肖亮

发布时间:2019.01.17 11:41

    姓名:肖亮   

  性别:男   

  出生年月:19794月 

  学位:博士   

  职称:教授  硕/博士生导师

  联系电话:13006117969

  Emailxiaoliang@whut.edu.cn


教育经历:

19969-20006月,武汉大学化学与分子科学学院,国家人才培养基地班,本科学习,获理学学士学位。 

  20009-20066月,武汉大学化学与分子科学学院,物理化学专业博士研究生,获理学博士学位。 

  工作经历:

  20067-20089月,永利集团88304官网理学院化学系,讲师。 

  200810-20169月,永利集团88304官网化学系(理学院化学系),副教授。 

  20138-20148月,美国西北太平洋国家实验室,访问学者。 

  201610-至今,永利集团88304官网化学系,教授 

  研究领域:

  化学电源、材料电化学。

教学概况:

  承担《无机化学》、《普通化学》及其实验课程的教学,《无机化学》国家精品资源共享课程主讲教师。 

  主持湖北省教研项目:翻转课堂模式在《无机学学》教学中的应用实践。 

科研概况: 

主要从事化学电源的关键材料和相关技术研究,包括无机固态电解质、聚合物电解质、全固态锂离子电池、锂离子电池正负极材料和电解液、可充金属锂电极、锂空气电池等。

   具备化学、材料科学与工程两个博士点学术型博士生的招生资格,具备材料与化工专业型博士生的招生资格,欢迎报考,请邮件联系xiaoliang@whut.edu.cn


主持科研项目:

1.固态锂空气电池电极/电解质/空气三相界面的立体化构筑和反应动力学研究(No. 22075219,国家自然科学基金面上项目,2021.01~2024.1275.6万元,项目负责人。

2.高承压高电导率电解质技术,企业委托,20218~20238月,65万元,项目负责人。

3.锂空气电池碳基正极的三维复刻构筑和构效关系研究(No. 21673169),国家自然科学基金面上项目,2017.01~2020.1278万元,项目负责人。

4.纳晶球形锂离子电池正极材料中锂离子扩散行为的单颗粒电化学研究(No.20803056),国家自然科学基金青年基金项目,2009.012011.12,项目负责人。


代表性论文:

(1)Xiao Liang, Yi Jingyu, Kou Zongkui, Li Erwei, Deng Bohua, Wang John, Liu Jinping*, Combinational Design of Electronic Structure and Nanoarray Architecture Achieves a Low-Overpotential Oxygen Electrode for Aprotic Lithium–Oxygen Batteries, Small Methods,2019, 1900619.

(2) Xueli Guo, Liang Xiao*, Pengfei Yan, Ming Li, Mingjun Zhu, Jinping Liu*, Synergistic tuning of electrochemical surface area and surface Co3+by oxygen plasma enhances the capacities of Co3O4lithium–oxygen battery cathodes, Chinese Chemical Letters, 2021, DOI: 10.1016/j.cclet.2021.03.066

(3) Liang Xiao, Zhong Qin, Jingyu Yi, Haoyang Dong, Jinping Liunovel bifunctional oxygen electrode architecture enabled by heterostructures self-scaffolding for lithium–oxygen batteriesJournal of Energy Chemistry 2020, 51: 216–221.

(4)L. Xiao, D. Wang, M. Li, B. Deng; J. Liu*; Hybrid architecture design enhances the areal capacity and cycling life of low-overpotential nanoarray oxygen electrode for lithium–oxygen batteries, Journal of Energy Chemistry, 2020, 46: 248-255.

(5)Xiao, Liang, Yi, Jingyu, Meng, Wen, Wang, Shiyao, Deng, Bohua; Liu, Jinping*; Ball-flower-like carbon microspheres via a three-dimensional replication strategy as a high-capacity cathode in lithium–oxygen batteries, Science China Materials, 2019, 62(5): 633-644.

(6) M. Li, L. Xiao*, D. Wang, H. Dong, B. Deng; J. Liu*; Surface carboxyl groups enhance the capacities of carbonaceous oxygen electrodes for aprotic lithiumoxygen batteries: A direct observation on binder-free electrodes, Chinese Chemical Letters, 2019, 30(12): 2328-2332.

(7)Xiao Liang*; Li Erwei; Yi Jingyu; Meng Wen; Wang Shiyao; Deng Bohua; Liu Jinping*; Enhancing the performance of nanostructured ZnO as an anode material for lithium-ion batteries by polydopamine-derived carbon coating and confined crystallization, Journal of Alloys and Compounds, 2018, 764: 545-554.

(8)Xiao Liang; Li Er-Wei; Yi Jing-Yu; Meng Wen; Deng Bo-Hua; Liu Jin-Ping*; Enhanced performance of solid-state Li-O2battery using a novel integrated architecture of gel polymer electrolyte and nanoarray cathode, Rare Metals, 2018, 37(6): 527-535.

(9)Xiao, Liang; Meng, Wen; Wang, Shiyao; Liu, Dan; Qu, Deyu; Xie, Zhizhong; Deng, Bohua; Liu, Jinping*; The effects of structural properties on the lithium storage behavior of mesoporous TiO­2,NANOTECHNOLOGY, 2017, 28(26): 0-265401.

(10)Liang Xiao, Shiyao Wang, Yafei Wang, Wen Meng, Bohua Deng, Deyu Qu, Zhi-Zhong Xie, and Jinping Liu*, High-Capacity and Self-Stabilized Manganese Carbonate Microspheres as Anode Material for Lithium-Ion Batteries, ACS Applied Materials & Interfaces2016, 8, 2536925378.

(11) WANG Shiyao, XIAO Liang*, GUO Yonglin, DENG Bohua, QU Deyu, XIE Zhizhong, Controllable Preparation and Superior Rate Performance of Spinel LiMn2O4Hollow Microspheres as Cathode Material for Lithium-ion Batteries,JOURNAL OF WUHAN UNIVERSITY OF TECHNOLOGY-MATERIALS SCIENCE EDITION2016, 3, 503-508.

(12)Xiao, L.; Xiao, J.*; Yu, X.; Yan, P.; Zheng, J.; Engelhard, M.; Bhattacharya, P.; Wang, C.; Yang, X.-Q.; Zhang, J.-G.*, Effects of structural defects on the electrochemical activation of Li2MnO3.Nano Energy2015, 16, 143-151.

(13)Xiao, L.; Chen, X.; Cao, R.; Qian, J.; Xiang, H.; Zheng, J.; Zhang, J.-G.*; Xu, W.*, Enhanced performance of Li vertical bar LiFePO4cells using CsPF6as an electrolyte additive. Journal of Power Sources2015, 293, 1062-1067.

(14)Xiao, L.*; Mei, D.; Cao, M.; Qu, D.; Deng, B., Effects of structural patterns and degree of crystallinity on the performance of nanostructured ZnO as anode material for lithium-ion batteries. Journal of Alloys and Compounds2015, 627, 455-462.

(15) Pengfei Yan, Liang Xiao, Jianming Zheng, Yungang Zhou, Yang He, Xiaotao Zu, Scott X. Mao, Jie Xiao, Fei Gao, Ji-Guang Zhang*, Chong-Min Wang*, Probing the Degradation Mechanism of Li2MnO3Cathode for Li-Ion Batteries, Chem. Mater., 2015, 27 (3): 975–982.

(16)Xiao, L.*; Guo, Y.; Qu, D.; Deng, B.; Liu, H.; Tang, D., Influence of particle sizes and morphologies on the electrochemical performances of spinel LiMn2O4cathode materials. Journal of Power Sources2013, 225, 286-292.

(17)Xiao, L.*; Cao, M.; Mei, D.; Guo, Y.; Yao, L.; Qu, D.; Deng, B., Preparation and electrochemical lithium storage features of TiO2hollow spheres. Journal of Power Sources2013, 238, 197-202.

(18)Xiao, L.; Liu, X.; Zhao, X.; Liang, H.; Liu, H.*, Preparation of LiNi0.5Mn0.5O2cathode materials by urea hydrolysis coprecipitation. Solid State Ionics2011, 192 (1), 335-338.



附件下载: