麻祎蒙 特聘研究員,上海市海外高層次人才 / Yimeng Ma, Research Fellow
Email:yimeng.ma@dhu.edu.cn
工作經歷
2019- 今 :特聘研究員,沐鸣平台 化學與化工院
2016-2018☪️:博士後 亥姆霍茲柏林能源材料中心(HZB) 太陽能燃料研究所 導師😸🍽:Prof Roel van de Krol
2011-2015🛌🏽:博士 英國帝國理工沐鸣化學沐鸣 導師: Prof James Durrant FRS
2009-2010🎞:碩士 英國倫敦大學沐鸣 電子信息與工程沐鸣
2005-2009🤵🏽:本科 蘭州大學 化學化工沐鸣
研究興趣
1.太陽能光電轉化材料設計與表征(太陽能分解水製氫,光電化學合成)
2.時間分辨光譜表征光響應材料電荷動力學與光化學反應機理
3.光電催化,電催化器件設計與優化
Work Experience
2019-present: Research Fellow, Department of Chemistry and Chemical Engineering, Donghua University
2016-2018: Postdoc Chemist, Institute for Solar Fuels, Helmholtz-Zentrum Berlin fur Materialien und Energie (Supervisor: Prof Roel van de Krol)
2011-2015: PhD, Department of Chemistry, Imperial College London (Supervisor: Prof James Durrant FRS)
2009-2010: MSc in Nanotechnology, Department of Electric and Electronic Engineering, University College London
2005-2009: BSc in Chemistry, Department of Chemistry, Lanzhou University
Research Interests
1. Design and characterisation of energy conversion materials for solar fuels and photochemistry
2. Time-resolved spectroscopies of charge carrier dynamics and reaction mechanisms
3. Design and optimisation of photoelectrocatalysis, electrocatalysis devices
發表文章及專利/Publications
For full publication list, please visit: https://orcid.org/0000-0002-7826-5338)
1.Zhu, W.; Yuan, Y.; Ma, Y., Charge carrier dynamics of surface back electron/hole recombination in BiVO4 and TiO2 photoanodes. Sustainable Energy & Fuels 2024,8, 1077.
2.Yuan, Y.; Mao, Z.; Xu, H.; Abdi, F.; Ma, Y., A Low-Cost and Large-Area Modular Nickel Electrode on Aramid Fabric for Efficient Solar-Driven Water Electrolysis. Journal of Materials Chemistry A 2024,12, 10090.
3.Zhang, Y.; Lin, Z.; Duan, S.; Yuan, Y.; Song, A.; Ma, Y., Spectroelectrochemical Identification of CuO Impurities Catalyzing Water Reduction on CuBi2O4 Photocathodes. ACS Energy Letters 2024,9 (4), 1761.
4.Ma, Z.; Guo, X.; Yuan, Y.; Wu, Y.; Hai, Y.; Wu, J.; Wu, W.; Ma, Y., Operando spectroelectrochemical insights into the selectivity difference of photoelectrocatalytic alcohol oxidation to aldehyde on hematite and titania. Journal of Catalysis 2024,437, 115661.
5.Guo, X.; Ma, Z.; Yuan, Y.; Kang, Y.; Xu, H.; Mao, Z.; Ma, Y., Photoinduced Absorption Spectroscopy of Photoelectrocatalytic Methylene Blue Oxidation on Titania and Hematite: The Thermodynamic and Kinetic Impacts on Reaction Pathways. Advanced Science 2023,10 (9), e2206685.
6.Yuan, J.; Yuan, Y.; Zhang, J.; Xu, H.; Mao, Z.; Ma, Y., Mechanistic Insights into Selective Acetaldehyde Formation from Ethanol Oxidation on Hematite Photoanodes by Operando Spectroelectrochemistry. ChemSusChem 2022,15 (5), e202102313.
7.Yuan, Y.; Guo, Y.; Wu, W.; Mao, Z.; Xu, H.; Ma, Y., Kinetics of Active Oxide Species Derived from a Metallic Nickel Surface for Efficient Electrocatalytic Water Oxidation. ACS Energy Letters 2022,7, 3276.
8.Mesa, C. A.; Francas, L.; Yang, K. R.; Garrido-Barros, P.; Pastor, E.; Ma, Y.; Kafizas, A.; Rosser, T. E.; Mayer, M. T.; Reisner, E.; Gratzel, M.; Batista, V. S.; Durrant, J. R., Multihole water oxidation catalysis on haematite photoanodes revealed by operando spectroelectrochemistry and DFT. Nature Chemistry 2020,12 (1), 82.
9.Ahmet, I. Y.; Ma, Y.; Jang, J.-W.; Henschel, T.; Stannowski, B.; Lopes, T.; Vilanova, A.; Mendes, A.; Abdi, F. F.; van de Krol, R., Demonstration of a 50 cm2 BiVO4 tandem photoelectrochemical-photovoltaic water splitting device. Sustainable Energy Fuels 2019,3 (9), 2366.
10.Kafizas, A.; Xing, X. T.; Selim, S.; Mesa, C. A.; Ma, Y.; Burgess, C.; McLachlan, M. A.; Durrant, J. R., Ultra-thin Al2O3 coatings on BiVO4 photoanodes: Impact on performance and charge carrier dynamics. Catalysis Today 2019,321, 59.
11.Zhang, M. Y.; Ma, Y.; Friedrich, D.; van de Krol, R.; Wong, L. H.; Abdi, F. F., Elucidation of the opto-electronic and photoelectrochemical properties of FeVO4 photoanodes for solar water oxidation. Journal of Materials Chemistry A 2018,6 (2), 548.
12.Mesa, C. A.; Kafizas, A.; Francas, L.; Pendlebury, S. R.; Pastor, E.; Ma, Y.; Le Formal, F.; Mayer, M. T.; Gratzel, M.; Durrant, J. R., Kinetics of Photoelectrochemical Oxidation of Methanol on Hematite Photoanodes. Journal of the American Chemical Society 2017,139 (33), 11537.
13.Kafizas, A.; Ma, Y.; Pastor, E.; Pendlebury, S. R.; Mesa, C.; Francas, L.; Le Formal, F.; Noor, N.; Ling, M.; Sotelo-Vazquez, C.; Carmalt, C. J.; Parkin, I. P.; Durrant, J. R., Water Oxidation Kinetics of Accumulated Holes on the Surface of a TiO2 Photoanode: A Rate Law Analysis. ACS Catalysis 2017,7 (7), 4896.
14.Ma, Y.; Kafizas, A.; Pendlebury, S. R.; Le Formal, F.; Durrant, J. R., Photoinduced Absorption Spectroscopy of CoPi on BiVO4: The Function of CoPi during Water Oxidation. Advanced Functional Materials 2016,26 (27), 4951.
15.Ma, Y.; Mesa, C. A.; Pastor, E.; Kafizas, A.; Francas, L.; Le Formal, F.; Pendlebury, S. R.; Durrant, J. R., Rate Law Analysis of Water Oxidation and Hole Scavenging on a BiVO4 Photoanode. ACS Energy Letters 2016,1 (3), 618.
16.Ma, Y.; Le Formal, F.; Kafizas, A.; Pendlebury, S. R.; Durrant, J. R., Efficient Suppression of Back Electron/Hole Recombination in Cobalt Phosphate Surface-Modified Undoped Bismuth Vanadate Photoanodes. Journal of Materials Chemistry A 2015,3 (41), 20649.
17.Ma, Y.; Pendlebury, S. R.; Reynal, A.; Le Formal, F.; Durrant, J. R., Dynamics of Photogenerated Holes in Undoped BiVO4 Photoanodes for Solar Water Oxidation. Chemical Science 2014,5 (8), 2964.
18.Lei, B.; Ma, Y.; Li, J.; Liu, H.; Yao, X.; Gramatica, P., Prediction of the adsorption capability onto activated carbon of a large data set of chemicals by local lazy regression method. Atmospheric Environment 2010,44 (25), 2954.
