师资队伍

  • 两院院士
  • 高层次人才
  • 在职教师
  • 荣休教师

肖巍

办公地点:电化学楼103

联系电话:027-68788615

电子邮箱:00030042@whu.edu.cn

团队主页: http://wxiao.whu.edu.cn/

个人简介

老五白菜网物理化学系教授,博士生导师


教育经历

1998.09-2002.06    老五白菜网化学系    大学本科

2002.09-2007.07    老五白菜网    硕士、博士研究生


工作经历

2011.07-2016.12    老五白菜网    副教授

2017.01-至今         老五白菜网    教授


研究方向

电化学冶金、电化学减碳、能源化学


代表成果


1.JT Zhang, MY Wang,* TT Wan, HT Shi, AJ Lv, W Xiao,* SQ Jiao,* Novel (Pt-Ox)-(Co-Oy) Non-Bonding Active Structures on Defective Carbon from Oxygen-Rich Coal Tar Pitch for Efficient HER and ORR. Adv. Mater. 2022, 2206960

2.MY Wang, HD Jiao, ZH Pu, B Hong, JB Ge, W Xiao,* SQ Jiao,* Ultra-high temperature molten oxide electrochemistry. Angew. Chem. Int. Ed. 2022, e202206482.

3.PY Meng, J Huang, ZH Yang, F Wang, T Lv, J Zhang, CP Fu*, W Xiao*, A Low-cost and Air-Stable Rechargeable Aluminum-Ion Battery. Adv. Mater. 2022, 34, 2106511.

4. M Jiang, CP Fu,* PY Meng, JM Ren, J Wang, JF Bu, AP Dong,* J Zhang, W Xiao,* BD Sun, Challenges and Strategies of Low-cost Aluminum Anodes for High-performance Al-based Batteries, Adv. Mater. 2022, 34, 2102026.

5.W.Weng, JX Xiao, YJ Shen, XX Liang, T Lv, W Xiao*, Molten Salt Electrochemical Modulation of Iron-Carbon-Nitrogen for Lithium-Sulfur Batteries. Angew. Chem. Int. Ed. 2021, 60, 24905.

6.ZY Fan, W Xiao*, Electrochemical splitting of methane in molten salts to produce hydrogen. Angew. Chem. Int. Ed. 2021, 60, 7664.

7.XX Liang, JX Xiao, W Weng, W Xiao*, Electrochemical Reduction of Carbon Dioxide and Iron Oxide in Molten Salts to Fe/Fe3C Modified Carbon for Electrocatalytic Oxygen Evolution. Angew. Chem. Int. Ed. 2021, 60, 2120.

8.T Lv, JX Xiao*, W Weng, W Xiao*, Electrochemical Fixation of Carbon Dioxide in Molten Salts on Liquid Zinc Cathode to Zinc@Graphitic Carbon Spheres for Enhanced Energy Storage. Adv. Energy Mater. 2020, 10, 2002241.

9.W Weng, SB Wang, W Xiao*, XW Lou*, Direct Conversion of Rice Husks to Nanostructured SiC/C for CO2 Photoreduction. Adv. Mater. 2020, 32, 2001560.

10.W Weng, BM Jiang, Z Wang, W Xiao*, In situ electrochemical conversion of CO2 in molten salts to advanced energy materials with reduced carbon emissions. Sci. Adv. 2020, 6, eaay9278.

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