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[1] Yanhong Zhou£¬Xiaohong Zheng*, Generating pure spin current with spin-dependent Seebeck effect in ferromagnetic zigzag graphene nanoribbons, J. Phys.: Condens. Matter 2019, 31, 315301-11
[2] Yanhong Zhou, Xiaohong Zheng*, Zi-Qiang Cheng, Ke-Qiu Chen*£¬ Current Superposition Law Realized in Molecule Devices Connected in Parallel£¬ J. Phys. Chem. C 2019, 123, 10462−10468
[3] Yan-Hong Zhou, Xiang Zhang, Cheng Ji, Zhi-Min Liu, Ke-Qiu Chen*, The length and hydrogenation effects on electronic transport properties of carbon-based molecular wires. Organic Electronics, 51, 332-340, 2017(SCI)
[4] Yan-Hong Zhou, Chang-Yong Chen, Bo-Lin Li, Ke-Qiu Chen*£¬Characteristics of classical Kirchhoff's superposition law in carbon atomic wires connected in parallel. Carbon, 95, 503-510 2015 (SCI)
[5] Yan-Hong Zhou, Jing Zeng, Ke-Qiu Chen*£¬Spin filtering effect and magneto-resistance in zigzag 6, 6, 12-graphyne nanoribbon system. Carbon, 76, 175¨C182£¬2014£¨SCI£©
[6] Yan-Hong Zhou, Shi-hua Tan, Ke-Qiu Chen*, Enhance the stability of ¦Á-graphyne nanoribbons by dihydrogenation. Organic Electronics, 15(11), 3392¨C3398 2014 (SCI)
[7] Yan-Hong Zhou, Jing Zeng, Li-Ming Tang, Ke-Qiu Chen*, W.P. Hu, Giant magnetoresistance effect and spin filters in phthalocyanine-based molecular devices. Organic Electronics, 14, 11, :2940¨C2947, 2013(SCI)
[8] Yan-hong Zhou, L. Z. Yuan, and Xiao-hong Zheng*, Ab Initio Study of the Transport Properties of A Light-Driven Switching Molecule Azobenzene Substituent. Computational Materials Science£¬61: 145-149£¬2012£¨SCI£©
[9] Yan-hong Zhou*, Chong Xing, You-lin Peng, Transport properties of carbon atomic wire in the environment of H2O molecules: An ab initio study. Physica B, 406£º1189-1193, 2011(SCI)
[10] Yan-hong Zhou*, Xiao-hong Zheng, Ying Xu, and Zhao-yang Zeng, First-principles Study on the Differences of the Equilibrium Conductance between Carbon and Silicon atomic wires. Journal of Physics: Condensed Matter, 20£º045225-6, 2008(SCI)
[11] Yan-hong Zhou, Xiao-hong Zheng, Ying Xu*,and Zhao-yang Zeng£¬Current rectification by asymmetric molecules: An ab initio study. Journal of Chemical Physics, 125, 244701 (2006) SCI
[12] Yan-hong Zhou, Xiao-hong Zheng, Ying Xu,and Zhao-yang Zeng£¬Zhi Zeng£¬Effects of Relative Orientation of Molecules on Electron Transport in Molecular Devices. Chin. Phys. Lett. 23,2609 (2006)£¬ SCI
[13] Chang-Ming Tan, Yan-Hong Zhou, Chang-Yong Chen, Ji-Feng Yu, Ke-Qiu Chen*£¬Spin filtering and rectifying effects in the zinc methyl phenalenyl molecule between graphene nanoribbon leads. Organic Electronics£¬28£¬244-251 (2016)
[14] Jun Peng, Yan-Hong Zhou, Ke-Qiu Chen*, Influence of boundary types on rectifying behaviors in hexagonal boron- nitride/graphene nanoribbon heterojunctions. Organic Electronics, 27 (2015) 137¨C142 SCI
[15] Bo Jiang, Yan-Hong Zhou, Chang-Yong Chen, Ke-QiuChen*, Designing multi-functional devices based on two benzene rings molecule modulated with Co and N atoms. Organic Electronics£¬23£¬133¨C137(2015) SCI
[16] Chen-Chen Zhao, Shi-Hua Tan, Yan-Hong Zhou, Rong-Ji Wang, Xin-Jun Wang *, Ke-Qiu Chen*, Half-metallicity and high spin-filtering effect of magnetic atoms embedded zigzag 6, 6, 12-graphyne nanoribbon. Carbon, 113 (2017) 170-75 SCI
[17] Yu-Cheng Ling£¬Feng Ning£¬Yan-hong Zhou£¬Ke-Qiu Chen*£¬Rectifying behavior and negative differential resistance in triangular graphene p¨Cn junctions induced by vertex B¨CN mixture doping. Organic Electronics£¬19, 92-97 (2015) SCI
[18] Lili Kang, Peng Jiang, Hua Hao, Yanhong Zhou, *Xiaohong Zheng, *Lei Zhang, and Zhi Zeng, Giant tunneling electroresistance in two-dimensional ferroelectrictunnel junctions with out-of-plane ferroelectric polarization, Phys. Rev. B£¬(2020), 101, 014105
[19] Jing Zeng £¨Ôø¾§£©(#)(*); Yanhong Zhou£¨ÖÜÑ޺죩; Semiconductor-to-metallic spin-filtering and positive and negative magnetoresistance effects in C3N with nickel electrodes, Physica E: Low-dimensional Systems and Nanostructures, 2019 , 118(1)£º113861-7.
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