Pickering emulsion droplet-based biomimetic microreactors for continuous flow cascade reactions

Zhang, Ming; Ettelaie, Rammile; Dong, Lianlian; Li, Xiaolong; Li, Ting; Zhang, Xiaoming; Binks, Bernard P.; Yang, Hengquan

doi:10.1038/s41467-022-28100-6

Pickering emulsion droplet-based biomimetic microreactors for continuous flow cascade reactions

Zhang, Ming; Ettelaie, Rammile; Dong, Lianlian; Li, Xiaolong; Li, Ting; Zhang, Xiaoming; Binks, Bernard P.; Yang, Hengquan

Authors

Ming Zhang

Rammile Ettelaie

Lianlian Dong

Xiaolong Li

Ting Li

Xiaoming Zhang

Professor Bernie Binks B.P.Binks@hull.ac.uk
Emeritus Professor of Physical Chemistry

Hengquan Yang

Abstract

A continuous flow cascade of multi-step catalytic reactions is a cutting-edge concept to revolutionize stepwise catalytic synthesis yet is still challenging in practical applications. Herein, a method for practical one-pot cascade catalysis is developed by combining Pickering emulsions with continuous flow. Our method involves co-localization of different catalytically active sub-compartments within droplets of a Pickering emulsion yielding cell-like microreactors, which can be packed in a column reactor for continuous flow cascade catalysis. As exemplified by two chemo-enzymatic cascade reactions for the synthesis of chiral cyanohydrins and chiral ester, 5 − 420 fold enhancement in the catalysis efficiency and as high as 99% enantioselectivity were obtained even over a period of 80 − 240 h. The compartmentalization effect and enriching-reactant properties arising from the biomimetic microreactor are theoretically and experimentally identified as the key factors for boosting the catalysis efficiency and for regulating the kinetics of cascade catalysis.

Citation

Zhang, M., Ettelaie, R., Dong, L., Li, X., Li, T., Zhang, X., …Yang, H. (2022). Pickering emulsion droplet-based biomimetic microreactors for continuous flow cascade reactions. Nature communications, 13, Article 475. https://doi.org/10.1038/s41467-022-28100-6

Journal Article Type	Article
Acceptance Date	Jan 4, 2022
Online Publication Date	Jan 25, 2022
Publication Date	Dec 1, 2022
Deposit Date	Jun 5, 2023
Publicly Available Date	Jun 9, 2023
Journal	Nature Communications
Electronic ISSN	2041-1723
Publisher	Nature Publishing Group
Peer Reviewed	Peer Reviewed
Volume	13
Article Number	475
DOI	https://doi.org/10.1038/s41467-022-28100-6
Keywords	Catalyst synthesis; Heterogeneous catalysis
Public URL	https://hull-repository.worktribe.com/output/3921235

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