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Literature DB >> 28739963

On the concept of frustrated Lewis pairs.

Frédéric-Georges Fontaine¹, Douglas W Stephan².

Abstract

In this concept article, we consider the notion of 'frustrated Lewis pairs' (FLPs). While the original use of the term referred to steric inhibition of dative bond formation in a Lewis pair, work in the intervening decade demonstrates the limitation of this simplistic view. Analogies to known transition metal chemistry and the applications in other areas of chemistry are considered. In the light of these findings, we present reflections on the criteria for a definition of the term 'frustrated Lewis pair'. Segregation of the Lewis acid and base and the kinetic nature of FLP reactivity are discussed. We are led to the conclusion that, while an all-inclusive definition of FLP is challenging, the notion of 'FLP chemistry' is more readily recognized.This article is part of the themed issue 'Frustrated Lewis pair chemistry'.

Entities: Chemical

Keywords: frustrated Lewis pair chemistry; main group chemistry; segregation of Lewis acid and base

Year: 2017 PMID： 28739963 PMCID： PMC5540838 DOI： 10.1098/rsta.2017.0004

Source DB: PubMed Journal: Philos Trans A Math Phys Eng Sci ISSN： 1364-503X Impact factor: 4.226

26 in total

1. Reactivity of "frustrated Lewis pairs": three-component reactions of phosphines, a borane, and olefins.

Authors: Jenny S J McCahill; Gregory C Welch; Douglas W Stephan
Journal: Angew Chem Int Ed Engl Date: 2007 Impact factor: 15.336

2. Asymmetric catalysis: science and opportunities (Nobel lecture).

Authors: Ryoji Noyori
Journal: Angew Chem Int Ed Engl Date: 2002-06-17 Impact factor: 15.336

3. Nonmetal catalyzed hydrogenation of carbonyl compounds.

Authors: Daniel J Scott; Matthew J Fuchter; Andrew E Ashley
Journal: J Am Chem Soc Date: 2014-10-29 Impact factor: 15.419

4. Spontaneous Reduction of a Hydroborane To Generate a B-B Single Bond by the Use of a Lewis Pair.

Authors: Étienne Rochette; Nicolas Bouchard; Julien Légaré Lavergne; Chérif F Matta; Frédéric-Georges Fontaine
Journal: Angew Chem Int Ed Engl Date: 2016-09-14 Impact factor: 15.336

Review 5. The broadening reach of frustrated Lewis pair chemistry.

Authors: Douglas W Stephan
Journal: Science Date: 2016-12-09 Impact factor: 47.728

6. Molecular electrocatalysts for oxidation of hydrogen using earth-abundant metals: shoving protons around with proton relays.

Authors: R Morris Bullock; Monte L Helm
Journal: Acc Chem Res Date: 2015-06-16 Impact factor: 22.384

7. Frustrated Lewis pairs: from concept to catalysis.

Authors: Douglas W Stephan
Journal: Acc Chem Res Date: 2014-12-23 Impact factor: 22.384

8. Facile splitting of hydrogen and ammonia by nucleophilic activation at a single carbon center.

Authors: Guido D Frey; Vincent Lavallo; Bruno Donnadieu; Wolfgang W Schoeller; Guy Bertrand
Journal: Science Date: 2007-04-20 Impact factor: 47.728

9. Rapid intramolecular heterolytic dihydrogen activation by a four-membered heterocyclic phosphane-borane adduct.

Authors: Patrick Spies; Gerhard Erker; Gerald Kehr; Klaus Bergander; Roland Fröhlich; Stefan Grimme; Douglas W Stephan
Journal: Chem Commun (Camb) Date: 2007-10-02 Impact factor: 6.222

10. Bench-stable frustrated Lewis pair chemistry: fluoroborate salts as precatalysts for the C-H borylation of heteroarenes.

Authors: Marc-André Légaré; Étienne Rochette; Julien Légaré Lavergne; Nicolas Bouchard; Frédéric-Georges Fontaine
Journal: Chem Commun (Camb) Date: 2016-04-07 Impact factor: 6.222

9 in total

1. Frustrated Lewis pair chemistry.

Authors: Douglas W Stephan; Gerhard Erker
Journal: Philos Trans A Math Phys Eng Sci Date: 2017-08-28 Impact factor: 4.226

2. Geometrical influence on the non-biomimetic heterolytic splitting of H₂ by bio-inspired [FeFe]-hydrogenase complexes: a rare example of inverted frustrated Lewis pair based reactivity.

Authors: Lucile Chatelain; Jean-Baptiste Breton; Federica Arrigoni; Philippe Schollhammer; Giuseppe Zampella
Journal: Chem Sci Date: 2022-03-22 Impact factor: 9.969

Review 3. Phosphorus-Based Catalysis.

Authors: Changmin Xie; Andrew J Smaligo; Xian-Rong Song; Ohyun Kwon
Journal: ACS Cent Sci Date: 2021-03-16 Impact factor: 14.553

4. Base-induced reversible H₂ addition to a single Sn(ii) centre.

Authors: Roland C Turnell-Ritson; Joshua S Sapsford; Robert T Cooper; Stella S Lee; Tamás Földes; Patricia A Hunt; Imre Pápai; Andrew E Ashley
Journal: Chem Sci Date: 2018-09-18 Impact factor: 9.825

5. Parallels between Metal-Ligand Cooperativity and Frustrated Lewis Pairs.

Authors: Evi R M Habraken; Andrew R Jupp; Maria B Brands; Martin Nieger; Andreas W Ehlers; J Chris Slootweg
Journal: Eur J Inorg Chem Date: 2019-05-10 Impact factor: 2.524

6. Heteroallene Capture and Exchange at Functionalised Heptaphosphane Clusters.

Authors: Bono van IJzendoorn; Inigo J Vitorica-Yrezabal; George F S Whitehead; Meera Mehta
Journal: Chemistry Date: 2021-12-21 Impact factor: 5.020

7. SET processes in Lewis acid-base reactions: the tritylation of N-heterocyclic carbenes.

Authors: Zhaowen Dong; Cristian Pezzato; Andrzej Sienkiewicz; Rosario Scopelliti; Farzaneh Fadaei-Tirani; Kay Severin
Journal: Chem Sci Date: 2020-04-09 Impact factor: 9.825

8. Metal-free borylative dearomatization of indoles: exploring the divergent reactivity of aminoborane C-H borylation catalysts.

Authors: Arumugam Jayaraman; Luis C Misal Castro; Vincent Desrosiers; Frédéric-Georges Fontaine
Journal: Chem Sci Date: 2018-05-07 Impact factor: 9.825

9. Carbon monoxide insertion at a heavy p-block element: unprecedented formation of a cationic bismuth carbamoyl.

Authors: Jacqueline Ramler; Jordi Poater; Florian Hirsch; Benedikt Ritschel; Ingo Fischer; F Matthias Bickelhaupt; Crispin Lichtenberg
Journal: Chem Sci Date: 2019-02-28 Impact factor: 9.825

9 in total