Expanding the Boundaries of Water-Tolerant Frustrated Lewis Pair Hydrogenation: Enhanced Back Strain in the Lewis Acid Enables the Reductive Amination of Carbonyls.

Éva Dorkó Márk Szabó Bianka Kótai Imre Pápai Attila Domján Tibor Soós

Angew Chem Int Ed Engl

Institute of Organic Chemistry, Hungarian Academy of Sciences, Research Centre for Natural Sciences, Magyar tudósok körútja 2, 1117, Budapest, Hungary.

Published: August 2017

A new frustrated Lewis pair (FLP) based on boron and nitrogen has been developed, showing exceptional tolerance to water.
Systematic adjustments to the boron-based Lewis acid component enhance water binding reversibility, especially when a strong base is present.
This advancement expands the FLP's capabilities in hydrogenation, enabling effective metal-free reductive amination of carbonyls with broad chemoselectivity.

The development of a boron/nitrogen-centered frustrated Lewis pair (FLP) with remarkably high water tolerance is presented. As systematic steric tuning of the boron-based Lewis acid (LA) component revealed, the enhanced back-strain makes water binding increasingly reversible in the presence of relatively strong base. This advance allows the limits of FLP's hydrogenation to be expanded, as demonstrated by the FLP reductive amination of carbonyls. This metal-free catalytic variant displays a notably broad chemoselectivity and generality.

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http://dx.doi.org/10.1002/anie.201703591	DOI Listing

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