Aqueous Micellar Environment Impacts the Co-Catalyzed Phototransformation: A Case Study

Aleksandra Wincenciuk; Piotr Cmoch; Maciej Giedyk; Martin P. Andersson; Dorota Gryko

doi:10.1021/jacs.4c02682

Aqueous Micellar Environment Impacts the Co-Catalyzed Phototransformation: A Case Study

Aleksandra Wincenciuk, Piotr Cmoch, Maciej Giedyk^*, Martin P. Andersson^*, Dorota Gryko^*

^*Corresponding author for this work

Center for Integrative Petroleum Research

Research output: Contribution to journal › Article › peer-review

5 Scopus citations

Abstract

In recent years, methodologies that rely on water as the reaction medium have gained considerable attention. The unique properties of micellar solutions were shown to improve the regio-, stereo-, and chemoselectivity of different transformations. Herein, we demonstrate that the aqueous environment is a suitable medium for a visible light driven cobalt-catalyzed reaction involving radical species. In this system, reduced vitamin B₁₂ reacts with alkyl halides, generating radicals that are trapped by the lipophilic olefin present in the Stern layer. A series of NMR measurements and theoretical studies revealed the location of reaction components in the micellar system.

Original language	English
Pages (from-to)	19828-19838
Number of pages	11
Journal	Journal of the American Chemical Society
Volume	146
Issue number	29
DOIs	https://doi.org/10.1021/jacs.4c02682
State	Published - 24 Jul 2024

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Publisher Copyright:
© 2024 The Authors. Published by American Chemical Society.

ASJC Scopus subject areas

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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title = "Aqueous Micellar Environment Impacts the Co-Catalyzed Phototransformation: A Case Study",

abstract = "In recent years, methodologies that rely on water as the reaction medium have gained considerable attention. The unique properties of micellar solutions were shown to improve the regio-, stereo-, and chemoselectivity of different transformations. Herein, we demonstrate that the aqueous environment is a suitable medium for a visible light driven cobalt-catalyzed reaction involving radical species. In this system, reduced vitamin B12 reacts with alkyl halides, generating radicals that are trapped by the lipophilic olefin present in the Stern layer. A series of NMR measurements and theoretical studies revealed the location of reaction components in the micellar system.",

author = "Aleksandra Wincenciuk and Piotr Cmoch and Maciej Giedyk and Andersson, \{Martin P.\} and Dorota Gryko",

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AU - Wincenciuk, Aleksandra

AU - Cmoch, Piotr

AU - Giedyk, Maciej

AU - Andersson, Martin P.

AU - Gryko, Dorota

PY - 2024/7/24

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N2 - In recent years, methodologies that rely on water as the reaction medium have gained considerable attention. The unique properties of micellar solutions were shown to improve the regio-, stereo-, and chemoselectivity of different transformations. Herein, we demonstrate that the aqueous environment is a suitable medium for a visible light driven cobalt-catalyzed reaction involving radical species. In this system, reduced vitamin B12 reacts with alkyl halides, generating radicals that are trapped by the lipophilic olefin present in the Stern layer. A series of NMR measurements and theoretical studies revealed the location of reaction components in the micellar system.

AB - In recent years, methodologies that rely on water as the reaction medium have gained considerable attention. The unique properties of micellar solutions were shown to improve the regio-, stereo-, and chemoselectivity of different transformations. Herein, we demonstrate that the aqueous environment is a suitable medium for a visible light driven cobalt-catalyzed reaction involving radical species. In this system, reduced vitamin B12 reacts with alkyl halides, generating radicals that are trapped by the lipophilic olefin present in the Stern layer. A series of NMR measurements and theoretical studies revealed the location of reaction components in the micellar system.

UR - https://www.scopus.com/pages/publications/85198359944

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JF - Journal of the American Chemical Society

IS - 29

ER -

Aqueous Micellar Environment Impacts the Co-Catalyzed Phototransformation: A Case Study

Abstract

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