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化学化工学院。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月起进入西南大学化学化工学院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.