386(2012)
[41]
LI Yanfeng, JI Denghui, ZHAO Zhiwei, Tang Guide*, LIU Shaopeng, ZHANG Yuge, Li Zhuangzhi, HOU Denglu, and ZHU Minggang, Role of Te and Mn in the two phases of manganite with nominal composition La0.6Sr0.1TexMnO3, Rare metals, 30, 232-240(2011)
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侯登录
1965 年 1 月生,河北临西人,教授,博士生导师,河北省有突出贡献中青年专家,河北省文史研究馆馆员。
主讲本科生《力学》,《普通物理》,《近代物理实验》,研究生《磁性物理》等课程。主持多项国家自然科学基金、河北省自然科学基金和河北省教育厅基金项目。先后获得河北省自然科学二等奖(第一完成人)、一等奖(第二完成人)各1项,发表论文 100余篇,论文他引800余次。
培养硕士研究生29人,培养博士研究生7人,出站博士后3人。在读硕士研究生3人,在读博士研究生2人,在站博士后1人。
工作与学习简历:
1982 年 9 月 -1986 年 7 月,我校物理系读本科;
1986 年 7 月 -1994 年 9 月,我校物理系工作;
1994 年 9 月 -1997 年 7 月,我校物理系攻读理论物理专业硕士研究生;
1997 年 7 月 -1999 年 9 月,我校物理系工作;
1999 年 9 月 -2002 年 7 月,天津大学理学院攻读材料物理与化学专业博士学位研究生。
2002 年 7 月-2011年12月,新葡亰8883ent任教授、副院长、院长
2011年12月—今,我校图书馆任馆长
详情参见本课题组网站: /a/yanjiushengjiaoyu/peiyangjihua/cxktz/Templates/shouye.htm
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陈伟
陈伟,教授 , 理学博士,博士生导师 , 中青年骨干教师
E_mail: chen07308@mail.hebtu.edu.cn主要经历:
1980.9-1984.6,我校物理系,学士。
1995.9-1998.6,南京大学物理系,硕士。
2000.9-2003.6,山东大学物理与微电子学院,博士。
2005.9-2006.9, 丹麦技术大学物理系,客座教授。
研究方向:纳米体系功能材料,新型薄膜材料, 氧化物薄膜阻变存储器。
教学工作:先后主讲《普通物理》、《量子力学》、《热力学与统计物理》、《数学物理方法》、《力学》、《热学》、《近代物理实验》、《半导体物理》(双语)等课程。
科研工作:作为第一主研人完成国家自然科学基金《(类钙钛矿/软磁材料)纳米复合材料的研究》项目的研究。参加国家高新技术研究发展计划(863计划)《基于磁性温度感知合金的核电站极端环境下智能保护技术研究》的研究工作。先后主持完成河北省自然科学基金《双层钙钛矿锰氧化物的制备与磁热效应研究》、石家庄市科学技术研究与发展计划课题《低贵稀土含量钕铁硼永磁材料的成分设计与工艺控制》、河北省人力资源和社会保障厅(人事厅)国家和省留学人员科技活动项目择优资助项目《低贵稀土含量钕铁硼永磁材料的研究》、河北省教育厅博士基金《熔体快淬制备高性能低成本纳米复合永磁材料》、科技厅科技攻关项目《各向异性纳米复合永磁材料等研究》等课题。目前主持河北省教育厅《具有磁性的RRAM存储器的研制》(项目编号 :ZH2012067,6万,2013.1-2015.12),河北省自然科学基金项目《磁性非挥发电阻式随机存储器研究》(项目编号 :A2013205149,5万,2013.1-2015.12),国家自然科学基金面上项目《金属氧化物半导体阻变存储器中的磁性开关效应研究》(项目批准号:11574071,80万,2016.1-2019.12)。在国内外重要学术期刊发表论文90余篇,申请发明专利5项。目前研究的磁性RRAM存储器方向的研究成果发表在Journal of Materials Chemistry C,Applied Physics Letters,Journal of Applied Physics等国际重要学术期刊上。
研究生培养:已培养全日制硕士生20余人,委托培养3人。已毕业博士生3人。目前在读硕士生5人,博士生2人。
就业情况:已毕业博士生均在高校任教,已毕业全日制硕士毕业生中, 1人考取博士研究生,6人进入外企或省直单位,2人在中学任教,其余全部进入高校工作。
发表文章:发表论文 90 余篇, SCI 收录 70余篇。
近年以第一作者或责任作者(*)发表的代表性论文:
1. Electric Field Control of Magnetism in Ti/ZnO/Pt and Ti/ZnO/SRO Devices, Shu-xia Ren,Li-yong Zhang, Jing-yu Dong, Yan-fang Huang, Jia-jun Guo, Li Zhang, Jing Zhao, Xu Zhao, and Wei Chen*, Journal of Materials Chemistry C 3(2015), 4077-4080. (JCR 1区,IF:6.629)
2. Study on the Oxygen Vacancy Redistribution and the Mechanism of Electrical Manipulation of Ferromagnetism in Diluted Magnetic Oxides, Shuxia Ren, Jingyu Dong, Wei Chen*, Liyong Zhang, Jiajun Guo, Li Zhang, Jing Zhao, and Xu Zhao, J. Appl. Phys., 118, 233902 (2015) (JCR 3区,IF:2.183)
3. Electric field-induced magnetic switching in Mn:ZnO film, S. X. Ren, G. W. Sun, J. Zhao, J. Y. Dong, Y. Wei, Z. C. Ma, X. Zhao, and W. Chen*. Applied Physics Letters 104, 232406 (2014); (JCR 2区,IF:3.515)
4. First-principles study of the formation and electronic structure of conductive filament in ZnO-based resistive random access memory, Zhao Jing, Dong Jing-Yu, Ren Shu-Xia, Zhang Li-Yong, Zhao Xu, and Chen Wei*, Chin. Phys. B Vol. 23, No. 12 (2014) 127301
5. Role of Oxygen Vacancy Arrangement on the Formation of a Conductive
Filament in a ZnO Thin Film, ZHAO Jing, DONG Jing-Yu, ZHAO Xu, CHEN Wei*, CHIN. PHYS. LETT. Vol. 31, No. 5 (2014) 057307
6. Electric field induced simultaneous change of resistance and magnetization in an Ag/Ti/Fe3O4/Pt device, Shu-xia Ren, Xu-tao Song,Guo-wei Sun,Xu Zhao,Hui-fang Yang, and Wei Chen*, J. Mater. Chem. C, 2013, 1, 7879 (JCR 1区,IF:6.629)
7. Ti/Pr0.7Ca0.3MnO3/La0.67Sr0.33MnO3/Pt异质结电致电阻效应的改善,王仲伟,张建,李红维,董春颖,赵晶,赵旭,陈伟*, Acta Physica Sinica,2011, 60(11):117306
8. Effective Anisotropy in Magnetically Nd2Fe144B / α-Fe Nanocomposite, Guo Jia-Jun, Chen Lei, Zhao Xu, Fan Su-Li and Chen Wei*, Chin. Phys. Lett., 27(2010) 057502
9. One-step synthesis and structural quantitative analysis of La2/3Sr1/3MnO3/La1.4Sr1.6Mn2O7 composite, ZHAO Xu, CHEN Wei*, ZONG Yun, DONG Yanhui, GUO Jiajun, FAN Suli, JOURNAL OF RARE EARTHS, 28(4), 2010, 606
10. Structure, magnetic and magnetiocaloric properties in La1.4Sr1.6−xCaxMn2O7 perovskite compounds, X. Zhao, W. Chen*, Y. Zong, S.L. Diao, X.J. Yan, M.G. Zhu, Journal of Alloys and Compounds, 469(1-2) 2009, 61-65
11. Struactral, magnetic and magnetocaloric properties of La-deficient La0.77-xSrxCa0.2MnO3 perovskite, Zhao Xu, Chen Wei*, Li Aijun, Ma Limei, Zong Yun, Chin. Phys. Lett., 26 (2009) 087401
12. A Mössbauer study of the chemical stability of iron oxide nanoparticles in PMMA and PVB beads,Wei Chen, Steen Mørup, Mikkel F. Hansen, Tobias Banert, and Urs A. Peuker, J.Magn.Magn.Mater., 320,(2008)2099
13. Crystallographic Texture and Domain Structure of Nd3:8Dy0:7Pr3:5Fe86Nb1B5 Nanocomposite Prepared by Direct Rapid Solidification, Shu-lin Diao, Wei Chen*, Xu Zhao, Xiu-jun Yan,CHINESE JOURNAL OF CHEMICAL PHYSICS, VOLUME 20, 2007, pp.748-752
14. Effect of Mn-site vacancies on the magnetic entropy change and the Curie temperature of La0.67Ca0.33Mn1-xO3, W. Chen*, L.Y. Nie, X. Zhao, W. Zhong, G.D. Tang, A.J. Li, J.J. Hu, Y. Tian,Solid State Communications 138(2006)165-168
15. Refinement of the microstructure and enhancement of the magnetic properties in <alpha>-Fe/(Nd,Dy)2Fe14B nanocomposite using the two-step annealing technique, W. Chen*, X. Zhao, J .J.Hu, A.J.Li, G.D.Tang, R.W.Gao, M.G.Zhu, X.M.Li, W.Li,J.Magn. Magn. Mater. 306(2006),51-54
16. Magnetocaloric effect in Nd doped perovskite La0.7-xNdxBa0.3MnO3polycrystalline near room temperature, W. Chen*, L. Y. Nie, W. Zhong, Y. J. Shi, J. J. Hu, A. J. Li, Y.W. Du, J. Alloys & Compounds, 395 (1-2), 2005, pp.23-25, 31
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李壮志
副教授,理学博士,硕士生导师。
2002年7月毕业于中国科学院物理研究所凝聚态物理专业,获理学博士学位,期间从事过的工作包括MgB2超导体电子隧道谱研究;Co2FeGa等Heusler磁性合金的电子结构、输运性质的研究。
2003-2005年在北京大学新葡亰8883ent做博士后研究,主要方向是高温超导π环及其阵列的理论及实验研究。
2006-2009年在美国堪萨斯大学做博士后访问学者,主要工作包括半导体纳米材料的生长及表征;单根半导体纳米线、碳纳米管等纳米电子器件的制备,研究其在太阳能光伏转换、红外探测等方面的基本物理性质及其应用。
2010年至今,从事高性能氧化物热电薄膜的生长、掺杂及性能研究,包括p型错配层结构的钴氧化物Ca3Co4O9,n型的SrTiO3及其R-P同源相等。
2001年以来,在Physical Review B,Applied Physics Letters,Nanotechnology等国际期刊发表SCI论文30余篇。
2009年开始指导硕士研究生,从2012年开始至2016年已经毕业6人,他们分别进入外资企业、国内高校工作以及进入国内、外著名大学攻读博士学位。
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安忠
安忠:1991年7月我校物理系本科毕业,1994年4月于华中理工大学(现华中科技大学)物理系获硕士学位,1994年4月至1997年12月在我校物理系任教,1997年12月考取香港中文大学物理系博士研究生,2000年12月毕业取得博士学位,2001年1月至2002年12月,在复旦大学物理系做博士后,后留校任教,2004年至今,任我校教授,博士生导师。
安忠教授主要从事低维凝聚态理论方面的研究工作。目前主要研究方向包括:有机导电聚合物的基本物理性质、有机光电器件中的物理过程、有机分子的电荷/自旋传输特性等。主要学术成果有:1/对有机聚合物中光生载流子(荷电极化子)产生的物理机制给出了一个合理的物理解释;2/揭示了极化子运动速度与CDW-SDW量子相变间的关系;3/对有机电致发光中三态激子的湮灭与转化及其对发光效率的影响给出了定性的理解;4/利用ab initio分子轨道理论和有限场方法,系统研究了共轭线性分子的光学极化率,特别是不同电子活性基团取代,孤子、极化子等元激发、掺杂原子、以及这些因素的共同作用对非线性光学极化率的影响,给出共轭聚合物结构和非线性光学性质之间的关系。研究工作一方面能够促进凝聚态理论发展,同时也为有机光电子应用提供理论指导。在Phys. Rev. Lett.、Phys. Rev. B、Appl. Phys. Lett.、J. Chem. Phys.、Organic Electronics 等国内外物理学术期刊上发表论文67篇,论文被引用300余次,在国内外相关研究领域具有一定影响。研究成果“有机共轭聚合物的物理特性研究”荣获2006年河北省自然科学二等奖。2007年获第八届河北省青年科技奖。近几年,先后主持了国家自然科学基金“发光高聚物中荷电极化子动力学研究”、“有机光电器件中元激发的动力学特性研究”和“有机材料中载流子迁移、复合动力学特性的理论研究”等研究项目;参加了国家自然科学基金重大研究计划中的重点项目“有机固体及聚合物器件新效应”的研究工作;2009年获得河北省杰出青年基金资助。先后主讲了本科生《数学物理方法》、《原子物理学》、《热学》等物理系主干课程。
安忠教授曾多次获得各种奖励和称号:2005年入选教育部新世纪优秀人才支持计划和河北省新世纪“三三三人才工程”;2006年获河北十大杰出青年、石家庄市劳动模范、我校五四青年奖章等多项荣誉称号;研究成果获2006年河北省自然科学二等奖和2012年河北省自然科学三等奖;2007年荣获全国模范教师光荣称号、第八届河北省青年科技奖;2008年被评为河北省有突出贡献的中青年专家;2009年获得河北省杰出青年基金资助。
联系方式:
Email: zan@hebtu.edu.cn
Tel: 86-311-80787347附:代表性论文和科研课题
2012年(4篇) [67] B. Di, Y. D. Wang, Y. L. Zhang, Z. An*
The effect of interface hopping on inelastic scattering of oppositely charged polarons in polymers
Chinese Phys. B(2012)[66] Y. Meng*, B. Di*, Y. D. Wang, X. J. Liu, Z. An*
Recombination of two triplet excitons in conjugated polymers
Euro. Phys. J. B 85, 415(2012)[65] H. Zhao, Y. G. Chen, Y. H. Yan, Z. An, C. Q. Wu
Correlation effects on the scattering of soliton pairs in conjugated polymers
Europhys. Lett. 100, 57005(2012)[64] Y. D. Wang, B. Di, Y. Meng, X. J. Liu, Z. An*
The Dynamical Formation of Trion in Conjugated Polymers
Organic Electronics 13, 1178 (2012)2011年(5篇)
[63] B. Di, Y. Meng, Y. D. Wang, X. J. Liu, Z. An*
Electroluminescence Enhancement in Polymer Light-Emitting Diodes Through Inelastic Scattering of Oppositely Charged Bipolarons
J. Phys. Chem. B 115, 9339 (2011)
[62] X. J. Liu, Z. An*
Structural change-induced negative differential resistance in poly-thiophene
Organic Electronics 12, 1352 (2011)
[61] X. J. Liu, Z. An*, S. J. Xie
Spin generation from bipolaron dissociation induced by magnetic impurities in conjugated polymers
Int. J. Mod. Phys. B 25, 1601 (2011)[60] B. Di, Y. Meng, Y. D. Wang, X. J. Liu, Z. An*
Formation and Evolution Dynamics of Bipolarons in Conjugated Polymers
J. Phys. Chem. B 115, 964 (2011)
[59] Z. Sun, D. S. Liu, S. Stafström, Z. An
Scattering process between polaron and exciton in conjugated polymers
J. Chem. Phys. 134, 044906 (2011)
2010年(4篇)
[58] Y. D. Wang, Y. Meng, B. Di, S. L. Wang, and Z. An*
Effects of polarons on static polarizabilities and second order hyberpolarizabilities of conjugated polymers
Chin. Phys. B. 19, 127105 (2010)
[57] 宋瑞,刘晓静,王亚东,邸冰,安忠*
电子-晶格耦合非线性项对极化子性质的影响
物理学报 59, 3461 (2010).
R. Song, X. J. Liu, Y. D. Wang, B. Di, Z. An*
Effects of nonlinear electron-lattice interaction on polarons
Acta Physica Sinica 59, 3461 (2010)
[56] Y. Meng, Z. An*
Effects of interchain coupling on photoexcitation in two coupled polymer chains in the presence of an electric field
Euro. Phys. J. B74, 313 (2010)
[55] Z. Sun, Y. Li, K. Gao, D. S. Liu*, Z. An*, S. J. Xie
Dynamical study of polaron-bipolaron scattering in conjugated polymers
Organic Electronics 11, 279 (2010)
Times Cited: 11
2009年(6篇)
[54] Y. Meng, X. J. Liu, B. Di, Z. An*
Recombination of polaron and exciton in conjugated polymers
J. Chem. Phys. 131, 244502 (2009)
Times Cited: 12
[53] H. Zhao, Y. G. Chen, Y. Yao, C. Q. Wu, X. M. Zhang, Z. An
Spin-flip processes of polarons by magnetic impurities in conjugated polymers
J. Chem. Phys. 131, 154901 (2009)
[52] H. Zhao, X. M. Zhang, Z. An, Y. G. Chen, C. Q. Wu
Spin-Flip Process of Polarons in Conjugated Polymers with Magnetic Impurities
Chin. Phys. Lett. 26, 087203(2009)[51] 孙震, 安忠, 李元, 刘文, 刘德胜, 解士杰
高聚物中极化子和三重态激子的碰撞过程研究
物理学报58,4150(2009)[50] H. Zhao, Y. G. Chen, X. M. Zhang, Z. An, C. Q. Wu
Correlation Effects on the Dynamics of Bipolarons in Non-degenerate Conjugated Polymers
J. Chem. Phys. 130, 234908 (2009)[49] Z. Sun, Y. Li, S. J. Xie, Z. An*, D. S. Liu*
Scattering Processes between Bipolaron and Exciton in Conjugated Polymers
Phys. Rev. B (Rapid Communication) 79,201310 (2009)
Times Cited: 12
2008年(4篇)
[48] H. Zhao, Y. Yao, Z. An, C. Q. Wu
Dynamics of polarons in conjugated polymers: An adaptive time-dependent density- matrix renormalization-group study
Phys. Rev. B78, 035209 (2008)
Times Cited: 12
[47] Z. An*, B. Di, H. Zhao, C. Q. Wu
Inelastic scattering of oppositely charged polarons in conjugated polymers
Euro. Phys. J. B 63, 71 (2008)
Times Cited: 13
[46] Y. Meng, B. Di, X. J. Liu, Z. An*, C. Q. Wu
Interchain coupling effects on dynamics of photoexcitations in conjugated polymers
J. Chem. Phys. 128, 184903 (2008)
Times Cited: 14
[45] B. Di, Y. Meng, Z. An*, and Y. C. Li
Dynamics of polaron at polymer/polymer interface
Chin. Phys. Lett. 25, 679 (2008)2007年(1篇)
[44] B. Di, Z. An*, Y. C. Li, and C. Q. Wu
Effects of e-e interactions on the dynamics of polarons in conjugated polymers
Europhys. Lett. 79, 17002 (2007)
Times Cited: 13
2005年(5篇)
[43] Y. H. Yan, Z. An, C. Q. Wu
Formation dynamics of bipolaron in a metal/polymer/metal structure
European Phys. J. B48, 501 (2005)[42] 安忠,吴长勤,孙鑫
有机高分子中光生极化子的物理机制
物理34,565(2005).[41] 谢尊,安忠,张迎涛,李有成
顺式聚乙炔中的次近邻电子相互作用
河北工业大学学报 34, 1 (2005)[40] 谢尊,安忠,李有成,刘英
钉扎效应对聚噻吩中双空穴极化子附近局域振动模的影响
物理学报54,3922 (2005)[39] H. Zhao, Z. An, C. Q. Wu
Lattice vibrational analysis of polyacene
Euro. Phys. J. B 43, 53 (2005)2004年(4篇)
[38] Z. An, C. Q. Wu
Dynamics of self-localized excitations in a polyacene chain
Euro. Phys. J. B 42, 467 (2004)[37] Y. H. Yan, Z. An, C. Q. Wu
Dynamics of polaron in a polymer chain with impurities
Euro. Phys. J. B 42, 157 (2004)
Times Cited: 19
[36] Z. An, C. Q. Wu, and X. Sun
Dynamics of photogenerated polarons in conjugated polymers
Phys. Rev. Lett. 93, 216407 (2004)
Times Cited: 59
[35] Z. An, Z. Ye
Band gap and localization of water waves over one-dimensional topographical bottoms
Appl. Phys. Lett. 84, 2952 (2004)2003年(8篇)
[34] Z. An, K. Y. Wong
Bond-length-alternation and the hyperpolarizabilities of a charged soliton in polyenic chains
J. Chem. Phys. 119, 1204 (2003)[33] Z. An, C. Q. Wu
Elementary excitations and optical absorption in a polyacene chain
Int. J. Mod. Phys. B17, 2023(2003)[32] Z. An, Y. J. Wu, C. Q. Wu
Charge-transfer in soliton and polaron states of phenyl-substituted polyacetylenes
Synth. Met. 135, 509 (2003)[31] Z. An, C. Q. Wu
A dynamic study on polaron-pair scattering in a polymer chain
Synth. Met. 137, 1151(2003)[30] C. Q. Wu, Y. Qiu, Z. An, K. Nasu
Dynamical study on polaron formation in a metal/polymer/metal structure
Phys. Rev. B 68, 125416(2003)
Times Cited: 48
[29] Y. Qiu, Z. An, C. Q. Wu
Dynamics of polaron formation in a polymer/metal structure
Synth. Met. 135, 503(2003)[28] H. Zhao, Z. An, C. Q. Wu
Localized excitations and vibrational modes in a polyacene chain
Synth. Met. 135, 505 (2003)[27] Y. M. Kang, Z. Xie, Z. An, Y. C. Li, N. X. Chen
Nonlinear electron-lattice interaction on excited states in polythiophene
J. Phys. & Chem. of solids 64, 377 (2003)2002年(2篇)
[26] Y. J. Wu, H. Zhao, Z. An, and C. Q. Wu
Localized phonons in a pristine polyacene chain
J. Phys.: Condensed Matter 14, L341 (2002)[25] 贾武林,吴永坚,安忠,吴长勤
苯基取代聚乙炔中的元激发
物理学报 51, 2595 (2002)2001年(1篇)
[24] Z. An, K. Y. Wong
Long chain-length behaviors of optical nonlinearities of substituted polyenic chains with charged topological defects
J. Chem. Phys. 114, 1010 (2001)
Times Cited: 23
2000年(2篇)
[23] Z. An, Z. J. Li, Y. Liu, Y. C. Li
Two-dimensional localized modes in conjugated polymers: the nonlinear electron- phonon coupling effect
Chinese Phys. 9, 37 (2000)
Times Cited: 10
[22] Z. Xie, Y. M. Kang, Z. An and Y. C. Li
Two-dimensional localized vibrational modes of polythiophene around a bipolaron
Phys. Rev. B 61, 1096 (2000)
Times Cited: 91999年(2篇)
[21] 谢尊, 安忠, 李有成
聚噻吩中双极化子附近的二维局域振动模
物理学报 48, 1938 (1999)[20] Z. J. Li, H. Q. Lin, Z. An, K. L. Yao
The kink distortion in quasi-one-dimensional conjugated polymer with a side radical
J. Phys. Soc. Jpn. 68, 190 (1999)1998年(3篇)
[19] 谢尊,安忠,李玉现,李有成
次近邻电子跳跃对顺式聚乙炔中双极化子的电子态和局域振动模的影响
我校学报22, 42 (1998)[18] 安忠,谢尊,李占杰,李有成
钠掺杂反式聚乙炔中孤子晶格的局域振动模
河北科技大学学报19, 17 (1998)[17] Z. J. Li, H. Q. Lin, Z. An, K. L. Yao
The pair of soliton-like distortions in organic ferromagnetic conjugated polymers
J. Chem. Phys.109, 10082 (1998)1997年(1篇)
[16] Z. An, Z. J. Li, Y. Liu, Y.C. Li
Effects of the nonlinear electron-lattice interaction on the electronic states and localized modes around a soliton in polyacetylene
Z. Phys. B103, 61 (1997)1996年(1篇)
[15] Z. J. Li, Z. An, Y. S. Xiong, K. L. Yao
Localized vibrational modes around solitons in coupled trans-polyacetylene chains
Z. Phys. B100, 429 (1996)1995年(4篇)
[14] 姚凯伦,安忠,李占杰, 李再光
顺式聚乙炔单极化子能谱及电子束缚态
华中理工大学学报23, 126 (1995)[13] Z. J. Li, Z. An, K. L. Yao
The vibrational-modes around the soliton lattice with next neighbor hopping interactions in highly doped trans-polyactylene
Z. Phys. B97, 499(1995)[12] Z. An, Z. J. Li, Z. L. Liu, K. L. Yao
New energy-spectra structure of polaron in trans-polyacetylene
Commun. Theor. Phys. 23, 159 (1995)[11] Z. J. Li, Z. An, K. L. Yao
Polaron excitation in trans-polyacetylene:effects of the second-nearest neighbor hopping interactions
J. Phys. Soc. Jpn. 64, 513(1995)1994年(5篇)
[10] Z. J. Li, Z. An, K. L. Yao
The 2D localized modes of bipolaron in cis-polyacetylene
Acta Physica Sinica (Overseas Edition) 3, 836 (1994)[09] Z. L. Li, Z. An, Z. L. Liu, K. L. Yao
Calculation of the two-dimensional infrared-active localized modes of a soliton lattice in trans-polyacetylene
Phys. Rev. B49, 6643 (1994)[08] 安忠,李占杰,姚凯伦
Na掺杂反式聚乙炔中的孤子晶格的能谱及电子束缚态
物理学报 43, 1502 (1994)[07] 安忠,李占杰,刘祖黎,姚凯伦
链间耦合对反式聚乙炔中孤子能谱及其局域振动模的影响
物理学报43, 516 (1994)[06] K. L. Yao, Z. J. Li, Z. An, et al.
Effects of the bond-bending term and e-e interactions on the 2D localized modes around a polaron in trans-polyacetylene
Commun. Theor. Phys. 21, 417 (1994)
1993年(5篇)
[05] Z. J. Li, K. L. Yao, Z. An, Z. G. Li
New 2D infrared active localized modes of soliton in trans-polyacetylene
J. Phys. Soc. Jpn. 62, 4522 (1993)[04] Z. J. Li, Z. An, Z. L. Liu, K. L. Yao
Effects of the next-nearest-neighbor hopping interactions on the two-dimensional localized modes of trans-polyacetylene around a soliton
Phys. Rev. B48, 7011 (1993)[03] Z. J. Li, Z. An, K. L. Yao, Z. G. Li
Effects of the second-neighbor and third-neighbor hopping interactions on the electronic states of soliton in polyacetylene
Z. Phys. B92, 195 (1993)[02] Z. J. Li, Z. An, K. L. Yao, Z. G. Li
Effects of the coulomb interaction on the second localized modes of soliton in the photoexcited polyacetylene
Z. Phys. B91, 221 (1993)[01] 安忠,李占杰,姚凯伦
次近邻电子跳跃对孤子的电子束缚态和孤子附近局域模的影响
物理学报41, 1532 (1993).承担科研项目情况:
9. 国家自然科学基金:“有机材料中载流子迁移、复合动力学特性的理论研究”,(11074064),
2011.1-2013.12 (项目负责人)8. 河北省杰出青年基金:“有机半导体发光与载流子输运机理的理论研究”,(A2009001512),
2009.1-2011.12(项目负责人)7. 教育部“新世纪优秀人才支持计划”,NCET-05-0262),2006-2008(项目负责人) 6. 国家自然科学基金:“有机光电器件中元激发的动力学特性研究”(10574037),
2006.1- 2008.12(项目负责人)5. 国家自然科学基金:“发光高聚物中荷电极化子动力学研究”(10204005),
2003.1-2005.12(项目负责人)4. 国家自然科学基金:重大研究计划(理论物理学及其交叉学科若干前沿问题)中的重点项目,“有机固体与聚合物器件的新效应”(90403110),2005.1—2007.12(参加) 3. 国家博士后科学基金:“有机共轭高分子激发态及其光学非线性的ab initio研究”
2002.1-2002.12(项目负责人)2. 上海博士后(优秀回国留学博士)基金:“有机发光材料中电致发光过程动力学模拟”
2002.1-2002.12(项目负责人)1. 我校博士基金:“有机固体物理性质的理论研究 ”,2005.1-2007.12(项目负责人) -
李玉现
李玉现 ,男, 理学博士,我校物理科学与信息工程学院,
教授,博士研究生导师。
Email: yxli@mail.hebtu.edu.cn学习经历:
1988 年 -1992 年 我校物理系,学习。
1996 年 -1999 年 我校硕士研究生。
2002 年 -2005 年 中国科学院物理研究所博士研究生。
科研经历
2006 年 8 月 -2007 年 8 月 韩国亚太理论物理中心做博士后科研工作。
2008 年 1 月 -2008 年 2 月韩国亚太理论物理中心访问学者。
2011年8月-2011年9月 意大利国际理论物理中(ICTP)访问学者
2011年10月-2011年12月韩国浦项科技大学(POSTECH)高级访问学者。
工作经历
1992年至今我校工作,
2004年-2006年我校,副教授,
2006年至今 我校,教授。
研究方向
凝聚态理论 - 介观物理中的输运理论。
承担基金
国家自然科学基金:
原子层石墨/超导体/铁磁体混杂结构中的输运特性,2010-2012,主持人。
介观结构的输运特性,2007-2009,,第一主研人。
河北省自然科学基金:
拓扑绝缘体边缘态电子的输运特性A2014205005,2014-2016,主持人。
石墨层结构的自旋相关的输运特性2009-2011,主持人,
介观结构中量子噪声理论研究,2007-2009,第一主研人。
优秀回国基金:量子结构中的自旋流。2008-2010,主持人。
河北省教改课题
高校实践教学课程改革与学生综合能力培养,2015GJJG047,2014年9月-2016年9月,2万元,主持人。
科研获奖
半导体微结构中的激子和复杂机子的量子特性,2009年河北省自然科学三等奖,排名第二。
低维量子结构中输运特性,2013年河北省自然科学二等奖,排名第一。
发表的部分文章
[50]
Yi-Jie Zheng, Juntao Song, and Yu-Xian Li,
Anomalous thermoelectric properties in double quantum dots coupled with Majorana bound states,
AIP Advances 6, 125032 (2016).[49]
Juntao Song, Haiwen Liu, Jie Liu, Yu-Xian Li, Robert Joynt, Qing-feng Sun, and X. C. Xie,
Quantum interference in topological insulator Josephson junctions,
PHYSICAL REVIEW B 93, 195302 (2016).[48]
Su-Xin Wang, Yu-Xian Li, and Jian-Jun Liu,
Resonant Andreev reflection in a normal-metal/quantum-dot/superconductor system with coupled Majorana bound states,
Chinese Physics B 25, 037304 (2016).[47]
Yi-Jie Zheng, Juntao Song, and Yu-Xian Li
Suppression of Andreev conductance in a topological insulator–superconductor nanostep junction,
Chinese Physics B 25, 037301 (2016).[46]
Yuan Zhang, Juntao Song, Yu-Xian Li,
Nernst and Seebeck effects in HgTe/CdTe topological insulator,
JOURNAL OF APPLIED PHYSICS 117, 124301 (2015).[45]
Juntao Song, Yan-Yang Zhang, Yuxian Li, and Qing-feng Sun,
Topological quantum transitions in a two-band Chern insulator with n = 2,
J. Phys.: Condens. Matter 27 (2015) 045601 (10pp).[44]
Juntao Song, Yu-Xian Li, and Qingfeng Sun,
Transport through quantum wells and superlattices on topological insulator surfaces,
J. Phys.: Condens. Matter 26 (2014) 185007 .[43]
Ning Wang, Shu-Hui Lv, and Yu-Xian Li,
Quantum transport through the system of parallel quantum dots with Majorana bound states,
JOURNAL OF APPLIED PHYSICS 115, 083706 (2014).[42]
Lei Liu, Yu-Xian Li, Ying-Tao Zhang, and Jian-Jun Liu,
Quantum beats in conductance oscillations in graphene-based asymmetric double velocity wells and electrostatic wells,
JOURNAL OF APPLIED PHYSICS 115, 023704 (2014).[41]
Shu-Hui Lv, Juntao Song, and Yu-Xian Li
Topological Anderson insulator induced by inter-cell hopping disorder
JOURNAL OF APPLIED PHYSICS 114, 183710 (2013)。[40]
Yu-Xian Li and Zhi-Ming Bai,
Tunneling transport through multi-quantum-dot with Majorana bound states,
JOURNAL OF APPLIED PHYSICS 114, 033703 (2013)[39]
Yang Liu, Juntao Song, Yuxian Li, Ying Liu, and Qing-feng Sun,
Controllable valley polarization using graphene multiple topological line defects,
PHYSICAL REVIEW B 87, 195445 (2013)[38]
Lei Liu, Yu-Xian Li, Jian-Jun Liu,
Transport properties of Dirac electrons in graphene based double velocity-barrier structures in electric and magnetic fields,
Physics Letter A 376, 3342-3350 (2012)[37]
Shu-Hui Lv and Yu-Xian Li,
Effects of the edge states on conductance and thermopower for the bilayer graphene nanoribbons.
J. Appl. Phys. 112, 053701 (2012)[36]
Shu-Hui Lv, Shu-Bo Feng,and Yu-Xian Li,
Thermopower and conductance for a graphene p–n junction,
J. Phys.: Condens. Matter 24 (2012) 145801.[35]
Xing-Tao An, Hui-Ying Mu, Yu-Xian Li, Jian-Jun Liu,
Generation and detection of spin polarization in parallel coupled double quantum dots connected to four terminals,Physical Letters A 375, 4078 (2011).[34]
Xiao-Xiao Guo, De Liu, and Yu-Xian Li,
Conductance and shot noise in graphene superlattice,
Appl. Phys. Lett. 98, 242101 (2011).[33]
Qing-Feng Sun, Yu-Xian Li, Wen Long, and Jian Wang,
Quantum Andreev effect in two-dimensional HgTe/CdTe quantum well/superconductor systems,
PHYSICAL REVIEW B 83, 115315 (2011).[32]
YuXian Li and Leng-Fei Xu,
Shot noise suppression in a series graphene tunnel barrier structure,
Solid Stat. Communication, 151, 219 (2011).[31]
Jin-Liang Li and Yu-Xian Li,
Spin Current Through Triple Quantum Dot in the Presence of Rashba Spin-Orbit Interaction,
CHIN. PHYS. LETT. Vol. 27,No. 5 (2010) 057202.[30]
Yu-Xian Li,
Transport in a magnetic modulated graphene superlattice,
J. Phys.: Cond. Mat. 22, 015302 (2010).[29]
Yu-Xian Li,
Spin-polarization and magnetoresistance in graphene-based resonant-tunnelling structures,
Eur. Phys. J. B 68, 119 (2009).[28]
Peng Zhang and Yu-Xian Li,
Andreev reflection and shot nosie in a quantum dot with phonon modes,
J. Phys.: Condens. Matter 21, 095602 (2009).[27]
Jin-Liang Li and Yu-Xian Li,
Andreev reflection and Aharonov–Bohm oscillations through a parallel-coupled double quantum dot with spin-flip scattering,
J. Phys.: Condens. Matter 20 (2008) 465202.[26]
Yu-Xian Li,
Spin Polarization and Andreev Conductance through a Diluted Magnetic Semiconductor Quantum Wire with Spin{Orbit Interaction,
Chin. Phys. Lett. 25, 3739 (2008)[25]
Yu-Xian Li, Hyun-Woo Lee, and Han-Yong Choi,
Nonequilibrium Kondo effect and Andreev reflection through double quantum dots with spin-flip scattering, Physics Letters A 372 (2008) 6424–6428.[24]
Yu-Xian Li,
Spin-dependent quantum transport through an Aharonov-Bohm structure spin splitter, Chinese Physics B 17, 3508 (2008).[23]
Yan-Kun Dong and Yu-Xian Li,
Rashba spin-orbit effect on the zero conductance and the magnetoresistance of a
quantum ring, J. Appl. Phys. 103, 113716 (2008).[22]
Yu-Xian Li , Han-Yong Choi, and Hyun-Woo Lee,
Flux-dependent transport through an Aharonov–Bohm interferometer with embedded multiple coupled quantum dots,
Physics Letters A 372 (2008) 2073–2078.[21]
Yu-Xian Li,
Fano reonance and flux-dependent transport through a triple-arm A-B interferometer under an applied electric field,
J. Phys.: Condensed Matter, 19, 496219 (2007).[20]
Xing-Tao An, Yu-Xian Li, and Jian-Jun Liu,
Noise in mesoscopic physics,
Acta Physica Sinica 56, 4105 (2007) (in Chinese).[19]
Yu-Xian Li , Han-Yong Choi , Hyun-Woo Lee , and Jian-Jun Liu,
Andreev reflection with spin-flip scattering through a T-shaped double quantum dot, J. Appl. Phys. 101 , 103918 (2007).[18]
Yu-Xian Li and Bing Di,
Effect of the Rashba spin-orbit interaction on transport in a multichannel ferromagnet/semiconductor nanowire,
J. Appl. Phys. 100 , 083708 (2006).[17]
Yu-Xian Li,
Thermopower in quasi-one-dimensional nano-constrictions with spin–orbit interaction, Phys. Lett. A 358, 70 (2006).[16]
Yu-Xian Li,
Break cohesion of metal contacts due to voltage bias,
Chin. Phys. Lett. 23, 2560 (2006).[15]
Yong Guo, Xiao-Wei Yu, and Yu-Xian Li,
Spin filtering and spin polarization reversal in multilayered ferromagnetic metal/semiconductor heterostructures,
J. Appl. Phys. 98 , 053902(2005).[14]
Yu-Xian Li , Yong Guo, and Bo-Zang, Li,
Rashba spin-orbit coupling effect on noise in quasi-1D nanowires,
Physical Review B 72 , 075321(2005).[13]
Yu-Xian Li and Bo-Zang, Li,
Effects of spin-orbit interaction and magnetic field on the electron transport in quasi-1D ferromagnetic/semiconductor/ferromagnetic system,
Chinese Physics 14, 1021(2005).[12]
Yu-Xian Li , Yong Guo, and Bo-Zang, Li,
Quantum magnetocapacitance in ferromagnetic nanocontacts,
Physics Letters A 342 , 478(2005).[11]
Yu-Xian Li , Ke Xia, and Xiangrong Wang,
Magnetocohesive force of a ferromagnetic quantum point contact.
Europhysics letters 70 , 244(2005).[10]
Yu-Xian Li , Jian-jun Liu, and Bo-Zang, Li,
量子点接触中的电导与热功率 : 磁场与温度的影响
物理学报 , 54, 166(2005).[9]
Yu-Xian Li , Yong Guo, and Bo-Zang, Li,
Effect of Rashba spin-orbit interaction on transport in ferromagnetic/semiconductor/ ferromagnetic system under an electric field.
Phys. Rev. B 71 , 012406(2005).[8]
Yu-Xian Li and Bo-Zang, Li,
Spin-dependent transport and thermopower in ferromagnetic quantum point contacts, Physics Letters A 330 , 274-279(2004).[7]
Yu-Xian Li and Bo-Zang, Li.
Spin polarization and quantized conductance of ferromagnetic quantum point contacts, Phys. Stat. Sol. (B), Vol 13 , (2004)3009.[6]
Zheng-Wei Xie, Bo-Zang Li, and Yu-Xian Li,
The effect of a nonmagnetic cap layer on the spin-polarized tunneling and magnetoresistance in double-barrier planar junctions,
Phys. Stat. Sol. (B), Vol 239 , 463-469(2003).[5]
Zheng-Wei Xie, Bo-Zang Li, and Yu-Xian Li,
The e_ect of the ferromagnetic metal layer on tunnelling conductance and magnetoresistance in double magnetic planar junctions,
Chinese Physics 11, 1060(2002).[4]
Lu-Xia Wang, Xiao-Jun Kong, and Yu-Xian Li ,
The effect of magnetic field on ground and excited state od the two-demensional D centre, J. Phys. : Cond. Matt. Vo l13 , 8765(2001).[3]
Jian-Jun Liu, Shu-Fang Zhang, Yu-Xian Li , Xiao-Jun Kong,
Variational calculation of ionized-donor bound excitons in GaAs-AlGaAs quantum wells,
Eur. Phys. J. B Vol 19 (17-20), (2001).[2]
Yu-Xian Li , Jian-Jun Liu, and Xiao-Jun Kong,
The effect of a spatially dependent effective mass on hydrogenic impurity binding energy in a finite parabolic quantum well with a magnetic field,
J. Appl. Phys., Vol 88 , 2588(2000).[1]
Jian-Jun Liu, Yu-Xian Li , and Xiao-Jun Kong,
Binding energy of excitons to neutral donors in two-dimensional semiconductors,
Chin. Phys. Lett. Vol 16 , 526 (1999). -
李红
李红 副教授 博士毕业 河北省石家庄市人,女,汉族,中共党员,1975年11月生,2007年在中国科学院物理研究所获理论物理博士学位,现为物理科学与信息工程学院副教授。1998年6月获我校理学学士学位,2002年6月获我校理论物理硕士学位。曾参加了多项国家自然科学基金资助课题的研究,已在国内外重要学术期刊上发表论文十余篇,其中有5篇被SCI收录。
主讲本科生的《量子力学(Ⅰ)》、《量子力学(Ⅱ)》、《理论力学》等主干课程。2008年作为第二主讲教师参加了我校《量子力学》精品课程建设;2008年荣获物理科学与信息工程学院青年教师基本功大赛优秀奖;连续两年教学评优。
研究方向简介:
约瑟夫森结(Josephson Junction)中的涡旋特性是近年来凝聚态物理研究中的一个热点。超导体中量子化的涡旋产生是因为磁通进入材料中所导致的,这一现象在材料物性上以及超导器件开发中都起着重要的作用。在高温区域中,涡旋的动力学特征符合经典的原理,在低温区域则表现出来许多量子特性。同样,在超导体中,做环形流动的电流可以产生磁通涡旋。超导体中的涡旋分为两类:一类称为Abrikosov涡旋,在外加磁场大于临届磁场时存在于第二类超导体中。通过热激活,这类涡旋可以在钉扎位置间跳跃从而引起散射和噪音。另外一类称为Josephson涡旋,存在于约瑟夫森结中,这类涡旋在势阱中存在量子化能级,有可能成为未来量子计算中量子比特的候选者。
光学器件以及约瑟夫森器件中的量子隧穿特性研究根据已有的实验事实并结合光与磁场以及电子与磁场相互作用的特点,从量子力学的基本原理出发并利用其它领域例如量子场论、量子多体理论和非线性理论的结果,发展处理光晶格、超导约瑟夫森结中量子隧穿的方法和理论, 分别从解析计算和数值模拟两方面同时进行,并密切配合实验,解释实验事实并指导新的实验,不断完善现有理论模型,使这些综合研究结果能对描述材料中量子隧穿物性提供比较可靠的基础,并促进对量子计算、超导和超流的研究。
代表论文:
[1]
Wang Bing-Lu , Ma Yan-hua, Shen Man and Li Hong,
Tunneling behavior of ultracold atoms in optical traps,Modern Physics Letters B,
Vol. 30, No. 20 (2016) 1650245 (12 pages).[2]
Li Hong, Shen Shun-Qing, Liang Jiu-Qing and Liu Wu-Ming
Quantum dynamics of a vortex in a Josephson junction
Physical Review B, 72, 014549 (2005)[3]
Li Hong and Zhan-Feng Jiang
Spin accumulation of spinor atoms in optical lattices
Communications in Theoretical Physics, Vol. 47, 777 (2007)[4]
Zhan-Feng Jiang and Li Hong
Resonant Charge Current in a Rashba Ring Induced by Spin-Dependent Potential
Communications in Theoretical Physics, accepted (2008)[5]
Li Hong and Xiao-Jun Kong
Exciton and donor binding energies in quantum-well wires and quantum dots: a fractional-dimensional space approach
Chinese Physics, Vol. 13, 759 (2004)[6]
李红,马彦华,孔小均
约瑟夫森结中的涡旋动力学特性
我校学报(自然科学版),2008年第32卷第6期第31-34页[7]
李红,孔小均
分数维近似方法研究:矩形量子阱井中浅施主杂志结合能探讨
我校学报(自然科学版),2001年第25卷第3期第319-323页[8]
李红,孔小均
分数维近似方法研究
《教育教学论坛》,河北教育出版社2000年12月第301-304页[9]
李红,孔小均
分数维近似方法研究:量子阱线中激子的结合能
《第十一届全国凝聚态理论和统计物理学会议论文集》,2001年10月第77-78页 -
刘晓静
刘晓静 山东大学凝聚态物理专业博士,新葡亰8883ent教授,凝聚态物理专业硕士生导师。
科研课题:
2014.1-2016.12 主持国家自然科学青年基金项目“有机分子器件动力学输运性质研究”(11304075)
2008.1-2008.12 主持国家自然科学专项基金项目“有机材料中自旋相关的散射问题研究”(10747125)
2012.1-2014.12 主持河北省青年基金项目 “有机分子器件中的非平衡输运问题研究”(A2012205045)
2009.1-2011.12 主持教育厅基金项目 “有机分子器件输运性质研究” (2009142)
2012.1-2014.12 主持我校重点基金项目“激发态对有机共轭聚合物输运性质影响研究”(L2011Z03)
2011.1-2013.12 参研国家自然科学基金项目“有机材料中载流子迁移、复合动力学特性理论研究” (11074064)
获奖情况:
河北省自然科学三等奖有机共轭聚合物发光与载流子输运的理论研究 安忠、刘晓静 (2012ZR3004-02)
研究方向:
1. 有机共轭聚合物中动力学过程研究: 有机共轭聚合物既能导电、又能发光,是一种极具发展前途的光电材料。共轭聚合物属于一维体系,具有很强的电-声相互作用,一方面电荷注入将诱导晶格发生畸变,形成极化子、双极化子等非线性元激发,另一方面,这样的具有晶格结构的复合粒子又将影响聚合物的导电和发光性质。研究有机光电器件中的载流子(荷电极化子、双极化子)的形成过程、稳定性、解离机制,及电场模式对载流子运动的影响,既是基本的理论挑战,又将为设计开发新的有机光电器件提供有价值的理论指导。
2. 有机分子器件稳态输运性质研究: 有机材料强的电声耦合作用可以利用SSH模型很好描述,结合非平衡格林函数可以行之有效的求解有机分子器件的稳态量子输运过程,研究有机材料中独特的物理性质。有机纳米结构中的电子-声子相互作用可引起许多有趣物理现象,如偏压下由于自掺杂效应导致分子中出现极化子引起了负微分电阻效应;极化子的产生和湮灭导致双稳态导电开关效应;外加强电场使有机体系的晶格结构由二聚化变为等间距排列,同时价带顶同导带底交叠,诱导绝缘态-金属态的相变;聚噻吩中偏压可导致二聚化-等间距-二聚化结构变化,出现负微分电阻现象。采用自旋极化率较高的铁磁金属(或半金属)同有机分子形成三明治结构,多子自旋会在有机体系中形成自旋阻塞效应,并且通过电子-声子耦合作用调制少子的自旋极化电流。
3. 有机分子器件瞬态输运性质研究: SSH模型结合级联运动方程,建立开放体系的动力学输运理论,利用非绝热动力学方法求解开放系统电子与晶格子系统的动力学输运方程。
教学工作:
先后讲授《热力学统计物理》、《普通物理学》、《计算物理学》、《物理与人类文明》、《物理学导论》等课程
参加学校精品课程建设项目《热力学统计物理》课程建设, 2008.7-2011.6
编写《医学物理学》, 科学出版社出版, ISBN 978-7-03-038184-2 (2013), 副主编
参编《物理学导论》, 科学出版社出版, ISBN978-7-03-032389-7 (2011)
发表论文:
[26]
X.J.Liu, X.Y. Wang, Y.L. Zhang, S. Wang, Z. An*
“Electron correlation effects on polarons recombination in coupled polymer chains”
Org. Electron. 28 (2016) 6
DOI: 10.1016/j.orgel.2015.10.010
http://www.sciencedirect.com/science/article/pii/S156611991530152X[25]
X.J.Liu, X.Y. Wang, Y.L. Zhang, S. Wang, Z. An*
“Long-range Coulomb interaction effects on polarons in conjugated polymers”
Org. Electron.25 (2015) 261
DOI: 10.1016/j.orgel.2015.06.045
http://www.sciencedirect.com/science/article/pii/S1566119915300161[24]
Y. L. Zhang, X. J. Liu, and Z.
An* “Temperature dependence of polaron stability in conjugated polymers”
Europhysics Lett.111 (2015) 17009
DOI: 10.1209/0295-5075/111/17009
http://iopscience.iop.org/article/10.1209/0295-5075/111/17009[23]
X. J. Liu,K L Dong, and Zhong An*
“Influence of heterogeneous sulfur atoms on the negative differential resistance effect in polythiophene”
J. Appl. Phys. 116 (2014) 093706
DOI: 10.1063/1.4894691
http://aip.scitation.org/doi/10.1063/1.4894691[22]
Y. L. Zhang, X. J. Liu, and Z. An*
“Temperature Effects on the Dynamics of Photoexcitations in Conjugated Polymers”
J. Phys. Chem. C 118 (2014) 2963
DOI: 10.1021/jp410796u
http://pubs.acs.org/doi/abs/10.1021/jp410796u?journalCode=jpccck&quickLinkVolume=118&quickLinkPage=2963&selectedTab=citation&volume=118[21]
Y. L. Zhang, X. J. Liu, Z. Sun, and Z. An*
“Dynamics of exciton transfer in coupled polymer chains”
J. Chem. Phys. 138 (2013) 174906
DOI:10.1063/1.4803163
http://aip.scitation.org/doi/10.1063/1.4803163[20]
X. J. Liu, and Z. An*
“Electron correlation effects on exciton dissociation in the presence of an electric field in polyacetylene”
Org. Electron.14(2013) 2692
DOI:
http://www.sciencedirect.com/science/article/pii/S1566119913003303[19]
Y. D. Wang, B. Di, Y. Meng, X. J. Liu, and Z. An *
“The dynamic formation of trions in conjugated polymers”
Org. Electron.13 (2011) 1178
DOI: 10.1016/j.orgel.2012.03.023
http://www.sciencedirect.com/science/article/pii/S1566119912001279[18]
B. Di, Y. Meng, Y. D. Wang, X. J. Liu, and Z. An *
“Electroluminescence Enhancement in Polymer Light-Emitting Diodes through Inelastic Scattering of Oppositely Charged Bipolarons”
J. Phys. Chem. B 115 (2011) 9339
DOI: 10.1021/jp2006342
http://pubs.acs.org/doi/abs/10.1021/jp2006342?journalCode=jpcbfk&quickLinkVolume=115&quickLinkPage=9339&selectedTab=citation&volume=115[17]
B. Di, Y. Meng, Y. D. Wang, X. J. Liu, and Z. An *
“Formation and Evolution Dynamics of Bipolarons in Conjugated Polymers”
J. Phys. Chem. B 115 (2012) 964
DOI: 10.1021/jp110875b
http://pubs.acs.org/doi/abs/10.1021/jp110875b?journalCode=jpcbfk&quickLinkVolume=115&quickLinkPage=964&selectedTab=citation&volume=115[16]
X. J. Liu, and Z. An *
“Structural change-induced negative differential resistance in polythiophene ”
Org. Electron.12 (2011) 1352
DOI: 10.1016/j.orgel.2011.05.007
http://www.sciencedirect.com/science/article/pii/S1566119911001686[15]
X. J. Liu, Z. An*, S. J. Xie*
“Transition of bipolaron to polarons induced by magnetic impurities in conjugated polymers”
Int. J. Mod. Phys. B 25 (2011) 1601
DOI: 10.1142/S0217979211100400
http://www.worldscientific.com/doi/abs/10.1142/S0217979211100400[14]
Y. Meng, X. J. Liu, B. Di, Z. An*
“Recombination of polaron and exciton in conjugated polymers”
J. Chem. Phys. 131 (2009) 244502
DOI:10.1063/1.3274680
http://aip.scitation.org/doi/10.1063/1.3274680[13]
J. H. Wei, X. J. Liu, S. J. Xie, YiJing Yan
“Spin-dependent current modulation in organic spintronics”
J. Chem. Phys.131
(2009) 064906
DOI:http://aip.scitation.org/doi/abs/10.1063/1.3206737
http://aip.scitation.org/doi/abs/10.1063/1.3206737[12]
Y. Meng, B. Di, X. J. Liu, Z. An*, C. Q. Wu
“Interchain coupling effects on dynamics of photoexcitations in conjugated polymers”
J. Chem. Phys.128
(2008) 184903
DOI: 10.1063/1.2912190
http://aip.scitation.org/doi/10.1063/1.2912190[11]
J. H. Wei, X. J. Liu, J. Berakdar, and YiJing Yan
“Pathways of polaron and bipolaron transport in DNA double strands”
J. Chem. Phys.128 (2008) 165101
DOI: 10.1063/1.2902279
http://aip.scitation.org/doi/10.1063/1.2902279[10]
K. Gao, X. J. Liu, D. S. Liu, S. J. Xie*
“Charge carrier generation through reexcitations of an exciton in poly(p-phenylenevinylene)molecules”
Phys. Rev. B75 (2007) 205412
DOI: 10.1103/PhysRevB.75.205412
https://journals.aps.org/prb/abstract/10.1103/PhysRevB.75.205412[9]
Y. Li, X. J. Liu, J. Y. Fu, D. S. Liu, S. J. Xie*, L. M. Mei
“Bloch oscillations in a one-dimensional organic lattice”
Phys. Rev. B 74 (2006) 184303
DOI:10.1103/PhysRevB.74.184303
https://journals.aps.org/prb/abstract/10.1103/PhysRevB.74.184303[8]
X. J. Liu, K. Gao, Y. Li, J. Y. Fu, J. H. Wei, S. J. Xie*
“Polaron formation dynamics in conducting polymers”
Synth. Met.157 (2007) 380
DOI:10.1016/j.synthmet.2007.04.008
http://www.sciencedirect.com/science/article/pii/S0379677907000872[7]
X. J. Liu, K. Gao, Y. Li, J. H. Wei, S. J. Xie* “Two-step
dissociation of a polaron in conjugated polymers”
Chin. Phys. 162091(2007)
DOI:
http://iopscience.iop.org/article/10.1088/1009-1963/16/7/048[6]
J. Y. Fu, J. F. Ren, X. J. Liu ,D.S. Liu, S. J. Xie *
“Dynamics of charge injection into an open conjugated polymer: A nonadiabatic approach”
Phys. Rev. B73 (2006) 195401
DOI: 10.1103/PhysRevB.73.195401
https://journals.aps.org/prb/abstract/10.1103/PhysRevB.73.195401[5]
K. Gao, X. J. Liu, D. S. Liu, S. J. Xie*
“Reverse polarization in charged π-conjugated oligomers bysingle-optical excitation”
J. Phys.: Conference Series 29 (2006) 45
DOI: 10.1088/1742-6596/29/1/007
http://iopscience.iop.org/article/10.1088/1742-6596/29/1/007[4]
X. J. Liu, K. Gao, J. Y. Fu, Y. Li, J. H. Wei, S. J. Xie *
“Effect of the electric field mode on the dynamic process of a polaron”
Phys. Rev. B74 (2006) 17230
DOI: 10.1103/PhysRevB.74.172301
https://journals.aps.org/prb/abstract/10.1103/PhysRevB.74.172301[3]
X. J. Liu, K. Gao, D. S. Liu, S. J. Xie*
“Polaron Dynamics in Impurity-doped Conjugated Polymers”
J. Phys.: Conference Series 29 (2006) 87
DOI: 10.1088/1742-6596/29/1/016
http://iopscience.iop.org/article/10.1088/1742-6596/29/1/016[2]
K. Gao, X. J. Liu, D. S. Liu, S. J. Xie*
“Reverse polarization in charged -conjugated oligomers”
J. Chem. Phys. 123 (2005) 234702
DOI: 10.1063/1.2136156
http://aip.scitation.org/doi/10.1063/1.2136156[1]
J. J. Liu, X. J. Liu, M. Shen, G. C. Yang
Studies on Nematic Liquid Crystal Using Spin Wave Theory
Commun. Theor. Phys.42 (2004) 453 -
宋俊涛
jtsong@hebtu.edu.cn宋俊涛 硕士生导师 主要从事自旋电子学,石墨烯、介观纳米体系的量子输运理论,凝聚态体系拓扑效应及拓扑相变的理论研究。近年来发表SCI论文30余篇,其中,Phys. Rev. Lett. 2篇、Phys. Rev. B 11篇。是Nanoscale, Applied Physics Letters, Nanotechnology, Journal of Physics: Consensed Matter, Solid State Communications,AIP等国际期刊专业审稿人。曾获中科院物理所所长奖,新葡亰8883ent先进工作者,我校校级先进工作者,我校青年五四奖章,我校杰出青年,河北省优秀青年,河北省拔尖人才,河北省杰出青年及河北省新世纪“三三三人才工程”三层次人选等称号或基金支持。
教育科研工作背景:
2003年6月,于新葡亰8883ent,获学士学位
2009年6月,于中国科学院物理研究所,获得理学博士学位
2009年7月-2012年11月,新葡亰8883ent,讲师
2012年12月-至今,新葡亰8883ent,副教授
2009年7月-2009年12月,中国科学院物理研究所,访问学习
2010年7月-2010年 9月,中国科学院半导体研究所,访问交流
2011年9月-2011年12月,北京大学量子材料科学中心,访问交流
2012年9月-2014年 8月,美国Yeshiva大学物理系,访问学习
2014年9月-2015年 1月,北京大学量子材料科学中心,访问交流
研究领域:自旋电子学和拓扑绝缘体,石墨烯,量子点中电声子相互作用, 介观纳米体系的量子输运理论。主要研究成果包括:
1)对电声子耦合的量子点体系开展研究,理论上提出一种探测包含电声子耦合量子点态密度的方法,研究了电声子相互作用对遂穿相位的影响;
2)对石墨烯中的拓扑线缺陷展开研究,预言并证实了基于线缺陷的一维量子电导通道,提出了基于线缺陷的谷极化器件;
3)对拓扑绝缘体的无序影响展开研究,进一步阐释了拓扑Anderson绝缘体产生的根源,阐明了拓扑Anderson绝缘体对无序类型的依赖;
4)研究了整数霍尔效应中最低平台到绝缘体的相变现象,从数值计算的角度证实了实验结果,否定了零温下量子霍尔绝缘体相的存在,并对该相在临界区和零温极限下存在和消失的根源进行了解释;
5)利用非对易理论,研究了具有手性对称性的一维和三维拓扑体系的相变问题,发展了实空间计算winding number的公式,发现与该一维和三维拓扑相变对应的临界现象,第一次系统地报道了反对角无序对该类体系拓扑性质的影响。
6)利用实空间拓扑陈数计算方法,研究了无序对Weyl半金属的影响,首次系统地报道了无序作用下Weyl半金属向拓扑绝缘体、绝缘体及Anderson绝缘发生相变的条件,展示了这些物质相及相变相关的相图,研究了无序杂质对Weyl半金属拓扑边界态的影响。
目前,主要关注于石墨烯,拓扑绝缘体及拓扑超导体等方向。
科研课题:
2017.01-2019.12
主持河北省杰出青年基金项目“拓扑半金属的杂质性质和超导混合结构的研究” (30万元,在研)
2016.01-2018.12
主持我校杰出青年基金项目“拓扑材料物性的理论研究” (20万元,在研)
2016.01-2018.12
主持河北省拔尖人才项目“拓扑体系中拓扑相变研究” (30万元,在研)
2015.01-2018.12
主持国家自然科学基金面上项目“Chern绝缘体和拓扑绝缘体等拓扑态中无序效应研究” (78万元,在研)
2015.01-2017.12
主持河北省高等学校青年拔尖人才项目“拓扑体系中拓扑相变研究” (9万元,在研)
2013.01-2015.12
主持国家自然科学基金青年项目 “拓扑绝缘体及其相关混合结构中电子输运性质研究”(已结题)
2013.01-2015.12
主持河北省自然科学基金青年项目“拓扑绝缘体混合结构及无序体系的新奇现象研究”(已结题)
2012.01-2014.12
主持国家教育部博士点新教师基金“拓扑绝缘体量子输运性质研究”(已结题)
2012.01-2014.12
主持我校科学研究基金项目“拓扑绝缘体电输运特性的研究”(已结题)
2011.01-2011.12
主持国家自然科学基金项目理论物理专项“量子自旋霍尔效应及其相关输运性质研究”(已结题)
代表性论文:
[17]
Impurity scattering and Friedel oscillations in monolayer black phosphorus, Yong-Lian Zou, Juntao Song, Chunxu Bai, Kai Chang, Phys. Rev. B 94.035431 (2016).
[16]
Quantum interference in topological insulator Josephson junctions, Juntao Song, Haiwen Liu, Jie Liu; Yu-Xian Li, Robert Joynt, Qing-feng Sun, X. C. Xie, Phys. Rev. B 93.195302 (2016).
[15]
Route towards Localization for Quantum Anomalous Hall Systems with Chern Number 2, Gang Song, Yan-Yang Zhang, Jun-Tao Song and Shu-Shen Li, Sci. Rep. 6, 19018 (2016).
[14]
Disorder and Metal-Insulator Transitions in Weyl Semimetals, Chui-Zhen Chen, Juntao Song, Hua Jiang, Qing-feng Sun, Ziqiang Wang, X. C. Xie, Phys. Rev. Lett. 115(24), 246603 (2015).
[13]
Building topological devices through emerging robust helical surface states, Zibo Wang, Juntao Song, Haiwen Liu, Hua Jiang and X.C. Xie, New J. Phys. 17, 113040(2015).
[12]
Quantization of topological invariants under symmetry-breaking disorder, Juntao Song and Emil Prodan, Phys. Rev. B 92(19), 195119 (2015).
[11]
Topological quantum transitions in a two-band Chern insulator with n = 2, Juntao Song, Yan-Yang Zhang, Yuxian Li and Qing-feng Sun, J. Phys.: Condens. Matter 27, 045601 (2015).
[10]
Effect of strong disorder on three-dimensional chiral topological insulators: Phase diagrams, maps of the bulk invariant, and existence of topological extended bulk states, Juntao Song, Carolyn Fine, Emil Prodan, Phys. Rev. B 90(18), 184201 (2014).
[9]
Topological Criticality in the Chiral-Symmetric AIII Class at Strong Disorder, Ian Mondragon-Shem, Taylor L. Hughes, Juntao Song, Emil Prodan, Phys. Rev. Lett. 113(4), 046802 (2014).
[8]
AIII and BDI topological systems at strong disorder, Juntao Song, Emil Prodan, Phys. Rev. B 89(22), 224203 (2014).
[7]
Characterization of the quantized Hall insulator phase in the quantum critical regime, Juntao Song, Emil Prodan, EPL(Europhysics letters) 105(3), 37001 (2014).
[6]
Controllable valley polarization using graphene multiple topological line defects, Yang Liu, Juntao Song*(通讯作者), Yuxian Li, Ying Liu and Qing-Feng Sun, Phys. Rev. B 87, 195445 (2013).
[5]
One-dimensional quantum channel in a grapheme line defect, Juntao Song, Haiwen Liu, Hua Jiang, Qing-feng Sun and X. C. Xie, Phys. Rev. B 86(8), 085437 (2012).
[4]
Dependence of topological Anderson insulator on the type of disorder, Juntao Song, Haiwen Liu, Hua Jiang, Qing-feng Sun and X. C. Xie, Phys. Rev. B 85(19), 195125 (2012).
[3]
Electric-current-induced heat generation in a strongly interacting quantum dot in the Coulomb blockade regime, Jie Liu, Juntao Song, Qing-Feng Sun, and Xin-Cheng Xie, Phys. Rev. B 79, 161309 (2009).
[2]
Transmission phase shift of phonon-assisted tunneling through a quantum dot, Juntao Song, Qing-Feng Sun, Jin-Hua Gao, and Xin-Cheng Xie, Phys. Rev. B 77, 035309 (2008).
[1]
Measuring the phonon-assisted spectral function by using a nonequilibrium three-terminal single-molecular device, Juntao Song, Qing-Feng Sun, Jin-Hua Gao, and Xin-Cheng Xie, Phys. Rev. B 75, 195320 (2007).
办 公 室:理科群2号楼C412
办公电话:0311—807-87358 -
张书敏
张书敏,南开大学光学专业博士,我校凝聚态物理专业博士生导师、物理科学与信息工程学院院长。Email: zhangsm@hebtu.edu.cn
先后主持国家自然科学基金(相干拉曼光谱分子测量用光源的研究11074065, 石墨烯锁模耗散孤子光纤激光器动力学特性研究, 11374089)、教育部博士点博导类基金(基于石墨烯饱和吸收体高能量变换极限超短光纤光源20101303110003)、河北省自然科学基金(基于石墨烯可饱和吸收体锁模光纤激光器动力学特性研究 F2012205076,全正色散光纤锁模激光器及其应用F2009000321,高能量光纤飞秒光源的理论和实验研究F2006000183)、河北省教育厅重点基金(超快石墨烯锁模光纤激光器研究ZH2011107)等。
在 Opt.Lett.,Optics Express, Journal of the Optical Society of America B, Applied Physics B 等国内外重要期刊杂志发表SCI收录论文 40 余篇, 其中发表在Opt.Lett.上的文章"Passive mode locking at harmonics of the free spectral range of the intracavity filter in a fiber ring laser" 被著名光学专家Govind P. Agrawal编写的权威专著《Applications of Nonlinear Fiber Optics》引用。主持项目"光纤超短脉冲光源的研究"获2012年河北省自然科学奖三等奖。指导的博、硕士研究生获国家奖学金、华藏奖学金等奖项。
主要研究方向:光子学与现代光通信。目前主要开展的研究为:全光纤器件;光纤激光器和短脉冲光源;光脉冲在光纤中传输时的理论和实验研究,光纤激光器动力学特性研究。
先后主讲课程:本科生《光学》、《光纤通信原理》、《高等数学》、《物理学导论》等课程,研究生《非线性光纤光学》等课程。
受教育经历(从大学本科开始,按时间倒排序)
2002/09-2005/07, 南开大学,新葡亰8883ent,博士;
1997/09-2000/07, 华南师范大学,量子电子学研究所,硕士;
1983/09-1987/07, 我校, 物理系,学士。
研究工作经历(按时间倒排序)
2012/05-2012/11, 美国康奈尔大学,应用物理系,访问学者;
2005/07-至今, 我校,新葡亰8883ent,教授;
2004/10-2005/04, 新加坡光波所,光通信研究所,研究学习;
2000/07-2002/09, 我校,新葡亰8883ent,讲师/副教授;
1990/10-1997/07, 我校,新葡亰8883ent,讲师;
1987/09-1990/10, 河北林学院,基础部,助教/讲师。
科研获奖
张书敏,杨振军,赵光贞,张志君,新型光纤超短脉冲光源的研究,河北省自然科学奖三等奖 2012ZR3006-1 (2012)
主持科研课题
1. 石墨烯锁模耗散孤子光纤激光器动力学特性研究(11374089),国家自然科学基金项目,2014.01-2017.12 ,到位经费: 85万元, 项目负责人
2. 相干拉曼光谱分子测量用光源的研究(11074065),国家自然科学基金项目,2011.01-2013.12,到位经费:40万元, 项目负责人
3. 非局域非线性介质中多极孤子的传输动力学研究(61308016),国家自然科学基金项目,2014.01-2016.12,到位经费:24万,第一主研
4. 基于石墨烯饱和吸收体高能量变换极限超短光纤光源(20101303110003)教育部博士点博导类基金, 2011.01-2013.12, 到位经费:6万元, 项目负责人
5. 星载遥感用全光纤激光光源的研究(F2017205162)2017.01-2019.12, 河北省自然科学基金,到位经费:6万元, 项目负责人
6. 基于石墨烯可饱和吸收体锁模光纤激光器动力学特性研究 (F2012205076), 2012.01-2014.12, 河北省自然科学基金,到位经费:5万元, 项目负责人
7. 全正色散光纤锁模激光器及其应用(F2009000321),2009.01-2011.12, 河北省自然科学基金,到位经费:5万元, 项目负责人
8. 高能量光纤飞秒光源的理论和实验研究(F2006000183),2006.01-2008.12, 河北省自然科学基金,到位经费:9万元, 项目负责人
9. 超快石墨烯锁模光纤激光器研究(ZH2011107),2011.01-2014.12,河北省教育厅重点基金,到位经费:9万元, 项目负责人
近期发表的主要论文(2005-2016)
1. Dan Yan, Xingliang Li, Shumin Zhang,* Mengmeng Han, Huiyun Han, and Zhenjun Yang, “L-band wavelength-tunable dissipative soliton fiber laser,” Optics Express, 24(2): 739–748 (2016). SCI影响因子:3.488.
2. Jingmin Liu, Xingliang Li, Shumin Zhang,*, Han Zhang, PeiguangYan, Mengmeng Han, Zhaoguang Pang, and ZhenjunYang Polarization domain wall pulses in a microfiber-based topological insulator fiber laser,”Scientific RepoRts, (6:29128 (2016) ).
3. Xingliang Li, Shumin Zhang∗, Mengmeng Han, Huaxing Zhang, Fang Wen, and Zhenjun Yang, Diffreren polarization dynamic states in a vector Yb-doped fiber laser, Optics Express, 23(8): 10747–10755 (2015).
4. Mengmeng Han, Shumin Zhang∗, Xingliang Li, Huaxing Zhang, Hong Yang, and Ting Yuan, Polarization dynamic patterns of vector solitons in a graphene mode-locked fiber laser, Optics Express, 23(3): 2424–2435 (2015).
5. Xingliang Li, Shumin Zhang,∗Mengmeng Han, Huaxing Zhang, Fang Wen, and Zhenjun Yang, Flexible operability and amplification of gray pulses, Optics Letters, (39, (14):4116-4119 (2014)
6. Xingliang Li, Shumin Zhang,*Yanping Hao, and Zhenjun Yang, Pulse bursts with a controllable number of pulses from a mode-locked Yb-doped all fiber laser system, Opt. Express, 22, 6699-6706, (2014)
7. Xingliang Li, Shumin Zhang,*Yichang Meng, and Yanping Hao, Harmonic mode locking counterparts of dark pulse and dark-bright pulse pairs, Opt. Express, 21, 8409-8416 (2013)
8. Yichang Meng, Shumin Zhang,* Xingliang Li, Hongfei Li, Juan Du, Yanping Hao, “Multiple-soliton dynamic patterns in a graphene mode-locked fiber laser”, Opt. Express, 20(6):6685-6692. (2012)
9. Shumin Zhang, Fuyun Lu, Xinyong Dong, Ping Shum, Xiufeng Yang, Xiaoqun Zhou, Yandong Gong, and Chao Lu, Passive mode locking at harmonics of the free spectral range of the intracavity filter in a fiber ring laser, Optics Letters, 30(21): 2852-2854. (2005)
10. Shumin Zhang, Guangzhen Zhao, Aiping Luo, and Zhijun Zhang, Third-order dispersion role on parabolic pulse propagation in dispersion-decreasing fiber with normal group-velocity dispersion, Applied Physics B., 94(2): 227-232 (2009).
11. Shumin Zhang, Chunjiang Jin, Yichang Meng, Xinzhan Wang, and Huihui Li, Propagation of high-power parabolic pulses in cubicon fiber amplifiers, Journal of the Optical Society of America B., 27(6):1272-1278 (2010).
12. Shumin Zhang*, Qingshen Meng, and Guangzhen Zhao, All-fiber wavelength tunable passively mode-locked erbium-doped ring laser, The Euopean Physical Journal D, 60: 383-387, (2010)
13. Xingliang Li, Shumin Zhang*, Huaxing Zhang, Mengmeng Han, Fang Wen, and Zhenjun YangHighly efficient rectangular pulse emission in a mode-locked fiber laser,IEEE Photonics Technology Letters, 26, 2082-2085,(2014) (IF: 2.176, 2区)
14. Mengmeng Han, Shumin Zhang*, Xingliang Li, Huaxing Zhang, Fang Wen, Zhenjun Yang, High-energy, tunable-wavelengths, Q-switched pulse laser, Optics Communications 326, 24–28 (2014)
15. Huaxing Zhang, Shumin Zhang*,Xingliang Li, Mengmeng Han,Optimal design of higher energy dissipative-soliton fiber lasers, Optics Communications 335 ,212–217 ,(2015) (IF: 1.542)
16. Juan Du, Shumin Zhang*, Hongfei Li, Yichang Meng, Yanping Hao, Xingliang Li, Observation of boundstates of solitons in an L-bandpassivemode-locking ring fiber laser, Opt. laser technol., 46: 61-66, (2013)
17. J. Du, S. M. Zhang*, H. F. Li, Y. C. Meng, X. L. Li, and Y. P. Hao, L band passively harmonic mode-locked fiber laser based on a graphene saturable absorber, Laser Phys. Lett., 9(12): 896-900, (2012)
18. Yichang Meng, Shumin Zhang*, Xingliang Li, Hongfei Li, Juan Du, Yanping Hao, Passive harmonically mode-locked fiber laser with low pumping power based on a graphene saturable absorber, Laser Phys. Lett., 9(7): 537-541, (2012)
19. Yichang Meng, Shumin Zhang*, Xinzhan Wang, Juan Du, Hongfei Li, Yanping Hao, Xingliang Li, Tunable double-clad ytterbium-doped fiber laser based on a double-pass Mach–Zehnder interferometer, Optics and Lasers in Engineering, 50(3): 303-307, (2012)
20. Hongfei Li, Shumin Zhang*, Juan Du, Yichang Meng, Yanping Hao, Xingliang Li, Passively harmonic mode-locked fiber laser with controllable repetition rate based on a carbon nanotube saturable absorber, Optics Communications, 285(6): 1347-1351, (2012)
21. Yichang Meng, Shumin Zhang*, Hongfei Li, Juan Du, Yanping Hao, Xingliang Li, Bright-dark soliton pairs in a self-mode locking fiber laser, Opt. Eng., 51(6): 064302, (2012)
22. S. M. Zhang*, Y. P. Hao, C. J. Jin, Y. C. Meng, H. F. Li, J. Du, and X. L. Li, Experimental study of parabolic bound pulses from an Er-doped fiber ring laser, Laser Physics, 22(6): 1049-1053, (2012)
23. Xingliang Li, Shumin Zhang*, Yichang Meng, Yanping Hao, Hongfei Li, Juan Du, Zhenjun Yang, Observation of soliton bound states in a graphene mode locked erbium-doped fiber laser, Laser Physics, 22(4): 774–777, (2012)
24. Huihui Li, Shumin Zhang*, Xinzhan Wang, Yichang Meng, Generation of high energy, wavelength-tuned supercontinuum sources, Optical Engineering, 50(8): 085005, (2011)
25. Yichang Meng, Shumin Zhang *, Enhanced compression of femtosecond pulse in hollow-core photonic bandgap fibers, Optics Communications, 283 , 2411–2415 (2010)
26. Shumin Zhang, Generation of picosecond soliton pulses with tunable repetition rate by modulational instability, Optik, 121, 1033–1035 (2010)
27. Shuxia Gao, Xiaoqing Li, Shumin Zhang*, Supercontinuum generation by combining clad-pumped Er/Yb co-doped fiber amplifier and highly nonlinear photonic crystal fiber, Optik, 121(23): 2110-2112, (2010)
28. Shumin Zhang, et. al., Generation of picosecond soliton pulses with tunable repetition rate by modulational instability, Optik , 12 (2009)
29. Shumin Zhang, Yang Xiufeng, Lu Fuyun, Gong Yandong, and Meng Xiulan, Supercontinuum generation in photonic crystal fibers with a normal dispersion pump pulse near the zero-dispersion wavelength, Optics Engineering, 47(7): 075005. (2008)
30. Shumin Zhang, Li Dan, et. al., Tunable all-fiber Er3+-doped laser based on a double-clad Er3+/Yb3+ co-doped fiber amplifier, MICROWAVE AND OPTICAL TECHNOLOGY LETTERS,.10 (2008)
31. Zhang Shumin, Lu Fuyun, Yang Xiufen, and Gong Yandong, Different operation states of soliton pulses in an erbium-doped fiber ring laser, Chinese Physics, 16(7): 1986-1990 (2007)
32. Zhang Shu-Min, Lu Fu-Yun, Zou xiaoxue, Soliton pulses in an erbium-doped fiber ring laser and its use in supercontinuum generation, Acta Physica Sinica, 56, 2191-2195 (2007).
33. Zhang Shumin, Lu Fuyun, all fiber actively Q-switched Er/Yb co-doped ring laser; MICROWAVE AND OPTICAL TECHNOLOGY LETTERS, 49 (9): 2183-2186, (2007).
34. Shumin Zhang, Fuyun Lu, and Jian Wang, Self-Q-switching and mode-locking in an all-fiber Er/Yb co-doped fiber ring laser, Optics Communications, 263(1), 47-51. (2006)
35. Shumin Zhang , Fuyun Lu, Chunxia Xie. Passively mode-locked Er/Yb-codoped fiber ring laser with a fiber Bragg grating loop mirror. OPTICS ENGINEERING,45(3):034204(2006).
36. Zhang Shumin, Lu Fuyun , Wang Jian. High-power narrow line width tunable cladding pumped Er : Yb co-doped fiber laser MICROWAVE AND OPTICAL TECHNOLOGY LETTERS 48 (9): 1736-1739, (2006).
37. Shumin Zhang, Fuyun Lu, Wencheng Xu, Jian Wang. Modulation instability induced by cross-phase modulation in decreasing dispersion fiber. OPTICAL FIBER TECHNOLOGY 11 (2): 193-201 APR (2005).
38. Shumin Zhang, Fuyun Lu, Chunxia Xie, Jian Wang and Xiaoyi Dong. Temporal characteristics of a high-energy Er/Yb-codoped fibre ring laser. JOURNAL OF OPTICS A : PURE APPLIED OPTICS 7:175-178 (2005).
39. Zhang Shumin, Lu F uyun, Yang XiuFeng, Dong Fa jie, Wang Hong jie, Dong Xiao yi. Wavelength tunable linear cavity cladding pump Era(3+)/Yb3+ co-doped fiber laser operating in L-band OPTICAL AND QUANTUM ELECTRONICS, 37 (4):417-424 MAR (2005).
40. Zhang Shumin, Lu Fuyun, Gong Yandong, Zhou Xiaoqun, Yang Xiufen, and Lu Chao. Bound soliton pulses in a passively mode-locked fiber ring laser. CHINESE PHYSICS 14(9):1839-1843, (2005).
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马丽
马丽 副教授 硕士生导师
办 公 室:理科群2号楼C213
办公电话:+86-311-80787328
Email:majimei@126.com
Links:GoogleScholar
个人介绍:
河北省优秀青年基金获得者。中国电子学会高级会员。主要从事新型磁性金属功能材料的设计和研发。在APL materials、Applied Physics Letters、Physical Review B、Journal of Applied Physics等重要学术期刊上发表论文50 多篇。申请国家发明专利5项,已授权4项。其中我校“在MnNiGa:Co合金中实现磁场诱发马氏体相变”的研究成果被著名磁学专家K. H. J. BUSCHOW纳入其编写的专著《Handbook of Magnetic Materials V.19》中。是Scientific Reports,Intermetallics,Journal of Magnetism and Magnetic Materials 等国际期刊专业审稿人。
教育科研工作背景:
2012年12月-至今,新葡亰8883ent,副教授
2009年7月-2012年11月,新葡亰8883ent,讲师
2009年7月,中国科学院物理研究所,博士
2006年6月,新葡亰8883ent,硕士
2003年6月,新葡亰8883ent,学士
2017年4月-2018年4月,德国马克思普朗克固态化学物理所,访问学习
研究方向:
(1)新型磁相变材料的开发及物性研究
(2)磁性合金原子占位设计
(3)复杂多磁相共存体系的交换偏置研究
(4)磁性功能材料的第一性原理计算
研究亮点:
(1)首次阐明了Heusler合金中进行Co掺杂能实现大DM的物理机制:
根据Web of Science给出的统计,我们在该领域的上述研究工作目前总引用频次已达到384次。并且该部分研究成果被著名磁学专家K. H. J. BUSCHOW纳入其编写的专著《Handbook of Magnetic Materials V.19》中。本项研究工作对于开发新的磁驱相变材料和推动Heusler合金的多功能商业化应用都有非常重要的指导意义。
(2)首次开发出不含有Ga的新型Mn2基铁磁形状记忆合金:
已获得知识产权保护:国家发明专利Mn50Ni50-xAlx高温铁磁形状记忆合金材料及其制备方法,专利号:201010588078.1;国家发明专利Mn50CoxNiySnz高温铁磁形状记忆合金材料及其制备方法,专利号:201010588236.3。该工作对丰富铁磁形状记忆合金的种类,推动铁磁形状记忆合金的商业化应用具有重要的现实意义。
(3)首次确认了Heusler合金中交换偏置效应的磁相组成并实现了交换偏置场的大范围连续可调:
这一部分研究工作被国际著名物理学家J A Mydosh 在Reports on Progress in Physics上发表的“Spin glasses: redux: an updated experimental/materialssurvey”综述中作为Heusler合金的最新研究进展所引用[Reports on Progress in Physics 78 (2015) 052501]。本项研究工作对于确认NiMn基合金的磁相构成和开发新的具有大HE的Heusler材料具有重要的指导意义。
承担科研项目情况:
[1]
国家自然科学基金项目“Mn2基铁磁形状记忆合金开发和物性研究” 项目编号:51101049(2012.01-2014.12)负责人
[2]
河北省自然科学基金优青项目“NiMn基Heusler合金中磁场诱发一级磁相变、动力学阻止与自发交换偏置效应的关联性研究”项目编号:E2016205268(2016.01-2018.12)负责人
[3]
中国博士后科学基金第60批面上资助一等“触发Mn基Heusler合金自发交换偏置效应及相关机制研究”项目编号:2016M600192(2017.01-2018.12),负责人。
[4]
河北省自然科学青年基金项目“Mn2NiX(X=Al,In,Sb,Sn)的制备与物性研究” 项目编号:E2012205057(2012.01-2014.12)负责人
[5]
国家教育部博士点基金项目“Mn2基铁磁形状记忆合金Mn2NiX(X=Al,In,Sb,Sn)开发与研究” 项目编号:20111303120002(2012.01-2014.12)负责人
[6]
河北省教育厅自然科学基金项目“新型Mn2基铁磁形状记忆合金的开发与研究”项目编号:2010261(2011.01-2013.12)负责人
[7]
我校重点基金项目“材料磁性调控材料的成相” 项目编号:130259 (2011.01-2013.12)负责人
[8]
我校博士基金项目“新型磁驱相变材料NiCoMnSb和NiCoMnGa ”项目编号:130254(2010.01-2012.12)负责人
[9]
河北省重点基础研究项目“新型磁性多功能材料的设计、制备和基本物性研究” 项目编号:12965136D(2012.06-2015.06)子项目负责人
[10]
国家自然科学基金项目“Heusler结构框架下新型磁电材料开发与单晶多层膜制备研究” 项目编号:51271071(2013.01-2016.12)第二主研人
[11]
国家自然科学基金项目“两种磁驱动马氏体相变新合金的研究” 项目编号:51271071(2008.01-2010.12)第四主研人
[12]
国家自然科学基金项目“四元铁磁性形状记忆合金CoNiGaZ的磁感生应变研究” 项目编号:51271071(2008.01-2010.12)第四主研人
代表性论文:
[1]
Liyun Jia, Jianlei Shen, Mengmeng Li, XiWang, Li. Ma(通讯作者), Congmian Zhen, Denglu Hou, Enke Liu, Wenhong Wang, andGuangheng Wu,Tuning antiferromagnetic exchange interaction for spontaneousexchange bias in MnNiSnSi system. APL Materials 20175(12): 126105-1-126105-7 (JCR 2区IF:4.335)Times Cited: 0
[2]
L.Ma, H. W. Zhang, S. Y. Yu, Z. Y. Zhu, J. L. Chen, and G. H.Wu* Magnetic-field-inducedmartensitic transformation in MnNiGa : Co alloys Applied PhysicsLetters 92 (2008)032509 (JCR 2区IF:3.844) Times Cited:64
[3]
L.Ma, W. H. Wang, J. B. Lu, J. Q. Li, C. M. Zhen,D. L. Hou, G. H. Wu* Coexistence of reentrant-spin-glass and ferromagneticmartensitic phases in the Mn2Ni1.6Sn0.4 Heusleralloy. AppliedPhysics Letters 99 (2011) 182507. (JCR 2区IF:3.844) Times Cited: 49
[4]
R. B. Zhao, D. W. Zhao, G. K. Li, L. Ma(通讯作者), C. M. Zhen, D. L. Hou, W. H. Wang, E.K. Liu, J. L. Chen, and G. H. Wu, Anomalous magnetic configuration of Mn2NiAl ribbonand the role of hybridization in the martensitic transformation ofMn50Ni502xAlx ribbons. Applied Physics Letters 105 (2014) 232404. (JCR 2区IF:3.302) Times Cited: 3
[5]
L.Ma, W. H. Wang, C. M. Zhen, D. L. Hou, X.D. Tang, E. K. Liu, G. H. Wu,* Polymorphic magnetization and localferromagnetic structure in Co-doped Mn2NiGa alloys. Physical Review B 84 (2011) 224404. (JCR 2区IF:3.691) Times Cited: 22
[6]
D. W. Zhao ,G. K. Li,S. Q. Wang,C. M. Zhen,D. L. Hou, L. Ma(通讯作者), J. Liu,W. H. Wang,E. K. Liu,J. L. Chen,G. H. Wu,A wide temperature window for themagnetostructural transformation in Mn50Ni50-x-ySnxCoy alloys,Intermetallics 2015 70: 68-71. (JCR 2区IF:3.14) Times Cited: 1
[7]
RuibinZhao, Guoke Li, Liyun Jia, Li. Ma(通讯作者), Congmian Zhen, Denglu Hou, Wenhong Wang, Enke Liu,Guangheng Wu, Insight into the important role of antisite disorder in themagnetic properties of Mn2CuAl, Intermetallics 201785: 98-102 (JCR 2区IF:3.14)Times Cited: 0
[8]
H.Pan, L.Ma(通讯作者), G.K. Li, L.Y. Jia, C.M. Zhen, D.L. Hou, W.H.Wang, E.K. Liu, J.L. Chen, G.H. Wu, Large exchange bias effect in the superspin glass state of Mn50Ni38Al12 alloy Intermetallics 201786: 116-120 (JCR 2区IF:3.14) Times Cited: 1
[9]
D. W. Zhao, G. K. Li, S. Q. Wang, L. Ma(通讯作者), C. M. Zhen, D. L. Hou, W. H. Wang, E.K. Liu, J. L. Chen, and G. H. Wu, Tuning exchange bias by Co doping in Mn50Ni41-xSn9Cox melt-spunribbons, Journalof Applied Physics 116, (2014) 103910 (JCR 3区IF:2.183) Times Cited: 1
[10]
P.Song, G.K. Li, L. Ma(通讯作者), C.M. Zhen, D.L. Hou, W.H. Wang, E.K. Liu, J.L. Chen and G.H. Wu,Magnetization jumps and exchange bias induced by a partially disorderedantiferromagnetic state in (FeTiO3)0.9-(Fe2O3)0.1, Journal of Applied Physics 115, (2014) 213907 (JCR 3区IF:2.183) Times Cited: 2
[11]
L. Ma(通讯作者), S. Q. Wang, Y. Z.Li, C. M. Zhen, D. L. Hou, W. H. Wang, J. L. Chen,and G. H. Wu, Martensitic and magnetic transformation in Mn50Ni50-xSnx ferromagneticshape memory alloys Journal of Applied Physics 112, (2012) 083902 (JCR 3区IF:2.21) Times Cited: 19
[12]
L.Ma, Z. Y. Zhu, M. Li, S. D. Yu, Q. L. Cui, Q.Zhou, J. L. Chen and G. H. Wu,* Structure and magnetic properties ofstress-induced martensite in ferromagnetic shape memory alloy Mn2NiGa Acta Physica Sinica 58 (2009) 3479 (JCR 4区IF:1.027) Times Cited: 8
[13]
J. L. Shen, D. W. Zhao, G. K. Li, L. Ma(通讯作者), L. Y. Jia, C. M. Zhen, D. L. Hou, Kineticarrest and de-arrest in Mn50Ni36Sn9Co5ferromagnetic shape memory alloy Physica Status Solidi B 253 (2016) 1923 (JCR 4区IF:1.522) Times Cited: 1
[14]
Shen Jian-Lei, Li Meng-Meng, Zhao Rui-Bin, Li Guo-Ke, L. Ma(通讯作者), Zhen Cong-Mian, Hou Deng-Lu, Role of Ni-Mnhybridization in the martensitic transformation and magnetism ofMn50Ni41-xSn9Cux alloys, Acta Physica Sinica, 65 (2016) 247501 (JCR 4区IF:1.027) Times Cited: 0
[15]
L. Ma(通讯作者), C.M. Zhen, Z. G. Pang, D. L.Hou, Microstructure and Magnetic Properties of Sputtered Co5SmFilms. Journal of Measurement Science and Instrumentation 2 (2011) 317
[16]
马丽,李远征,王曙巧,甄聪棉,侯登录,国家发明专利Mn50Ni50-xAlx高温铁磁形状记忆合金材料及其制备方法,专利号:201010588078.1;
[17]
马丽,王曙巧,李远征,甄聪棉,侯登录,国家发明专利Mn50CoxNiySnz高温铁磁形状记忆合金材料及其制备方法,专利号:201010588236.3。
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甄聪棉
电子邮件:cmzhen@hebtu.edu.cn
1973年10月出生,教授,凝聚态物理专业硕士生导师,校中青年骨干教师,入选河北省“三三三人才”第三层次。
受教育经历:
1993-1997 我校物理系 学士
1997-2000 兰州大学物理系 理学硕士
2000-2003 兰州大学物理系 理学博士
2008-2009 日本东京大学工学系 客座研究员
2015.02-08 美国内布拉斯加大学林肯分校 访问学者
主要研究方向:
主要从事半导体材料,尤其是IV 族基材料的研究,以新能源为主题,结合成熟的半导体Si工艺,主要侧重开发Si、Ge、C 新结构,采用SiO2,SiN 为模板或者母体材料,改变Si,Ge,C 的分布,探测其热电性能、磁性能等。目前,开展了外延生长NiCo2O4薄膜并对其电学行为进行研究。
基金:
主持完成国家自然基金“Si(Ge)纳米晶磁有序形成与机理(2009-2011,10804026)”;作为第一主研参与完成国家自然基金“TM-SiGeC体系的微结构、磁性与输运性质(2008-2010,10774037)”;作为主要成员参与河北省重点基金“新型磁性多功能材料的设计、制备和基本物性研究(2013-2015)”;主持河北省自然基金“新型热电材料2D-Si基声子晶体的制备和性能研究(2013-2015,A2013205101);主持河北省高层次人才资助项目“新型热电材料二维Si声子晶体的制备和性能研究(2014-2016,A201400119)”;主持完成教育厅基金“硅基SiC纳米薄膜的蓝光发射研究(2007-2009,2006123)”;主持完成我校博士基金项目“超高密度磁记录薄膜的制备和性能研究(2003-2005,L2003B08)”
本人获奖:
1998-1999年度获甘肃省高校科技进步三等奖(“新型硅基薄膜材料的制备及特性研究”,荣证字第3-01/5号);2002年获甘肃省高等学校科技进步一等奖(“纳米半导体薄膜的制备以及发光和光电特性的研究”,证书号:02-A-04/04);2003年获甘肃省科技进步二等奖(“纳米半导体薄膜的制备以及发光和光电特性的研究”,证书号:2003-2-046¤ 4); 2010 年获河北省自然科学二等奖(“宽禁带氧化物半导体磁有序研究”,证书号:2010ZR2003-2);2006年获我校第三届青年教师课堂教学技能大赛一等奖。
研究生培养:
已毕业全日制研究生15名,其中5名就职于高校,2名考取中科院博士,1名就职于太阳能电池公司,7名在中学工作;培养高校在职教师4名。
最近主要发表文章(*为责任作者):
1 Xing Wang(研究生), Ying Wu, Xiaowei Liu, Jianyong Chen, Congmian Zhen*, Li Ma, Denglu Hou. A template-based method for preparing ordered porous silicon, J Porous Mater, 22(6)2015 1431-1435.
2 Xing Wang(研究生), CongMian Zhen*, XiaoWei Liu, XiuMin Liu, Li Ma, ChengFu Pan, DengLu Hou, A new hole-bridge structure based on a SiO2 nanoarray and its ferromagnetism, Colloids and Surfaces A: Physicochem. Eng. Aspects 446 (2014) 151–155.
3 赵翠莲(研究生) 甄聪棉* 马丽 潘成福 侯登录,Ge 纳米结构的形貌与铁磁性研究,物理学报 62 3 (2013) 037502
4 S. Y. Liu(研究生), C. M. Zhen*, Y. Z. Li, C. F. Pan, H. J. Zhou, D. L. Hou, Ferromagnetism in hydrogenated N-doped amorphous carbon films, Journal of Applied Physics 111 (2012) 053922-1-053922-5.
5 Cuilian Zhao(研究生), Congmian Zhen*, Yuanzheng Li, Li Ma, Chengfu Pan, Denglu Hou, Ferromagnetism in Cu-doped silicon carbide, Solid State Communications 152 (2012) 752–756.
6 Cuilian Zhao(研究生), Congmian Zhen*, Yuanbo Liu, Chengfu Pan, Li Ma, Zhaoguang Pang, Denglu Hou, Room-temperature ferromagnetism in silicon oxide/silicon nitride composite films, Solid State Sciences 14 (2012) 1454-1457
7 Y.L. Zheng(研究生), C.M. Zhen*, X.Q. Wang, L. Ma, X.L. Li, D.L. Hou. Room-temperature ferromagnetism observed in alumina films, Solid State Sciences 13 (2011) 1516-1519.
8 郑玉龙(研究生),甄聪棉*,马 丽,李秀玲,潘成福,侯登录. Si-Al2O3复合薄膜的室温铁磁性,物理学报 60(11)(2011) 117502(1-5).
9 Zhen Congmian*, Liu Yuanbo, Ma Li, Pang Zhaoguang, Pan Chengfu, Hou Denglu, Ferromagnetism in Ge/SiO2 multilayer films, Journal of Applied Physics, 107 (4) (2010) 043901-1-043901-5.
10 Zhen Congmian*, Liu Yuanbo, Zhang Yongjin, Ma Li, Pan Chengfu, Hou Denglu, Room-temperature ferromagnetism in Si-SiO2 composite film on glass substrate, Journal of Alloys and Compounds, 503(1) (2010) 6-9.
11 Xingwei Liu(研究生), Congmian Zhen*, Yuanbo Liu, Shiyan Liu, Hongjuan Zhou, Xiuling Li, Denglu Hou Magnetic Properties of Al–SiC Co-Sputtered Films Grown by Radio Frequency Sputtering, Journal of Nanoscience and Nanotechnology, 10 (2010) 1-4.
12 周鸿娟,甄聪棉*,张永进,赵翠莲,马丽,侯登录 N 掺杂SiO2 纳米薄膜的制备及其磁性, 物理学报, 59 (05) (2010) 3499-3503.
13 Congmian Zhen, Gang He, Xiaoliang Wang, Y. Shimogaki, SiON as a barrier layer for depositing an Al2O3 thin fillm on Si for gate applications, Surface and Interface Analysis, 41 (2009) 956-959.
14 C.M. Zhen*, X.Q. Wang, X.C. Wu, C.X. Liu, D.L. Hou, Au/p-diamond ohmic contacts deposited by RF sputtering, Applied Surface Science, 255 (2008) 2916-2919.
15 C.M. Zhen*, J.J. Zhang, Y.J. Zhang, C.X. Liu, C.F. Pan, D.L. Hou Fluorinated nanoporous SiO2 films with ultra-low dielectric constant, Journal of Non-Crystalline Solids, 354 (2008) 3867-3870.
16 C.M. Zhen*, Jinjuan Zhang, Li Ma, Denglu Hou,and Ying Liu, Effects of sputtered Ar pressure and substrate temperature on the microstructure and magnetic properties of Cr/SmCo5/Cr films,Surface Review and Letters, 15 (1&2) (2008) 105-109.
专利:
1. 一种具有室温铁磁性的纳米SiO2微球材料及其制备方法
申请日:2012年12月18日;授权时间:2014年7月2日;类型:发明专利
已授权;发明人:甄聪棉; 刘秀敏;王星;马丽;侯登录;专利号:ZL 2012 1 0550873.0;专利权人:我校本小组网站链接: /cxktz/Templates/shouye.htm
- 刘建军
- 刘英
- 刘德
- 谢尊
- 张迎涛
- 芦杰
- 王静
- 孙会元
- 唐贵德
- 侯登录
- 陈伟
- 李壮志
- 安忠
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