张广平 教授

院部/部门: 环球ug登录网站

电子邮箱: zhangguangping@sdnu.edu.cn     办公地点: 山东师范大学长清湖校区F519
个人简历

张广平,男,1985年出生,山东淄博人,理学博士,博士生、硕士生导师。2013年毕业于山东师范大学原子与分子物理专业,获理学博士学位。2013年9月赴瑞典皇家工学院理论化学系从事博士后研究,2015年9月到山东师范大学工作。目前主要从事低维体系电荷输运性质及功能分子器件理论设计等研究,在国际知名刊物发表SCI收录论文70余篇。曾分别获得山东省高校优秀科研成果奖一等奖(第二位)、一等奖(第三位)、二等奖(第一位)、三等奖(第五位)。主持国家自然科学基金3项,中国博士后科学基金面上项目1项。目前为山东省物理学会计算物理委员会委员。

招生方向

硕士研究生招生专业:物理学

研究方向

第一性原理电子结构计算、低维体系电荷输运性质、功能分子器件理论设计等

科研项目

12. 国家自然科学基金面上项目,基于单分子器件技术的分子反应机理理论研究,60万,2022.01-2025.12,主持

11. 国家自然科学基金青年项目,周围环境对分子器件整流性能影响的理论研究,23万,2018.01-2020.12,主持

10. 中国博士后科学基金面上项目,分子器件微观结构表征的理论研究,5万,2017.06-2022.7,主持

9. 国家自然科学基金应急项目,基于分子动力学统计的分子结电荷输运性质理论研究,5万,2016.01-2016.12,主持

8. 国家自然科学基金重点项目,分子电子学理论计算方法的发展与高性能分子器件的理论设计,300万,2020.01-2024.12,参与

7. 国家自然科学基金面上项目,石墨烯基分子逻辑门器件理论设计及机理和可靠性研究,63万,2019.01-2022.12,参与

6. 山东省自然科学基金,异质原子取代烷烃分子器件电子输运性质及其末端基团效应,5万,2019.07-2022.06,参与

5. 山东省自然科学基金,基于共轭分子器件掺杂的PN结设计及其整流机理研究,15万,2018.03-2021.06,参与

4. 山东省自然科学基金,基于铁磁石墨烯的气敏元件的理论设计与研究,5万,2018.03-2020.06,参与

3. 国家自然科学基金面上项目,单分子结的界面结构表征和其电输运及调控研究,76万,2014.01-2017.12,参与

2. 国家自然科学基金青年项目,有机磁性分子器件能态、自旋极化输运及功能性研究,20万,2010.01-2012.12,参与

1. 山东省自然科学基金,有机自旋器件磁电阻特性研究,5万,2009.12-2012.12,参与

荣誉奖励

4. 2021年09月,山东高等学校优秀科研成果奖二等奖(第一位)

3. 2015年09月,山东高等学校优秀科研成果奖一等奖(第二位)

2. 2013年09月,山东高等学校优秀科研成果奖一等奖(第三位)

1. 2012年12月,山东高等学校优秀科研成果奖二等奖(第五位)

论文成果

科研主页:

ResearchGate:https://www.researchgate.net/profile/Guang_Ping_Zhang

ORCID:https://orcid.org/0000-0001-7928-4146

发表SCI收录论文70余篇,论文列表如下:

70. Asymmetrically Flexoelectric Gating effect of Janus Transition-Metal Dichalcogenides and its Sensor Applications, Kun Peng Dou, Hui Hui Hu, XiaoHan Wang, XinYi Wang, Hao Jin*,Guang-Ping Zhang, Xing-Qiang Shi*, Liangzhi Kou*,Journal of Materials Chemistry C, In press.

69. Weak-field polaron dynamics in organic ferromagnets, Hongjun Kan, Yuanyuan Miao, Shuai Qiu, Guangping Zhang, Junfeng Ren, Chuankui Wang, Guichao Hu*,Physical Chemistry Chemical Physics, 22(27) (2020), 15707-15715.

68. Magnetic manipulation of orbital hybridization and magnetoresistance in organic ferromagnetic co-oligomers, Yanqi Li#, Hongjun Kan#, Yuanyuan Miao, Shuai Qiu,Guangping Zhang, Junfeng Ren, Chuankui Wang, Guichao Hu*, Physica E: Low-dimensional Systems and Nanostructures,124 (2020),114327.

67. Carry-On Nitric-Oxide Luggage for Enhanced Chemotherapeutic Efficacy, Tao Sun, Yunhui Ding, Xiaofei Wang, Kai Zhang,Guang-Ping Zhang, Donghui Liang, Kunjiao Yu, Yongchao Chu, Qinjun Chen, and Chen Jiang,Nano Letters, 20(7) (2020),5275-5283.

66. Manipulating Current Spin Polarization in Magnetic Single-Molecule Junctions via Destructive Quantum Interference, Shuai Qiu, Yuan-Yuan Miao,Guang-Ping Zhang, Jun-Feng Ren, Chuan-Kui Wang*, and Gui-Chao Hu*,Journal of Physical Chemistry C, 11(11) (2020),4456-4461.

65.Mechanism Study of Molecular Deformation of 2,2′,5′,2′′-Tetramethylated p-Terphenyl-4,4′′-dithiol Trapped in Gold Junctions, Yujin Zhang, Pingping Su, Yanqi Mu,Guangping Zhang, Yi Luo, Jun Jiang, Wei Hu*,Journal of Physical Chemistry Letters, 124(22) (2020),12144-12152.

64. Theoretically exploring the possible configurations, the electronic and transport properties of MoS2-OH bilayer, Jie Sun, Jiancai Leng*,Guangping Zhang*,Physics Letters A,384(24) (2020),126575.

63. Theoretical design of single-molecule NOR and XNOR logic gates by using transition metal dibenzotetraaza[14]annulenes, Zi-Qun Wang, Fei Tang, Mi-Mi Dong, Ming-Lang Wang, Gui-Chao Hu, Jian-Cai Leng, Chuan-Kui Wang*,Guang-Ping Zhang*,Chinese Physics B,29(6) (2020), 067202.

62. Modulation of spin thermoelectric properties in transition metal porphyrin single-molecule spin caloritronic devices by Fano resonance, Zi-Qun Wang, Fei Tang, Ming-Lang Wang, Gui-Chao Hu, Jian-Cai Leng, Chuan-Kui Wang*,Guang-Ping Zhang*,Physica E: Low-dimensional Systems and Nanostructures, 121 (2020),114129.

61. Odd-even effect of the switching performance for dimethyldihydropyrene/cyclophanediene single-molecule switch modulated by carbon atomic chains, Yan-Qi Mu, Jin-Ming Zhao, Li-Yuan Chen, Hui Huang, Ming-Lang Wang, Gui-Chao Hu, Chuan-Kui Wang*,Guang-Ping Zhang*,Organic Electronics,81 (2020), 105665.

60. Co-delivery of Cu(I) chelator and chemotherapeutics as a new strategy for tumor theranostic, Tao Sun,Guangping Zhang, Zhongyuan Guo, Qinjun Chen, Yujie Zhang, Yongchao Chu, Qin Guo, Chao Li, Wenxi Zhou, Yiwen Zhang, Peixin Liu, Hongyi Chen, Haijun Yu, Liping Jiang, Chen Jiang*,Journal of Controlled Release, 321 (2020), 483-496.

59. Pervasive ohmic contacts of monolayer 4-hT2 graphdiyne transistors, Mi-Mi Dong,Guang-Ping Zhang, Zi-Qun Wang, Zong-Liang Li, Ming-Lang Wang, Chuan-Kui Wang*, Xiao-Xiao Fu*,Nanotechnology,31(22) (2020), 225705.

58. Tunneling magnetoresistance in ferromagnet/organic-ferromagnet/metal junctions, Yan-Qi Li#, Hong-Jun Kan#, Yuan-Yuan Miao, Lei Yang, Shuai Qiu,Guang-Ping Zhang, Jun-Feng Ren, Chuan-Kui Wang, Gui-Chao Hu*,Chinese Physics B, 29(1) (2020), 017303.

57. Modulating hybrid interface states in magnetic molecular junctions by molecular geometrical torsion,Shuai Qiu, Yuan-Yuan Miao,Guang-Ping Zhang, Jun-Feng Ren, Chuan-Kui Wang*, Gui-Chao Hu*,Journal of Magnetism and Magnetic Materials, 489 (2019),165465.

56.Bias and molecular-length dependent odd-even effect of rectification in 4′-methyl-2,2′-bipyridyl-terminated n-alkanethiolate single-molecule diodes,Ming-Zhi Wei, Xiao-Xiao Fu, Zi-Qun Wang, Gui-Chao Hu, Zong-Liang Li, Chuan-Kui Wang*,Guang-Ping Zhang*,Journal of Materials Chemistry C, 7(29) (2019), 9000-9007.

55. Suspended CNT-Based FET sensor for ultrasensitive and label-free detection of DNA hybridization,Yang Sun, Zhisheng Peng, Huamin Li,Ziqun Wang,Yanqi Mu,Guangping Zhang,Shuo Chen,Siyu Liu,Gongtang Wang,Chundong Liu,Lianfeng Sun*,Baoyuan Man*,Cheng Yang*,Biosensors and Bioelectronics, 137 (2019),255-262.

54. Enhancement of magnetoresistance and current spin polarization in single-molecule junctions by manipulating the hybrid interface states via anchoring groups,Shuai Qiu, Yuan-Yuan Miao,Guang-Ping Zhang, Jun-Feng Ren, Chuan-Kui Wang*, Gui-Chao Hu*,Journal of Magnetism and Magnetic Materials,479 (2019), 247-253.

53.Pre-Blocked Molecular Shuttle as an In-Situ Real-Time Theranostics, Tao Sun,Guangping Zhang, Qingbing Wang, Zhongyuan Guo, Qinjun Chen, Xinli Chen, Yifei Lu, Yu Zhang, Yujie Zhang, Qin Guo, Xiang Gao, Yongzhong Cheng, Chen Jiang*,Biomaterials, 204 (2019), 46-58.

52.Surface engineering of phosphorene nanoribbons by transition metal heteroatoms for spintronics, Mi-Mi Dong, Zi-Qun Wang,Guang-Ping Zhang, Chuan-Kui Wang*, Xiao-Xiao Fu*,Physical Chemistry Chemical Physics, 21(9) (2019), 4879-4887.

51.Enhancement of magnetoresistance and current spin polarization in single-molecule junctions by manipulating the hybrid interface states via anchoring groups, Shuai Qiu, Yuan-Yuan Miao,Guang-Ping Zhang, Jun-Feng Ren, Chuan-Kui Wang*, Gui-Chao Hu*,Journal of Magnetism and Magnetic Materials, 479 (2019), 247-253.

50.Optimizing the conductance switching performance in photoswitchable dimethyldihydropyrene/cyclophanediene single-molecule junctions,Guang-Ping Zhang*, Yan-Qi Mu, Jin-Ming Zhao, Hui Huang, Gui-Chao Hu, Zong-Liang Li, Chuan-Kui Wang*,Physica E: Low-dimensional Systems and Nanostructures, 109 (2019), 1-5.

49.Multistate magnetoresistance in zigzag-edge trigonal graphene magnetic junctions, Guangmeng He#, Shuai Qiu#, Yangjun Cui, Cuiju Yu, Yuanyuan Miao,Guangping Zhang, Junfeng Ren, Chuan-Kui Wang, Guichao Hu*,Journal of Materials Science, 54(7) (2019), 5551-5560.

48.Doping-Induced Negative Differential Conductance Enhancement in Single-Molecule Junction, Zong-Liang Li*, Feng Sun, Jun-Jie Bi, Ran Liu, Yu-Qing Suo, Huan-Yan Fu,Guang-Ping Zhang, Yu-Zhi Song, Dunyou Wang, Chuan-Kui Wang*,Physica E: Low-dimensional Systems and Nanostructures, 106 (2019), 270-276.

47.Controlling Rectification Performance by Tuning Molecule-Electrode Coupling Strength in Ferrocenyl-undecanethiolate Molecular Diodes, Ming-Zhi Wei, Xi Yu*, Xiao-Xiao Fu, Zi-Qun Wang, Chuan-Kui Wang*,Guang-Ping Zhang*,Journal of Physical Chemistry C, 123(3) (2019), 1559-1565.

46.Controlling the conductance of single-molecule junctions with high spin filtering efficiency by intramolecular proton transfer, Zi-Qun Wang, Yongfang Li, Xiao Niu, Ming-Zhi Wei, Mi-Mi Dong, Gui-Chao Hu, Zong-Liang Li, Dunyou Wang, Chuan-Kui Wang*,Guang-Ping Zhang*,Organic Electronics, 64 (2019), 7-14.

45.Ground-state properties of metal/organic-ferromagnet heterojunctions, Yuanyuan Miao#, Shuai Qiu#,Guangping Zhang, Junfeng Ren, Chuankui Wang, Guichao Hu,Physical Review B, 98(23) (2018), 235415.

44.High magnetoresistance in ultra-thin two dimensional Cr-based MXenes, Jianhui Yang, Shaozheng Zhang, Anping Wang, Ruining Wang, Chuan-Kui Wang*,Guang-Ping Zhang*, Liang Chen*,Nanoscale, 10(41) (2018), 19492-19497.

43.Surface-enhanced Raman spectroscopy of two-dimensional tin diselenide nanoplates, Mei Liu*, Ying Shi,Guangping Zhang, Yongheng Zhang, Meimei Wu, Junfeng Ren, Baoyuan Man,Applied Spectroscopy, 72(11) (2018), 1613-1620.

42. A targeting theranostics nanomedicine as an alternative approach for hyperthermia perfusion, Tao Sun,Guangping Zhang, Qingbing Wang, Qinjun Chen, Xinli Chen, Yifei Lu, Lisha Liu, Yu Zhang, Xi He, Chunhui Ruan, Yujie Zhang, Qin Guo, Chen Jiang*,Biomaterials, 183 (2018), 268-279.

41.Theoretical understanding of the inversion of rectification direction in ferrocenyl-embedded tridecanethiolate single-molecule rectifiers, Ming-Zhi Wei, Zi-Qun Wang, Xiao-Xiao Fu, Gui-Chao Hu, Zong-Liang Li, Chuan-Kui Wang*,Guang-Ping Zhang*,Physica E: Low-dimensional Systems and Nanostructures, 103 (2018), 397-402.

40.Modulating spin-dependent electron transport in benzene-dithiolate magnetic junctions by hybrid interface states, Cuiju Yu#, Yuanyuan Miao#, Shuai Qiu, Yangjun Cui, Guangmeng He,Guangping Zhang, Chuankui Wang, Guichao Hu*,Journal of Physics D: Applied Physics, 51(34) (2018), 345302.

39.High-Performance Single-Molecule Switch Designed by Changing Parity of Electronic Wave Functions via Intramolecular Proton Transfer, Zi-Qun Wang, Ming-Zhi Wei, Mi-Mi Dong, Gui-Chao Hu, Zong-Liang Li, Chuan-Kui Wang*,Guang-Ping Zhang*,Journal of Physical Chemistry C, 122(31) (2018), 17650-17659.

38.Azulene-like molecular devices with high spin filtering, strong spin rectifying, and giant magnetoresistance effects, Yang Song*, Yan Su, Peng Zhao,Guang-Ping Zhang, Chuan-Kui Wang, Gang Chen*,Organic Electronics, 59 (2018), 113-120.

37.Fabricating Atom-Sized Gaps by Field-Aided Atom Migration in Nanoscale Junctions, Ran Liu, Jun-Jie Bi, Zhen Xie, Kaikai Yin, Dunyou Wang,Guang-Ping Zhang, Dong Xiang*, Chuan-Kui Wang*, and Zong-Liang Li*,Physical Review Applied, 9(5) (2018), 054023.

36.Effect of molecular conformations on the electronic transport in oxygen-substituted alkanethiol molecular junctions, Minglang Wang, Hao Wang,Guangping Zhang, Yongfeng Wang, Stefano Sanvito, Shimin Hou*,Journal of Chemical Physics, 148(18) (2018), 184703.

35. Polarons in organic ferromagnets, Yuanyuan Miao, Shuai Qiu,Guangping Zhang, Junfeng Ren, Chuankui Wang, Guichao Hu*, Organic Electronics, 55 (2018), 133-139.

34. Designing molecular rectifiers and spin valves using metallocene-functionalized undecanethiolates: one transition metal atom matters,Guang-Ping Zhang*, Yan-Qi Mu,Ming-Zhi Wei,Shan Wang,Hui Huang,Gui-Chao Hu,Zong-Liang Li, Chuan-Kui Wang*,Journal of Materials Chemistry C,6(8) (2018) 2105-2112.

33. Modulation of spatial spin polarization at organic spinterface by side groups,Shuai Qiu, Zhao Zhang, Yuan-yuan Miao,Guang-ping Zhang, Jun-feng Ren, Chuan-kui Wang*, Gui-chao Hu*,Applied Surface Science, 427 (2018), 416-420.

32. Towards Rectifying Performance at the Molecular Scale,Guang-Ping Zhang, Zhen Xie, Yang Song, Gui-Chao Hu*, Chuan-Kui Wang*,Topics in Current Chemistry, 375(6) (2017),85.

31. Effect of H2O Adsorption on Negative Differential Conductance Behavior of Single Molecular Junction, Zong-Liang Li*, Xiao-Hua Yi, Ran Liu, Jun-Jie Bi, Huan-Yan Fu,Guang-Ping Zhang, Yu-Zhi Song, Chuan-Kui Wang,Scientific Reports, 7 (2017), 4195.

30. Mechanisms of the odd-even effect and its reversal in rectifying performance of ferrocenyl-n-alkanethiolate molecular diodes,Shan Wang#, Ming-Zhi Wei#, Gui-Chao Hu, Chuan-Kui Wang*,Guang-Ping Zhang*,Organic Electronics, 49 (2017),76-84.

29. Is there a specific correlation between conductance and molecular aromaticity in single-molecule junctions?,Guang-Ping Zhang*, Zhen Xie, Yang Song, Ming-Zhi Wei, Gui-Chao Hu, Chuan-Kui Wang*,Organic Electronics, 48 (2017), 29-24.

28. Tuning the Direction of Rectification by Adjusting the Location of the Bipyridyl Group in Alkanethiolate Molecular Diodes,Guang-Ping Zhang*#, Shan Wang#, Ming-Zhi Wei, Gui-Chao Hu,Chuan-Kui Wang*, Journal of Physical Chemistry C,121(14) (2017),7643-7648.

27. Obvious modulation of rectifying performance by conjugation breaking of the bridging fragment in donor-bridge-acceptor molecular diodes,Wen-Xia Su, Xi Zuo, Zhen Xie,Guang-Ping Zhang*, Chuan-Kui Wang*,RSC Advances, 7 (2017), 14200-14205.

26. Hydrogenation-induced giant rectifying behaviors in silicene and germanene heterojunctions,Yang Song*, Yan Su,Guang-Ping Zhang, Chuan-Kui Wang, Gang Chen*,Computational Materials Science, 129 (2017), 37-43.

25. Modulation of organic interfacial spin polarization by interfacial angle,Zhao Zhang, Ying Li,Guang-Ping Zhang, Jun-Feng Ren, Chuan-Kui Wang, Gui-Chao Hu*,Chemical Physics Letters, 667 (2017), 15-19.

24. Strong Fermi level pinning induces high rectification ratio and negative differential resistance in hydrogen bonding bridged single cytidine pair junctions,Hao Ren*,Guangping Zhang, Na Lin, Li Deng, Yi Luo, Fang Huang*,Physical Chemistry Chemical Physics, 18(38) (2016), 26586-26594.

23. Rectifying enhancement induced by conjugation breaking in thiolated arylethynylene single-molecular diodes,Xi Zuo, Lei Chu,Guang-Ping Zhang*, Chuan-Kui Wang*,Chemical Physics Letters, 663 (2016), 74-78.

22. Inversion of spin-current rectification in magnetic co-oligomer diodes,G.C. Hu*, Z. Zhang,G.P. Zhang, J.F. Ren, C.K. Wang,Organic Electronics, 37 (2016), 485-490.

21. Giant rectification in graphene nanoflake molecular devices with asymmetric graphene nanoribbon electrodes,Xiao-Li Ji, Zhen Xie, Xi Zuo,Guang-Ping Zhang*, Zong-Liang Li, Chuan-Kui Wang*,Physics Letters A, 380(39) (2016), 3198-3205.

20. Detecting CO, NO and NO2 gases by Boron-doped graphene nanoribbon molecular devices,Zhen Xie, Xi Zuo,Guang-Ping Zhang*, Zong-Liang Li, Chuan-Kui Wang*,Chemical Physics Letters, 657 (2016), 18-25.

19. Spin Polarization at Organic-Ferromagnetic Interface: Effect of Contact Configuration,Ying Li,Guang-ping Zhang, Zhen Xie, Zhao Zhang, Jun-feng Ren, Chuan-kui Wang, Gui-chao Hu*,Chinese Journal of Chemical Physics, 29(3) (2016), 344-348.

18. Quasi-Analytical Approach for Modeling of Surface-Enhanced Raman Scattering,Wei Hu, Sai Duan,Guangping Zhang, Yong Ma, Guangjun Tian, and Yi Luo*, Journal of Physical Chemistry C,119 (2015), 28992-28998.

17. The effect of Duschinsky rotation on charge transport properties of molecular junctions in the sequential tunneling regime,Guangjun Tian, Sai Duan,Guang-Ping Zhang, Wei Hu and Yi Luo*,Physical Chemistry Chemical Physics,17(35) (2015), 23007-23016.

16. Molecular Design to Enhance the Thermal Stability of a Photo Switchable Molecular Junction Based on Dimethyldihydropyrene and Cyclophanediene Isomerization,Wei Hu,Guang-Ping Zhang, Sai Duan, Qiang Fu, and Yi Luo*,Journal of Physical Chemistry C,119 (2015), 11468-11474.

15. Proportion effect in diblock co-oligomer molecular diodes,Gui-Chao Hu*,Guang-Ping Zhang, Ying Li,Jun-Feng Ren, Chuan-Kui Wang,Chemical Physics Letters, 614 (2014), 207-213.

14. Rectifying Properties of Oligo (Phenylene Ethynylene) Heterometallic Molecular Junctions: Molecular Length and Side Group Effects,Xiao-Xiao Fu, Rui-Qin Zhang*,Guang-Ping Zhang, Zong-Liang Li,Scientific Reports, 4 (2014), 6357.

13. Electronic transport properties of oligophenyleneethynylene molecular junctions in alkaline and acid solutions, Lin Xiao-Na,Zhang Guang-Ping, Ren Jun-Feng*, Yuan Xiao-Bo, Hu Gui-Chao,Acta Physica Sinica, 63 (2014), 068502.

12. Molecular-length induced inversion of rectification in diblock pyrimidinyl-phenyl molecular junctions,Guang-Ping Zhang, Zhen Xie, Yang Song, Gui-Chao Hu*, Chuan-Kui Wang*,Chemical Physics Letters, 591 (2014), 296-300.

11. Obvious variation of rectification behaviors induced by isomeric anchoring groups for dipyrimidinyl-diphenyl molecular junctions, Yang Song, De-Liang Bao, Zhen Xie,Guang-Ping Zhang, Chuan-Kui Wang*, Physics Letters A, 377(44) (2013), 3228-3234.

10. Protonation and deprotonation effects on charge transports of butane-based molecular junctions,Yang Song, Dong-Qing Zou, Zhen Xie,Guang-Ping Zhang, Zong-Liang Li, Chuan-Kui Wang,Chemical Physics Letters, 588 (2013),155-159.

9. Bias Dependence of Rectifying Direction in a Diblock Co-oligomer Molecule with Graphene Nanoribbon Electrodes,Yang Song, Zhen Xie,Guang-Ping Zhang, Yong Ma, Chuan-Kui Wang*,Journal of Physical Chemistry C, 117(40) (2013), 20951-20957.

8. Stretch or contraction induced inversion of rectification in diblock molecular junctions,Guang-Ping Zhang, Gui-Chao Hu*, Yang Song, Zhen Xie, Chuan-Kui Wang*,Journal of Chemical Physics, 139(9) (2013), 094702.

7. Effect of Gate Electric Field on Single Organic Molecular Devices, Zong-Liang Li*, Xiao-Xiao Fu,Guang-Ping Zhang, Chuan-Kui Wang,Chinese Journal of Chemical Physics, 26(2) (2013), 185-190.

6. Modulation of Rectification in Diblock Co-oligomer Diodes by Adjusting Anchoring Groups for Both Symmetric and Asymmetric Electrodes,Guang-Ping Zhang, Gui-Chao Hu*, Yang Song, Zong-Liang Li, Chuan-Kui Wang*,Journal of Physical Chemistry C,116(41) (2012),22009-22014.

5. Theoretical Studies on Protonation-Induced Inversion of the Rectifying Direction in Dipyrimidinyl-Diphenyl Diblock Molecular Junctions,Guang-Ping Zhang, Gui-Chao Hu, Zong-Liang Li,Chuan-Kui Wang*, Journal of Physical Chemistry C, 116(5) (2012),3773-3778.

4. The effects of contact configurations on the rectification of dipyrimidinyl-diphenyl diblock molecular junctions,Guang-Ping Zhang, Gui-Chao Hu, Zong-Liang Li, Chuan-Kui Wang,Chinese Physics B, 20(12) (2011), 127304.

3. Length-dependent inversion of rectification in diblock co-oligomer diodes, G. C. Hu*,G. P. Zhang, J. F. Ren, C. K. Wang, S. J. Xie, Applied Physics Letters, 99(8) (2011), 082105.

2. First-principles study on formation and electron-transport properties of single oligothiophene molecular junctions, Zong-Liang Li,Guang-Ping Zhang, Chuan-Kui Wang, Journal of Physical Chemistry C, 115(31) (2011), 15586-15591.

1. Hydration effect on the electronic transport properties of oligomeric phenylene ethynylene molecular junctions, Zong-Liang Li, Huai-Zhi Li, Yong Ma,Guang-Ping Zhang, Chuan-Kui Wang,Chinese Physics B, 19(6) (2010), 067305.

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