唐青,1987年10月生,太阳成集团“百人计划”特聘研究员,博士生导师。2005年至2009年在深圳大学化学专业学习,并获得理学学士学位;2009年至2014年在南开大学化学学院无机化学专业硕博连读,并获得理学博士学位。之后分别在美国加州大学河滨分校(2014年7月至2017年7月)和加拿大渥太华大学(2017年9月至2018年2月)进行博士后研究,2018年5月加入tyc1286太阳集团。以第一作者/(共同)通讯作者在JACS,Angew, ACS Catalysis, ACS Nano, Chemical Science, Progress in Materials Science, Chemistry of Materials等杂志发表论文70余篇。入选化学工程与技术领域中国高被引学者,自2023年起担任Wiley旗下国际期刊ChemPhysChem国际顾问编委。 |
联系方式
E-mail: qingtang@cqu.edu.cn Tel: 17815387127
研究方向
本课题组致力于低维纳米材料的理论计算研究,包括预测新型二维材料的物理化学特性及在催化和能源储存领域的应用,金属团簇的结构和生长机理,光吸收特性及在均相催化和电催化反应的作用机制。热烈欢迎对计算材料学和计算化学有浓厚兴趣的本科生、硕士生和博士生及其它优秀学者加入本研究小组。
课题组网页链接:
https://m.x-mol.com/groups/qingtang
代表性论文、专著和专利
1. Fang Sun, Lubing Qin, Zhenghua Tang*, Guocheng Deng, Megalamane S Bootharaju, Zidong Wei*, Qing Tang*, Taeghwan Hyeon. -SR Removal or –R Removal? A Mechanistic Revisit on the Puzzle of Ligand Etching of Au25(SR)18 Nanoclusters during Electrocatalysis. Chemical Science, 2023, DOI: 10.1039/D3SC03018K.
2. Lubing Qin, Fang Sun, Zhiheng Gong, Guanyu Ma, Yan Chen, Qing Tang*, Liang Qiao, Renheng Wang*, Zhao-Qing Liu, Zhenghua Tang*. Electrochemical NO3– Reduction Catalyzed by Atomically Precise Ag30Pd4 Bimetallic Nanocluster: Synergistic Catalysis or Tandem Catalysis? ACS Nano, 2023, 17, 13, 12747–12758.
3. Guocheng Deng, Jimin Kim, Megalamane S Bootharaju*, Fang Sun, Kangjae Lee, Qing Tang*, Yun Jeong Hwang*, Taeghwan Hyeon*. Body-Centered-Cubic-Kernelled Ag15Cu6 Nanocluster with Alkynyl Protection: Synthesis, Total Structure, and CO2 Electroreduction. Journal of American Chemical Society, 2023, 145, 6, 3401–3407.
4. Fang Sun, Qing Tang*, De-en Jiang*. Theoretical Advances in Understanding and Designing the Active Sites for Hydrogen Evolution Reaction. ACS Catalysis, 2022, 12, 14, 8404.
5. Xiaoshuang Ma, Fang Sun, Lubing Qin, Yonggang Liu, Xiongwu Kang, Likai Wang, De-en Jiang, Qing Tang*, Zhenghua Tang*. Electrochemical CO2 reduction catalyzed by atomically precise alkynyl-protected Au7Ag8, Ag9Cu6, and Au2Ag8Cu5 nanoclusters: probing the effect of multi-metal core on selectivity. Chemical Science, 2022, 13, 10149-10158.
6. Fang Sun, Chaofang Deng, Shufang Tian, Qing Tang*. Oxygen Electrocatalysis by [Au25(SR)18]: Charge, Doping, and Ligand Removal Effect. ACS Catalysis, 2021, 11, 13, 7957.
7. Lubing Qin, Fang Sun, Xiaoshuang Ma, Guanyu Ma, Yun Tang, Likai Wang, Qing Tang*, Rongchao Jin*, Zhenghua Tang*. Homoleptic Alkynyl-Protected Ag15 Nanocluster with Atomic Precision: Structural Analysis and Electrocatalytic Performance toward CO2 Reduction. Angewandte Chemie International Edition, 2021, 60, 26136–2614.
8. Jinyu Gan, Fuhua Li, Qing Tang*. Vacancies-Engineered M2CO2 MXene as an Efficient Hydrogen Evolution Reaction Electrocatalyst. Journal of Physical Chemistry Letters, 2021, 12, 20, 4805–4813.
9. Qing Tang, Guoxiang Hu, Victor Fung, De-en Jiang*. Insights into Interfaces, Stability, Electronic Properties, and Catalytic Activities of Atomically Precise Metal Nanoclusters from First Principles. Accounts of Chemical Research, 2018, 51 (11), 2793-2802.
10. Qing Tang, Yongjin Lee, Dai-Ying Li, Woojun Choi, CW Liu*, Dongil Lee*, De-en Jiang*. Lattice-Hydride Mechanism in Electrocatalytic CO2 Reduction by Structurally Precise Copper-Hydride Nanoclusters. Journal of the American Chemical Society, 2017, 139 (28), 9728-9736.
11. Qing Tang, De-en Jiang*. Mechanism of Hydrogen Evolution Reaction on 1T-MoS2 from First Principles. ACS Catalysis, 2016, 6 (8), 4953-4961.
12. Qing Tang, Zhen Zhou*, Panwen Shen. Are MXenes Promising Anode Materials for Li Ion Batteries? Computational Studies on Electronic Properties and Li Storage Capability of Ti3C2 and Ti3C2X2 (X = F, OH) Monolayer. Journal of the American Chemical Society, 2012, 134 (40), 16909-16916.
团队仪器设备