Issue 3, 2021
From the journal:

Dalton Transactions

Splitting of multiple hydrogen molecules by bioinspired diniobium metal complexes: a DFT study

Felipe Fantuzzi, ORCID logo abc   Marco Antonio Chaer Nascimento, ORCID logo *a   Bojana Ginovska, ORCID logo b   R. Morris Bullock ORCID logo b  and  Simone Raugei ORCID logo *b  

* Corresponding authors

a Instituto de Química, Universidade Federal do Rio de Janeiro, Av. Athos da Silveira Ramos 149, 21941.909, Rio de Janeiro, Brazil
E-mail: chaer01@gmail.com

b Center for Molecular Electrocatalysis, Pacific Northwest National Laboratory, Richland, WA 99352, USA
E-mail: simone.raugei@pnnl.gov

c Institute for Inorganic Chemistry, Julius-Maximilians-Universität Würzburg, Am Hubland, Würzburg, Germany

Abstract

Splitting of molecular hydrogen (H2) into bridging and terminal hydrides is a common step in transition metal chemistry. Herein, we propose a novel organometallic platform for cleavage of multiple H2 molecules, which combines metal centers capable of stabilizing multiple oxidation states, and ligands bearing positioned pendant basic groups. Using quantum chemical modeling, we show that low-valent, early transition metal diniobium(II) complexes with diphosphine ligands featuring pendant amines can favorably uptake up to 8 hydrogen atoms, and that the energetics are favored by the formation of intramolecular dihydrogen bonds. This result suggests new possible strategies for the development of hydrogen scavenger molecules that are able to perform reversible splitting of multiple H2 molecules.

Graphical abstract: Splitting of multiple hydrogen molecules by bioinspired diniobium metal complexes: a DFT study

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Article information

DOI
https://doi.org/10.1039/D0DT03411H
Article type
Paper
Submitted
02 Oct 2020
Accepted
17 Nov 2020
First published
20 Nov 2020

Dalton Trans., 2021,50, 840-849

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Splitting of multiple hydrogen molecules by bioinspired diniobium metal complexes: a DFT study

F. Fantuzzi, M. A. C. Nascimento, B. Ginovska, R. M. Bullock and S. Raugei, Dalton Trans., 2021, 50, 840 DOI: 10.1039/D0DT03411H

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