Metal–Ligand Bifunctional Catalysis: The “Accepted” Mechanism, the Issue of Concertedness, and the Function of the Ligand in Catalytic Cycles Involving Hydrogen Atoms
Pavel A. Dub,John C. Gordon +1 more
TLDR
In this paper, the Noyori asymmetric hydrogenation reaction was shown to behave in a chemically intact manner within the productive cycle or predominantly in a chemical intact way within productive cycles, and it was shown that the ligand is rather involved in the catalytic reaction via the stabilization of determining transition states through hydrogen bonding interactions.Abstract:
For years, following the ideas of Shvo and Noyori, the core assumption of metal–ligand bifunctional molecular catalysis has relied on the direct involvement of the chelating ligand in the catalytic reaction via a reversible proton (H+) transfer through cleavage/formation of one of its X–H bonds (X = O, N, C). A recently revised mechanism of the Noyori asymmetric hydrogenation reaction (Dub, P. A. et al. J. Am. Chem. Soc. 2014, 136, 3505) suggests that the ligand is rather involved in the catalytic reaction via the stabilization of determining transition states through N–H···O hydrogen-bonding interactions (HBIs) and not via a reversible H+ transfer, behaving in a chemically intact manner within the productive cycle or predominantly in a chemically intact manner within productive cycles. By reexamining selected examples of computational mechanistic studies involving bifunctional catalysts from the literature in the years between 2012–2017, the purpose of this work is to point out common misconceptions in m...read more
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Catalytic (de)hydrogenation promoted by non-precious metals – Co, Fe and Mn: recent advances in an emerging field
Georgy A. Filonenko,Georgy A. Filonenko,Robbert van Putten,Robbert van Putten,Emiel J. M. Hensen,Evgeny A. Pidko,Evgeny A. Pidko +6 more
TL;DR: This review is aimed at introducing the reader to the remarkable progress made in the last three years in the development of base metal catalysts for hydrogenations and dehydrogenative transformations.
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Computational Approach to Molecular Catalysis by 3d Transition Metals: Challenges and Opportunities
Konstantinos D. Vogiatzis,Mikhail V. Polynski,Justin K. Kirkland,Jacob Townsend,Ali Hashemi,Chong Liu,Evgeny A. Pidko,Evgeny A. Pidko +7 more
TL;DR: The challenges and capabilities of modern electronic structure methods for studying the reaction mechanisms promoted by 3d transition metal molecular catalysts are discussed, with particular focus on the ways of addressing the multiconfigurational problem in electronic structure calculations and the role of expert bias in the practical utilization of the available methods.
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Synergistic Dual Transition Metal Catalysis
TL;DR: This review will highlight the reported examples of reactions that make use of two simultaneous catalytic cycles driven by two transition metal catalysts.
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Advances in catalytic homogeneous hydrogenation of carbon dioxide to methanol
TL;DR: A review of the recent advances in homogeneous reduction of CO2 to methanol using molecular H2 can be found in this paper, where the authors provide an overview of the current state-of-the-art on homogeneous CO2 hydrogenation to meethanol.
Journal ArticleDOI
Frontiers in molecular p-block chemistry: From structure to reactivity.
TL;DR: A better understanding of trends in p-block reactivity, particularly the behavior of those elements not typically found in biological systems, has led to a promising array of emerging applications, highlighted herein.
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