LiGeZhaoNing Chaired Professor of Physical Chemistry at Peking University, Catalysis, In-situ/Operando Characterizations, and Renewable Energy & Chemicals
Our recent mechanistic investigation of the electrochemical CO reduction on Cu suggests C-C coupling is no the rate limiting step. Reaction order of adsorb CO never reaches 2 despite of our best efforts. Check it out at:https://t.co/SP2Ez3elLi
Happy to share our recent work on the cation effect in the CO2RR, which is highlighted as a cover work in @ACSCatalysis We show that an existing theory is unlikely to hold but truth of how cations impact electrocatalytic reactions is still out there! https://t.co/Ynx0JyUa0f
Happy to share our latest collaborative work with Prof. Qi Lu's group @Tsinghua_Uni on electric field and non-electric field modes of the cation effect in electrocatalysis via combined reactivity and spectroscopic investigations. @ScienceAdvances https://t.co/xl7ndgeOD0
I'm happy to announce that I officially enjoyed the College of Chemistry and Molecular Engineering @PKU1898 as a professor. My seven years‘ stay at @UDChBE has been amazing and I'm immensely grateful to all the mentors and friends at UD!
Check out our latest work with Qi Lu @Tsinghua_Uni showing coelectrolysis of CO2 and O2 enhances C2+ production. In situ SERS again demonstrates its capability to identify key surface intermediates. @UDChBE https://t.co/BLtBA9Iyis
Cover: Stability of the ketyl radical as a descriptor in the electrochemical coupling of benzaldehyde – free to read for six weeks! Led by Bingjun Xu, https://t.co/gIJtnF8qv2
Check out new work in collaboration with @PengBai0507
on the solvent effect on the adsorption and protonation in porous catalysts @UDChBE@UDengineering: https://t.co/N61w5HdB7i
Our work on the role of hydroxide (or the lack of) in the CO reduction reaction in collaboration with Qi Lu's group @Tsinghua_Uni has been highlighted as the cover of @angew_chem. @UDChBE@UDengineering https://t.co/SZyrgMVGUV
Check out our new work on electrocatalytic C-C coupling between CO and acetaldehyde. @UDelaware@UDengineering Quantitative NMR analysis is informative but exhausting...
https://t.co/x4Q4Qyirvq
Mix Chicken poo with #graphene and you get superdoped #electrocatalyst. See our paper: Will Any Crap We Put into Graphene Increase Its Electrocatalytic Effect? Will humanity start [trade]war over highly valuable chicken guano? https://t.co/RA7nBU8P86 @acsnano@VSCHT@CEITEC_Brno
First paper in 2020 came out on renewable adipic acid production @UDChBE, and it came out two years after the first author (Matt Gilkey) graduated!
https://t.co/65qdf7QMwe
Our recent work @UDChBE in @ACSCatalysis demonstrates the molecular intimacy between acid and metal sites is key to mediating tandem catalysis: https://t.co/lSvD1oQMnm