A Brønsted Acidic Gallium Hydride: Facile Interconversion of NNNN‐Macrocycle Supported [Ga(I)](+) and [Ga(III)H](2+)

Protonolysis of [Cp*M] (M=Ga, In, Tl) with [(Me(4)TACD)H][BAr(4) (Me)] (Me(4)TACD=N,N′,N′′,N′′′‐tetramethyl‐1,4,7,10‐tetraazacyclododecane; [BAr(4) (Me)](−)=[B{C(6)H(3)‐3,5‐(CH(3))(2)}(4)](−)) provided monovalent salts [(Me(4)TACD)M][BAr(4) (Me)], whereas [Cp*Al](4) yielded trivalent [(Me(4)TACD)AlH...

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Autores principales: Morris, Louis J., Ghana, Priyabrata, Rajeshkumar, Thayalan, Carpentier, Ambre, Maron, Laurent, Okuda, Jun
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2022
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Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9304309/
https://www.ncbi.nlm.nih.gov/pubmed/34932267
http://dx.doi.org/10.1002/anie.202114629
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author Morris, Louis J.
Ghana, Priyabrata
Rajeshkumar, Thayalan
Carpentier, Ambre
Maron, Laurent
Okuda, Jun
author_facet Morris, Louis J.
Ghana, Priyabrata
Rajeshkumar, Thayalan
Carpentier, Ambre
Maron, Laurent
Okuda, Jun
author_sort Morris, Louis J.
collection PubMed
description Protonolysis of [Cp*M] (M=Ga, In, Tl) with [(Me(4)TACD)H][BAr(4) (Me)] (Me(4)TACD=N,N′,N′′,N′′′‐tetramethyl‐1,4,7,10‐tetraazacyclododecane; [BAr(4) (Me)](−)=[B{C(6)H(3)‐3,5‐(CH(3))(2)}(4)](−)) provided monovalent salts [(Me(4)TACD)M][BAr(4) (Me)], whereas [Cp*Al](4) yielded trivalent [(Me(4)TACD)AlH][BAr(4) (Me)](2). Protonation of [(Me(4)TACD)Ga][BAr(4) (Me)] with [Et(3)NH][BAr(4) (Me)] gave an unusually acidic (pK (a)(CH(3)CN)=24.5) gallium(III) hydride dication [(Me(4)TACD)GaH][BAr(4) (Me)](2). Deprotonation with IMe(4) (1,3,4,5‐tetramethyl‐imidazol‐ylidene) returned [(Me(4)TACD)Ga][BAr(4) (Me)]. These reversible processes occur with formal two‐electron oxidation and reduction of gallium. DFT calculations suggest that gallium(I) protonation is facilitated by strong coordination of the tetradentate ligand, which raises the HOMO energy. High nuclear charge of [(Me(4)TACD)GaH](2+) facilitates hydride‐to‐metal charge transfer during deprotonation. Attempts to prepare a gallium(III) dihydride cation resulted in spontaneous dehydrogenation to [(Me(4)TACD)Ga](+).
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spelling pubmed-93043092022-07-28 A Brønsted Acidic Gallium Hydride: Facile Interconversion of NNNN‐Macrocycle Supported [Ga(I)](+) and [Ga(III)H](2+) Morris, Louis J. Ghana, Priyabrata Rajeshkumar, Thayalan Carpentier, Ambre Maron, Laurent Okuda, Jun Angew Chem Int Ed Engl Research Articles Protonolysis of [Cp*M] (M=Ga, In, Tl) with [(Me(4)TACD)H][BAr(4) (Me)] (Me(4)TACD=N,N′,N′′,N′′′‐tetramethyl‐1,4,7,10‐tetraazacyclododecane; [BAr(4) (Me)](−)=[B{C(6)H(3)‐3,5‐(CH(3))(2)}(4)](−)) provided monovalent salts [(Me(4)TACD)M][BAr(4) (Me)], whereas [Cp*Al](4) yielded trivalent [(Me(4)TACD)AlH][BAr(4) (Me)](2). Protonation of [(Me(4)TACD)Ga][BAr(4) (Me)] with [Et(3)NH][BAr(4) (Me)] gave an unusually acidic (pK (a)(CH(3)CN)=24.5) gallium(III) hydride dication [(Me(4)TACD)GaH][BAr(4) (Me)](2). Deprotonation with IMe(4) (1,3,4,5‐tetramethyl‐imidazol‐ylidene) returned [(Me(4)TACD)Ga][BAr(4) (Me)]. These reversible processes occur with formal two‐electron oxidation and reduction of gallium. DFT calculations suggest that gallium(I) protonation is facilitated by strong coordination of the tetradentate ligand, which raises the HOMO energy. High nuclear charge of [(Me(4)TACD)GaH](2+) facilitates hydride‐to‐metal charge transfer during deprotonation. Attempts to prepare a gallium(III) dihydride cation resulted in spontaneous dehydrogenation to [(Me(4)TACD)Ga](+). John Wiley and Sons Inc. 2022-01-27 2022-03-07 /pmc/articles/PMC9304309/ /pubmed/34932267 http://dx.doi.org/10.1002/anie.202114629 Text en © 2021 The Authors. Angewandte Chemie International Edition published by Wiley-VCH GmbH https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc-nd/4.0/ (https://creativecommons.org/licenses/by-nc-nd/4.0/) License, which permits use and distribution in any medium, provided the original work is properly cited, the use is non‐commercial and no modifications or adaptations are made.
spellingShingle Research Articles
Morris, Louis J.
Ghana, Priyabrata
Rajeshkumar, Thayalan
Carpentier, Ambre
Maron, Laurent
Okuda, Jun
A Brønsted Acidic Gallium Hydride: Facile Interconversion of NNNN‐Macrocycle Supported [Ga(I)](+) and [Ga(III)H](2+)
title A Brønsted Acidic Gallium Hydride: Facile Interconversion of NNNN‐Macrocycle Supported [Ga(I)](+) and [Ga(III)H](2+)
title_full A Brønsted Acidic Gallium Hydride: Facile Interconversion of NNNN‐Macrocycle Supported [Ga(I)](+) and [Ga(III)H](2+)
title_fullStr A Brønsted Acidic Gallium Hydride: Facile Interconversion of NNNN‐Macrocycle Supported [Ga(I)](+) and [Ga(III)H](2+)
title_full_unstemmed A Brønsted Acidic Gallium Hydride: Facile Interconversion of NNNN‐Macrocycle Supported [Ga(I)](+) and [Ga(III)H](2+)
title_short A Brønsted Acidic Gallium Hydride: Facile Interconversion of NNNN‐Macrocycle Supported [Ga(I)](+) and [Ga(III)H](2+)
title_sort brønsted acidic gallium hydride: facile interconversion of nnnn‐macrocycle supported [ga(i)](+) and [ga(iii)h](2+)
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC9304309/
https://www.ncbi.nlm.nih.gov/pubmed/34932267
http://dx.doi.org/10.1002/anie.202114629
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