赵刘斌
副教授,硕导
赵刘斌,男,湖北省荆州人。2004-2008年就读于太原理工大学beat·365(中国) - 官方网站。2008年7月毕业,获理学学士学位。同年考取厦门大学物理化学专业研究生,师从吴德印教授,从事表面分子光谱及光电化学理论研究。2014年6月获理学播士学位。攻读博士学位期间,在中国留学基金资助下,于2011年10月至2013年9月在美国匹兹堡大学Waldeck教授课题组进行联合培养。从2014年7月起进入西南大学beat·365(中国) - 官方网站从事电催化及能源电化学相关的工作。先后主持西南大学博士基金(含引进人才计划)项目、中央高校基本科研业务费项目、重庆市自然科学基金和国家自然科学基金青年项目等。迄今为止,已在JACS Au、ACS Catalysis、Adv. Mater.、Adv. Func. Mater.、J. Phys. Chem. Lett.等国际期刊上发表40余篇学术论文。
联系方式
lbzhao@swu.edu.cn
研究方向
1、电催化反应动力学;2、电化学能源材料
代表性论文:
1.Su, D.-J; Xiang, S.-Q.; Gao, S.-T.; Jiang, Y.; Liu, X.; Zhang, W.*;Zhao, L.-B.*; Tian, Z.-Q., Kinetic Understanding of Catalytic Selectivity and Product Distribution of Electrochemical Carbon Dioxide Reduction Reaction.JACS Au.2023,3(3), 905-918.
2. Su, D. -J.; Xiang, S. Q.; Jiang, Y.; Liu, X.; Zhang, W.*;Zhao, L. B.*, Binary Alloys for Electrocatalytic CO2Conversion to Hydrocarbons and Alcohols.Appl. Surf. Sci.2023,635, 157734.
3. Wang, C.; Chen, Y.; Su, D.; Man, W.-L.; Lau, K.-C.; Han, L.*;Zhao, L.*; Zhan, D.*; Zhu, X.*, In-situ Electropolymerized Three-Dimensional Microporous Cobalt-Porphyrin Nanofilm for Highly Effective Molecular Electrocatalytic Reduction of Carbon Dioxide.Adv. Mater.2023,35(38), 2303179.
4. Huang, S.; Wang, M.; Su, D.-J.; Liang, J.; Sun, F.; Tian, W.;Zhao, L.-B.*; Liu, J.*, Co-Doped Mn3O4Nanocubes via Galvanic Replacement Reactions for Photocatalytic Reduction of CO2with High Turnover Number.ChemSusChem2022,15(14), e202200704.
5.Xiang, S.-Q.; Shi, J.-L.; Gao, S.-T.; Zhang, W.*;Zhao, L.-B.*, Thermodynamic and Kinetic Competition between C–H and O–H Bond Formation Pathways during Electrochemical Reduction of CO on Copper Electrodes.ACS Catal.2021,11(4), 2422-2434.
6.Xiang, S.-Q.; Gao, S.-T.; Shi, J.-L.; Zhang, W.*;Zhao, L.-B.*, Developing Micro-kinetic Model for Electrocatalytic Reduction of Carbon Dioxide on Copper Electrode.J. Catal.2021,393, 11-19.
7. Shi, J.-L.; Xiang, S.-Q.; Su, D.-J.; Liu, X.; Zhang, W.*;Zhao, L.-B.*, Theoretical Insights on Au-based Bimetallic Alloy Electrocatalysts for Nitrogen Reduction Reaction with High Selectivity and Activity.ChemSusChem2021,14(20), 4525-4535.
8. Shi, J.-L.; Xiang, S.-Q.; Su, D.-J.; He, R.;Zhao, L.-B.*, Revealing practical specific capacity and carbonyl utilization of multi-carbonyl compounds for organic cathode materials.Phys. Chem. Chem. Phys.2021,23(23), 13159-13169.
9. Gao, S.-T.; Xiang, S.-Q.; Shi, J.-L.; Zhang, W.*;Zhao, L.-B.*, Theoretical Understanding of the Electrochemical Reaction Barrier: A Kinetic Study of CO2Reduction Reaction on Copper Electrodes.Phys. Chem. Chem. Phys.2020,22(17), 9607-9615.
10. Shi, J.-L.; Xiang, S.-Q.; Zhang, W.*;Zhao, L.-B.*, A thermodynamic and Kinetic Study of the Catalytic Performance of Fe, Mo, Rh and Ru for the Electrochemical Nitrogen Reduction Reaction.Phys. Chem. Chem. Phys.2020,22(44), 25973-25981.
11. Hu, Z.;Zhao, L.(co-first author); Jiang, T.; Liu, J.; Rashid, A.; Sun, P.; Wang, G.; Yan, C.; Zhang, L., Trifluoropropylene Carbonate-Driven Interface Regulation Enabling Greatly Enhanced Lithium Storage Durability of Silicon-Based Anodes.Adv. Funct. Mater.2019,29(45), 1906548.
12.Zhao, L. B.*; Gao, S. T.; He, R.; Shen, W.; Li, M., Molecular Design of Phenanthrenequinone Derivatives as Organic Cathode Materials.ChemSusChem2018,11(7), 1215-1222.
13. Yang, S.-J.; Qin, X.-Y.; He, R.; Shen, W.; Li, M.;Zhao, L.-B.*, A Density Functional Theory Study on the Thermodynamic and Dynamic Properties of Anthraquinone Analogue Cathode Materials for Rechargeable Lithium Ion Batteries.Phys. Chem. Chem. Phys.2017,19(19), 12480-12489.
14. Mingyu Yang, Bo Su, Yang Wang, Kang Chen, Xingyu Jiang, Yun-Fei Zhang, Xi-Sha Zhang,Guihua Chen, Ye Cheng, Zhichao Cao, Qing-Yun Guo, Lushun Wang, Zhang-Jie Shi*. Silver-catalysed direct amination of unactivated C–H bonds of functionalized molecules, Nat. Commun.2014, 5, 4707.
15.Zhao, L.-B.*; Liu, X.-X.; Zhang, M.; Liu, Z.-F.; Wu, D.-Y.*; Tian, Z.-Q., Surface Plasmon Catalytic Aerobic Oxidation of Aromatic Amines in Metal/Molecule/Metal Junctions.J. Phys. Chem. C2016,120(2), 944-955.
16.Zhao, L.-B.*; Liu, X.-X.; Wu, D.-Y.*, Oxidative Coupling or Reductive Coupling? Effect of Surroundings on the Reaction Route of the Plasmonic Photocatalysis of Nitroaniline.J. Phys. Chem. C2016,120(3), 1570-1579.
17.Zhao, L.-B.*; Chen, J.-L.; Zhang, M.; Wu, D.-Y.*; Tian, Z.-Q., Theoretical Study on Electroreduction of p-Nitrothiophenol on Silver and Gold Electrode Surfaces.J. Phys. Chem. C2015,119(9), 4949-4958.
17.Zhao, L.-B.; Zhang, M.; Ren, B.; Tian, Z.-Q.; Wu, D.-Y.*, Theoretical Study on Thermodynamic and Spectroscopic Properties of Electro-Oxidation of p-Aminothiophenol on Gold Electrode Surfaces.J. Phys. Chem. C2014,118(46), 27113-27122.
18.Zhao, L.-B.; Zhang, M.; Huang, Y.-F.; Williams, C. T.; Wu, D.-Y.*; Ren, B.; Tian, Z.-Q., Theoretical Study of Plasmon-Enhanced Surface Catalytic Coupling Reactions of Aromatic Amines and Nitro Compounds.J. Phys. Chem. Lett.2014,5, 1259-1266.
19.Zhao, L.-B.; Mishra, A. K.; Waldeck, D. H.*, Voltammetry Can Reveal Differences between the Potential Energy Curve (pec) and Density of States (dos) Models for Heterogeneous Electron Transfer.J. Phys. Chem. C2013,117(40), 20746-20761.
20.Zhao, L.-B.; Huang, Y.-F.; Liu, X.-M.; Anema, J. R.; Wu, D.-Y.*; Ren, B.; Tian, Z.-Q., A DFT Study on Photoinduced Surface Catalytic Coupling Reactions on Nanostructured Silver: Selective Formation of Azobenzene Derivatives from Para-Substituted Nitrobenzene and Aniline.Phys. Chem. Chem. Phys.2012,14(37), 12919-12929.
