Ruthenium-Catalyzed Self-Coupling of Secondary Alcohols

A simple catalytic method for self-coupling of secondary alcohols leading to the synthesis of β-branched ketones under mild conditions is reported. Well-defined ruthenium pincer complex catalyzed the reactions. Optimization studies revealed that sodium tert-butoxide is an appropriate base for this t...

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Veröffentlicht in:	Journal of organic chemistry 2023-12, Vol.88 (24), p.17155-17163
Hauptverfasser:	Kumar, Nitin, Sankar, Raman Vijaya, Gunanathan, Chidambaram
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Sprache:	eng
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container_title	Journal of organic chemistry
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creator	Kumar, Nitin Sankar, Raman Vijaya Gunanathan, Chidambaram
description	A simple catalytic method for self-coupling of secondary alcohols leading to the synthesis of β-branched ketones under mild conditions is reported. Well-defined ruthenium pincer complex catalyzed the reactions. Optimization studies revealed that sodium tert-butoxide is an appropriate base for this transformation. Functionalized aryl methanols, heteroaryl methanols, and linear and branched aliphatic secondary alcohols underwent facile catalytic self-coupling reactions. Mechanistic studies revealed that both catalyst and base are crucial to achieve dehydrogenation of secondary alcohols to ketones, their subsequent controlled aldol condensation, and further hydrogenation of α,β-unsaturated intermediates, leading to the selective formation of β-branched ketone products. Notably, the noninnocent PNP ligand which displays amine-amide metal–ligand cooperation operative in a catalyst played a key role in facilitating this catalytic self-coupling of secondary alcohols. Liberated molecular hydrogen and water are the only byproducts.
doi_str_mv	10.1021/acs.joc.3c02029
format	Article
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title	Ruthenium-Catalyzed Self-Coupling of Secondary Alcohols
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