Catalytic machinery in motion: controlling catalysis via speed

Emad Elramadi; Amit Ghosh; Isa Valiyev; Pronay Kumar Biswas; Thomas Paululat; Michael Schmittel

Journal ArticleOPEN ACCESS

Catalytic machinery in motion: controlling catalysis via speed

Elramadi E
Ghosh A
Valiyev I
et al.

Chemical Communications (2022) 58(58) 8073-8076

DOI: 10.1039/d2cc02555h

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Abstract

Three 3-component copper(i)-based slider-on-deck systems served as catalysts for a click reaction showing a higher catalytic activity with increasing sliding speed. Upon addition of brake stones, the motion of the resulting 4-component machinery was slowed and eventually stopped (on the NMR time scale) with the effect that catalysis was reduced or obstructed.

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Elramadi, E., Ghosh, A., Valiyev, I., Biswas, P. K., Paululat, T., & Schmittel, M. (2022). Catalytic machinery in motion: controlling catalysis via speed. Chemical Communications, 58(58), 8073–8076. https://doi.org/10.1039/d2cc02555h

Catalytic machinery in motion: controlling catalysis via speed

Abstract

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