一、周艳红个人简介

博士，副教授，硕士生导师

二、所属学科及主要研究方向

所属学科：凝聚态物理

主要研究方向：

1. 低微体系的几何结构与电子结构计算

2. 纳米材料的光电特性

3. 多功能电子器件

4. 纳米器件中的集成问题

三、主要学习、工作经历

学习经历

[1] 2012.09 – 2016.06, 湖南大学, 物理学, 博士

[2] 2004.09 – 2007.07, 江西师范大学, 理论物理, 硕士

[3] 2000.09 至 2004.06, 江西师范大学, 物理学, 学士

工作经历

[1] 2007.07-2016.06  赣南医学院

[2] 2016.07-至今      华东交通大学

四、主要科研项目

[1] 国家自然科学基金委员会，地区项目，12264014 , 二维反铁磁体系中的光致纯自旋流研究，2023/01-2026/12在研，主持

[2] 国家自然科学基金委员会，青年项目，11804093，并行分子器件中的基尔霍夫叠加定律及量子相干性研究，2019/01-2021/12，已结题，主持

[3] 国家自然科学基金委员会，地区项目，61764005，石墨炔多功能器件第一性原理设计及电荷传输机理，2018/01-2021/12，已结题，主持

五、近期著作与论文

[1] Yuejun Li, Xiaofei Shang, Yan-Hong Zhou*(通讯作者）and Xiaohong Zheng，Realizing pure spin current by the photogalvanic effect in armchair graphene nanoribbons with nano-constriction engineering, Phys. Chem. Chem. Phys., 2023, 25, 2890 (SCI 一区)

[2]  Yanhong Zhou(*);Yuejun Li;Xiaohong Zheng; Keqiu Chen(*)，The effects of     covalent coupling strength on the electron transport properties and rectification in graphene/porphine/graphene molecular junctions，Physica E: Low-dimensional Systems and Nanostructures, 2021, 134(06): 114867.(SCI 二区)

[3] Yan-Hong Zhou, Shaohui Yu, Yuejun Li, Xin Luo, Xiaohong Zheng, Lei Zhang, Pure spin current generation with photogalvanic effect in graphene interconnect junctions，2021，Nanophotonics, 2021, 10(06): 0-0646 (SCI 一区)

[4] Yanhong Zhou，Shaohui Yu, Xiaohong Zheng*, Edge passivation control of graphene nanoribbons for robust pure spin current generation with  photogalvanic effect, Carbon 170 (2020) 361–367. (SCI 一区)

[5] 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

[6] 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(16), 10462−10468

[7] 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一区)

[8] 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 一区)

[9] Yan-Hong Zhou, Jing Zeng, Ke-Qiu Chen*，Spin filtering effect and magneto-resistance in zigzag 6, 6, 12-graphyne nanoribbon system. Carbon, 76, 175–182，2014(SCI 一区)

[10] Yan-Hong Zhou, Shi-hua Tan, Ke-Qiu Chen*, Enhance the stability of α-graphyne nanoribbons by dihydrogenation. Organic Electronics, 15(11), 3392–3398 2014 (SCI 一区) 

[11] 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, :2940–2947, 2013(SCI)

[12] 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）

[13] 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, 406：1189-1193, 2011(SCI)

[14] 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, 20：045225-6, 2008(SCI)

[15] 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

[16] 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

[17] 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)

[18] 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) 137–142 （SCI一区）

[19] 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，23，133–137(2015) SCI

[20] 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

[21] Yu-Cheng Ling，Feng Ning，Yan-hong Zhou，Ke-Qiu Chen*，Rectifying behavior and negative differential resistance in triangular graphene p–n junctions induced by vertex B–N mixture doping. Organic Electronics，19, 92-97 (2015) SCI

[22] Jing Zeng*; Yanhong Zhou; 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)：113861-7. 

[23] L. Kang, P. Jiang, H. Hao, Yanhong. Zhou, X. Zheng, L. Zhang, Z. Zeng, Giant tunnel electroresistance in ferroelectric tunnel junctions with metal contacts to two-dimensional ferroelectric materials, PHYSICAL REVIEW B 103 , 125414 ( 2021 ). 

[24] 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

[25]  Wei Xiao, Lili Kang, Hua Hao, Yanhong Zhou, *Lei Zhang, *Xiaohong Zheng, and Zhi Zeng, Giant tunneling electroresistance arising from reversible partial metallization of barrier in NaTiO₃/BaTiO₃/LaTiO₃ ferroelectric tunnel junction, Phys. Chem. Chem. Phys. 23, 16349-16356 (2021)

[26]  Wei Xiao, Lili Kang, Hua Hao, Yanhong Zhou, *Xiaohong Zheng, *Lei Zhang and Zhi Zeng, Giant tunneling electroresistance induced by interfacial doping in Pt/BaTiO₃/Pt ferroelectric tunnel junctions, Phys. Rev. Applied 17, 044001 (2022)

六、科技奖励与专利

[1] 周艳红，郑小宏，曾晶，纳米与分子器件的量子输运调控方法及机理研究，2019年江西省自然科学奖，三等奖（Z-18-3-18-R01）

八、社会兼职与活动

现为《Organic Electronics》、《Carbon》、《Journal of Applied Physics》、《Physical B》等国外权威刊物审稿人，江西省科技厅科技专家库成员，国家自然科学基金，江西省自然科学基金，湖南省自然科学基金项目评审专家。

九、教学工作

[1] 教授课程：《大学物理》，《电动力学》，《大学物理实验》《数学物理方法》

[2] 指导学生2019年获得江西省大学物理竞赛二等奖和2021年全国大学生物理实验大赛二等奖。

[3] 指导学生获批和完成国家创新创业项目2项。