无机非金属材料工程

周五星

2021-03-02

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一、基本资料

周五星1987出生博士副教授,硕士生导师2010年本科毕业于湖南大学应用物理学专业,2015年博士毕业于湖南大学物理学专业。博士毕业后加入湖南大学物理与微电子科学学院,任助理研究员。2016年至2017年在新加坡国立大学先进二维材料和石墨烯研究中心从事博士后研究。2018年加入湖南科技大学材料科学与工程学院。目前主持完成国家自然科学青年基金项目1项,主持在研国家自然基金面上项目1项,Advanced Functional Materials, Journal of Materials Chemistry A, National Science Review等国际知名期刊上发表SCI论文50余篇。

Email:wuxingzhou@hnu.edu.cn

二、教育和研究经历

2018年8月——至今 湖南科技大学材料科学与工程学院

2016年12月——2017年12月 博士后 新加坡国立大学先进二维材料和石墨烯研究中心

2015年7月——2018年7月 助理研究员 湖南大学物理与微电子科学学院

2010年9月——2015年6月 硕博连读 湖南大学物理与微电子科学学院 物理学

2006年9月——2010年6月 本科 湖南大学物理与微电子科学学院应用物理学

研究方向

1. 纳米尺度热输运

2. 纳米电子学

3. 热电材料设计

、主持国家自然科学基金项目

1. 国家自然科学基金面上项目:全固态锂电池电极材料及界面热输运微观机理与性能调控,直接费用:62万,项目起止年月:2021年1月——2014年12月。(在研)

2. 家自然科学青年基金半导体纳米尺度热信息器件计算设计及声子调控,直接费用:22万,项目起止年月:2017年1月——2019年12月。(已结题)

发表学术论文

[1] Wu-Xing Zhou, Yuan Cheng, Ke-Qiu Chen, Guofeng Xie*, Tian Wang*, Gang Zhang*, Thermal Conductivity of Amorphous Materials, Advanced Functional Materials 30 (8), 1903829(2020).

[2] Wu-Xing Zhou, D Wu, G Xie, KQ Chen, G Zhang, α-Ag2S: A Ductile Thermoelectric Material with High ZT, ACS omega 5 (11), 5796-5804 (2020).

[3] Dan Wu, Xuan-Hao Cao, Shi-Zhang Chen, Li-Ming Tang, Yexin Feng, Ke-Qiu Chen*, Wu-Xing Zhou*, Pure spin current generated in thermally driven molecular magnetic junctions: a promising mechanism for thermoelectric conversion, Journal of Materials Chemistry A 7 (32), 19037-19044 (2019).

[4] Shi-Zhang Chen, Yuan-Xiang Deng, Xuan-Hao Cao, Wu-Xing Zhou*, Ye-Xing Feng, Li-Ming Tang, Ke-Qiu Chen*, Exploring High-Performances anodes of Li-ion Batteries Based on the Rule of Pore-size Dependent Band Gaps in Porous Carbon Foams, Journal of Materials Chemistry A 7 (32), 19037-19044 (2019).

[5] Dan Wu, Xuan-Hao Cao, Pin-Zhen Jia, Yu-Jia Zeng, Li-Ming Tang, Wu-Xing Zhou*, Ke-Qiu Chen*, Excellent thermoelectric performance in weak-coupling molecular junctions with electrode doping and electrochemical gating, Sci. China Phys. Mech. Astron. 63, 276811 (2020).

[6] B Ding, X Li, Wu-Xing Zhou, G Zhang*, H Gao, Anomalous strain effect on the thermal conductivity of low-buckled two-dimensional silicone, National Science Review (2020). DOI: 10.1093/nsr/nwaa220.

[7] Yujia Zeng, Dan Wu, Xuan-Hao Cao, Wu-Xing Zhou, Li-Ming Tang, Ke-Qiu Chen*, Nanoscale organic thermoelectric materials: measurement, theoretical models, and optimization strategies, Advanced Functional Materials 30 (8), 1903873 (2020).

[8] Cheng-Wei Wu, Changqing Xiang, Hengyu Yang, Wu-Xing Zhou*, Guofeng Xie, Baoli Ou and Dan Wu*, Enhanced thermoelectric properties in two-dimensional monolayer Si2BN by adsorbing halogen atoms, Chinese Physics B(2020). DOI: 10.1088/1674-1056/abd163.

[9] Y Zhao, X Liu, A Rath, J Wu, B Li, Wu-Xing Zhou, G Xie, G Zhang, JTL Thong, Probing thermal transport across amorphous region embedded in a single crystalline silicon nanowire, Scientific Reports 10 (1), 1-8 (2020).

[10] Ady Suwardi, Jing Cao, Lei Hu, Fengxia Wei, Jing Wu, Yunshan Zhao, Su Hui Lim, Lan Yang, Xian Yi Tan, Sheau Wei Chien, Yan Yin, Wu-Xing Zhou, Wong Lai Mun Nancy, Xizu Wang, Suo Hon Lim, Xiping Ni, Dengfeng Li, Qingyu Yan, Yun Zheng, Gang Zhang, Jianwei Xu, Tailoring the phase transition temperature to achieve high-performance cubic GeTe-based thermoelectrics, Journal of Materials Chemistry A 8 (36), 18880-18890 (2020).

[11] Wu-Xing Zhou, Ke-Qiu Chen*, Enhancement of thermoelectric performance in β-graphyne nanoribbons by suppressing phononic thermal conductance, Carbon 85, 24-27 (2015).

[12] Wu-Xing Zhou, Ke-Qiu Chen*, First-Principles Determination of Ultralow Thermal Conductivity of monolayer WSe2, Scientific Reports 5:15070 (2015).

[13] Wu-Xing Zhou, Ke-Qiu Chen*, Enhancement of Thermoelectric Performance by Reducing Phonon Thermal Conductance in Multiple Core-shell Nanowires, Scientific Reports 4, 7150 (2014).

[14] Wu-Xing Zhou, Shihua Tan, Ke-Qiu Chen*, Wen-Ping Hu, Enhanced thermoelectric performance of InAs nanotubes by controlling internal diameter method, J. Appl. Phys. 115, 124308 (2014) .

[15] Wu-Xing Zhou, Ke-Qiu Chen*, Li-MingTang, Ling-JiangYao,Phonon thermal transport in InAs nanowires with different size and growth directions, Phys. Lett. A 377, 3144–3147 (2013).

[16] Yan Wang†, Wu-Xing Zhou†, Le Huang, Congxin Xia, Li-Ming Tang, Hui-Xiong Deng, Yongtao Li, Ke-Qiu Chen*, Jingbo Li*, Zhongming Wei*, Light induced double ‘on’state anti-ambipolar behavior and self-driven photoswitching in p-WSe2/n-SnS2 heterostructures, 2D Mater. 4, 025097 (2017) .

[17] Yuan-Xiang Deng, Shi-Zhang Chen, Yun Zeng*, Wu-Xing Zhou*, Ke-Qiu Chen*, Large spin rectifying and high-efficiency spin-filtering in superior molecular junction, Organic Electronics 50, 184-190 (2017) .

[18] Jue Wang, Fang Xie, Xuan-Hao Cao, Si-Cong An, Wu-Xing Zhou*, Li-Ming Tang*, Ke-Qiu Chen*, Excellent Thermoelectric Properties in monolayer WSe2 Nanoribbons due to Ultralow Phonon Thermal Conductivity, Scientific reports 7, 41418 (2017).

[19] Xuan-Hao Cao, Wu-Xing Zhou*, Chang-Yong Chen*, Li-Ming Tang, Mengqiu Long, Ke-Qiu Chen*, Excellent thermoelectric properties induced by different contact geometries in phenalenyl-based single-molecule devices, Scientific reports 7: 10842 (2017).

[20] Ting Tan, Shi-Zhang Chen, Xuan-Hao Cao, Wu-Xing Zhou*, Fang Xie*, Ke-Qiu Chen*, Large anisotropic thermal conductivity and excellent thermoelectric properties observed in carbon foam, Journal of Applied Physics 122 (2), 024304 (2017) .

[21] Xue Zhang, Wu-Xing Zhou*, Xue-Kun Chen, Yue-Yang Liu, Ke-Qiu Chen*, Significant decrease in thermal conductivity of multi-walled carbon nanotube induced by inter-wall van der Waals interactions, Physics Letters A, 380, 1861-1864 (2016).

[22] Yu-Jia Zeng, Yue-Yang Liu, Wu-Xing Zhou*, Ke-Qiu Chen*, Nanoscale Thermal Transport: Theoretical Method and Application, Chin. Phys. B, 27(3): 036304 (2018).