Catalytic hydrogenation of CO2 by manganese complexes: Role of π-acceptor ligands

Kuber Singh Rawat; Arup Mahata; Indrani Choudhuri; Biswarup Pathak

doi:10.1021/acs.jpcc.6b05065

Catalytic hydrogenation of CO₂ by manganese complexes: Role of π-acceptor ligands

Kuber Singh Rawat, Arup Mahata, Indrani Choudhuri, Biswarup Pathak

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43 Scopus citations

Abstract

We have carried out computational studies on the CO₂ hydrogenation reaction catalyzed by three different Mn-based complexes (Mn1, Mn2, and Mn3) to understand the role of σ-donor (PMe₃) and π-acceptor (CO) character of the ligands. Further, the role of a different set of σ-donor and π-acceptor ligands is studied as the studied CO (π-acceptor and PMe₃ (σ-donor) ligands have the differences not only in electronic properties but also in steric effects. Here, we find that the σ-donor ligands (PMe₃/PH₃) favor the hydride transfer, whereas the π-acceptor ligands (CO/PF₃) favor the heterolytic H₂-cleavege. The energy profile diagram shows that the hydride transfer is the rate-determining step when the CO₂ hydrogenation reaction is catalyzed by a Mn-complex containing σ-donor (PMe₃/PH₃) and π-acceptor (CO/PF₃) ligands.

Original language	English (US)
Pages (from-to)	16478-16488
Number of pages	11
Journal	Journal of Physical Chemistry C
Volume	120
Issue number	30
DOIs	https://doi.org/10.1021/acs.jpcc.6b05065
State	Published - Aug 4 2016
Externally published	Yes

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Publisher Copyright:
© 2016 American Chemical Society.

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abstract = "We have carried out computational studies on the CO2 hydrogenation reaction catalyzed by three different Mn-based complexes (Mn1, Mn2, and Mn3) to understand the role of σ-donor (PMe3) and π-acceptor (CO) character of the ligands. Further, the role of a different set of σ-donor and π-acceptor ligands is studied as the studied CO (π-acceptor and PMe3 (σ-donor) ligands have the differences not only in electronic properties but also in steric effects. Here, we find that the σ-donor ligands (PMe3/PH3) favor the hydride transfer, whereas the π-acceptor ligands (CO/PF3) favor the heterolytic H2-cleavege. The energy profile diagram shows that the hydride transfer is the rate-determining step when the CO2 hydrogenation reaction is catalyzed by a Mn-complex containing σ-donor (PMe3/PH3) and π-acceptor (CO/PF3) ligands.",

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