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Unlocking the Potential of High-Throughput Experimentation for Electrochemistry with a Standardized Microscale Reactor

preprint
revised on 10.03.2021, 12:17 and posted on 11.03.2021, 06:42 by Jonas Rein, James R. Annand, Michael K. Wismer, Jiantao Fu, Juno C. Siu, Artis Klapars, Neil A. Strotman, Dipannita Kalyani, Dan Lehnherr, Song Lin
Organic electrochemistry has emerged as an enabling and sustainable technology in modern organic synthesis. Despite the recent renaissance of electrosynthesis, the broad adoption of electrochemistry in the synthetic community and, especially in industrial settings, has been hindered by the dearth of general, standardized platforms for high-throughput experimentation (HTE). Herein, we disclose the design of the HTe-Chem, a high-throughput microscale electrochemical reactor that is compatible with existing HTE infrastructure, and enables rapid evaluation of a broad array of electrochemical reaction parameters. Utilizing the HTe-Chem to accelerate reaction optimization, reaction discovery, and chemical library synthesis is illustrated using a suite of oxidative and reductive transformations under constant current, constant voltage, and electrophotochemical conditions.

History

Email Address of Submitting Author

jr999@cornell.edu

Institution

Cornell University

Country

United States

ORCID For Submitting Author

0000-0001-8237-6519

Declaration of Conflict of Interest

The authors declare no competing financial interest.

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