赵训华

发布者:王琳发布时间:2023-09-13浏览次数:1472

 

 

赵训华,教授、博士生导师

办公室地址:皇冠hg8868登录入口九龙湖校区田家炳楼北楼309

邮箱:xhzhao@seu.edu.cn

Google scholar: https://scholar.google.com/citations?user=kZDmifMAAAAJ&hl=en

 

研究领域: 

材料的多尺度模拟,第一性原理分子动力学、电化学表界面模拟,机器学习在表界面研究中的应用,离子电池模拟等。

 

工作经历:

2023.06 至今 皇冠hg8868登录入口(教授)

2022.06-2023.05 澳门科技大学工作(助理教授)

2018.08-2022.05 德州大学奥斯汀分校工作(博士后)

2016.05-2018.07 普林斯顿大学工作(博士后)

2016.01-2016.04 马普学会弗里茨-哈伯研究所 工作(短期博士后)

2007.08-2008.07 扬子石化-巴斯夫有限责任公司 (见习生)

 

教育经历:

2011.11-2016.01 马普学会弗里茨-哈伯研究所、柏林工业大学博士

2008.09-2011.06 中国科学院大学物理化学专业硕士

2003.09-2007.06 浙江大学化学工程与工艺专业本科

 

主持的科研项目:

国家高层次人才项目(2022年度)

电化学方法可逆捕捉和释放CO2(澳门科大项目,已转交他人)

 

研究简介:

赵训华教授主要从事固体表界面模拟方面的研究,特别注重开发和使用新方法加深对真实条件(如电压、溶液、离子等)下表界面的动态以及化学现象的认识,并推进相关的应用。赵训华在J. Am.  Chem.  Soc.(4), Angew. Chem. Int., Nat. Energy, Nat. Commun., Chem. Rev., J. Catal., J. Phys. Chem. Lett., Small等杂志已发表论文30余篇,当前H因子22Google Scholar数据,20241月)。

 

欢迎对材料模拟,特别是表界面模拟有兴趣的硕士、博士和博士后加入,背景没有严格限制,物理、化学、材料等皆可。

 

部分学术成果:

1. Zhai Y., Jin C., Xia Q., Han W., Wu J., Zhao X.*, Zhang X.*, “Atomically Confined Ru Sites in Octahedral Co3O4 for High‐Efficiency Hydrazine Oxidation”, Adv. Fun. Mater., 2311063, 2023. (*通讯作者)

2. §Bai X., §Zhao X., Zhang Y., Ling C., Zhou Y., Wang J., Liu Y., ”Dynamic Stability of Copper Single-Atom Catalysts under Working Conditions”, J. Am. Chem. Soc., 144, 37, 17140-17148, 2022. (§同等贡献).

3. §Li X., §Zhao X., Hatton T. A., Liu Y., Liu Y., ” Redox-Tunable Lewis Bases for Electrochemical Carbon Dioxide Capture”, Nat. Energy, 71065-1075, 2022. (§同等贡献).

4. Zhao X., Levell Z. H., Yu S., Liu Y. ”Atomistic Understanding of Two-dimensional Electrocatalysts from First Principles”, Chem. Rev., 122, 12, 10675, 2022. (Invited Review)

5. §Zhang X., §Zhao X., Zhu P., Wu Z.-Y., Liu Y., Wang H., ”Cations regulated electrochemical production of H2O2 from oxygen in acid at high current density”, Nat. Commun., 12, 4225, 2021. (§同等贡献).

6. Wang, N., Zhao, X., Zhang, R., Yu, S., Levell, Z.H., Wang, C., Ma, S., Zou, P., Han, L., Qin, J. and Ma, L., 2022. Highly Selective Oxygen Reduction to Hydrogen Peroxide on a Carbon-Supported Single-Atom Pd Electrocatalyst. ACS Catal., 12, 7, 4156, 2022.

7. Zhao X. and Liu Y. Origin of Selective Production of Hydrogen Peroxide by Electrochemical Oxygen Reduction, J. Am. Chem. Soc., 143(25), 9423, 2021.

8. §Xia Y., §Zhao X., Xia C., Wu Z., Zhu P., Kim J., Bai X., Gao G., Hu Y., Zhong J., *Liu Y., Wang H. “Highly Active and Selective Oxygen Reduction to H2O2 on Boron-Doped Carbon for High Production Rates”, Nat. Commun., 12, 4225, 2021. (§同等贡献)

9. Zhao X. and Liu Y. Unveiling the Active Structure of Single Nickel Atom Catalysis: Critical Roles of Charge Capacity and Hydrogen Bonding, J. Am. Chem. Soc., 142 (12), 5773, 2020.(此工作曾被Chemistry World采访报道,并被Google News转载)

10. §Shi J., §Zhao X. and Liu Y. Eliminating Trap-States and Functionalizing Vacancies in Two-Dimensional Semiconductors by Electrochemistry, Small, 15, 1901899, 2019. (§同等贡献)

11. Zhao X. and Selloni A. Structure and stability of NaTaO3(001) and KTaO3(001) surfaces Phys. Rev. Materials, 3, 015801, 2019.

12. Zhao X., Selu˛k S., and Selloni A. Formation and stability of reduced TiOx layers on anatase TiO2(101): identication of a novel Ti2O3 phase. Phys. Rev. Materials 2, 015801, 2018.

13. Selc˛uk S., Zhao X., Selloni A. Structural evolution of titanium dioxide during reduction in high-pressure hydrogen atmosphere. Nat. Mater., 17 (10), 2018.

14. Zhao X., Shao X., Fujimori Y., Bhattacharya S., Ghiringhelli L. M., Freund H.-J., Sterrer M., Niklas N. and Levchenko S. V. Formation of water chains on CaO (001): What drives the 1D growth? J. Phys. Chem. Lett., 6 (7), 1204, 2015.

15 §Kirsch H., §Zhao X., Ren Z., Levchenko S. V., Wolf M., and Campen R. K. Controlling CH2 dissociation on Ru(0001) through surface site blocking by adsorbed hydrogen. J. Catal., 320, 89, 2014. (§同等贡献)