Unraveling the Mechanistic Details of Ru-Bis(pyridyl)borate Complex Catalyst for the Dehydrogenation of Ammonia Borane

Amrita Gogoi, Priti Singh, Sourav Pal, Mudit Dixit

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4 Scopus citations

Abstract

Ru-Bis(pyridyl)borate complex (CAT) is an efficient catalyst for ammonia borane (AB) dehydrogenation. Although the mechanistic pathway of this catalyst has been theoretically investigated previously, the gap between the experimental findings and the computational results could not be bridged thus far. In our study, using density functional theory calculations, we elucidate the mechanism of AB dehydrogenation of CAT at a variable degree of ligand hydrogenation. Our results confirm that the acetonitrile ligands get reduced in the presence of AB and remain hydrogenated. Moreover, in line with experiments, we find that AB dehydrogenation on CAT proceeds via a concerted mechanism (with the free energy energetic span between 25.4 and 32.5 kcal/mol). We find that the ligand reduction alters the electronic structure and activity of CAT and the highest activity of the catalyst is expected at the fifth degree of hydrogenation of ligands with an energetic span of 25.4 kcal/mol. Additionally, the mechanism for the removal of molecular H2from the catalysts also alters with the degree of ligand hydrogenation. Furthermore, our results show that optimal H2binding free energy calculations can be used as a descriptor to identify the most active sites. Finally, this work demonstrates that ligand reduction improves the activity of the catalyst. These results highlight the importance of ligand hydrogenation in probing the activity and operating mechanism of the Ru-bis(pyridyl)borate complexes for AB dehydrogenation. Further, we identify a plausible dimer structure and rationalized experimental observation that the deactivation chemistry of this catalyst is different from the Shvo's catalyst.

Original languageEnglish
Pages (from-to)10283-10293
Number of pages11
JournalInorganic Chemistry
Volume61
Issue number27
DOIs
StatePublished - 11 Jul 2022
Externally publishedYes

Bibliographical note

Publisher Copyright:
© 2022 American Chemical Society. All rights reserved.

Funding

A.G. acknowledges the Department of Science and Technology (DST) for the Inspire fellowship. M.D. and P.S. acknowledge the Core Research Grant (CRG/2020/005626) of SERB, India, for financial support toward the completion of this work. S.P. acknowledges JC Bose Fellowship grant no. SR/S2/JCB-31/2007 from DST, India.

FundersFunder number
JC Bose Fellowship
Department of Science and Technology, Ministry of Science and Technology, IndiaCRG/2020/005626
Science and Engineering Research Board

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