YU RUI
Post Doc.
Dept. of Applied Physics
E-MAIL: yurui@wust.edu.cn
Educational Background
Apr.2021--Apr.2022 Visiting Student (Material Science), Karlsruher Institut für Technologie, Germany
Sep.2016--Jun.2022 Ph.D. (Environmental Engineering), Wuhan University
Sep.2012--Jun.2016 Bachelor (Environmental Engineering), Jianghan University
Work Experience
Nov.2022--present Post Doc, Wuhan University of Science and Technology
Research Field
●Carbon dioxide capture and conversion in molten salts
●Corrosion and protection of metallic materials in high-temperature medium
Academic Achievements
1. Research Projects
■ National Natural Science Foundation of China (Youth Program), Mechanism of thermocatalytic conversion of CO- to syngas in molten carbonates via reverse water gas shift reaction, 2024.01-2026.12.
■ Hubei Province Postdoctoral Innovation Research Post Funding, 2023
2. Publications
[1] Rui Yu*; Junxiang Xiang; Kaifa Du; Bowen Deng; Di Chen; Huayi Yin; Ze Liu; Dihua Wang; Electrochemical Growth of High-Strength Carbon Nanocoils in Molten Carbonates, Nano Letters, 2022, 22(1): 97-104
[2] Rui Yu*; Kaifa Du; Bowen Deng; Huayi Yin; Dihua Wang; Unraveling the role of substrate materials in governing the carbon/carbide growth of molten carbonate electrolysis of CO2, Nanoscale, 2023, 15(46): 18707-18715.
[3] Rui Yu*; Bowen Deng; Kaifa Du; Di Chen; Muxing Gao; Dihua Wang; Modulating carbon growth kinetics enables electrosynthesis of graphite derived from CO2 via a liquid-solid-solid process, Carbon, 2021, 184: 426-436.
[4] Rui Yu*; Qing Gong; Hao Shi; Yan Chai; Alexander Bonk; Alfons Weisenburger; Dihua Wang; Georg Müller; Thomas Bauer; Wenjin Ding; Corrosion behavior of Fe-Cr-Ni based alloys exposed to molten MgCl2-KCl-NaCl salt with over-added Mg corrosion inhibitor, Frontiers of chemical science and engineering, 2023, 17(10): 1608-1619.
[5] Rui Yu*; Bowen Deng; Kaiyuan Zheng; Xingyi Wang; Kaifa Du; Dihua Wang; A facile strategy to synthesize graphitic carbon-encapsulated core-shell nanocomposites derived from CO2 as functional materials, Composites Communications, 2020, 22: 100464
