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Literature DB >> 23846167

Mechanistic insights into iron catalyzed dehydrogenation of formic acid: β-hydride elimination vs. direct hydride transfer.

Abstract

Density functional theory calculations reveal a complete reaction mechanism with detailed energy profiles and transition state structures for the dehydrogenation of formic acid catalyzed by an iron complex, [P(CH2CH2PPh2)3FeH](+). In the cationic reaction pathway, a β-hydride elimination process is confirmed to be the rate-determining step in this catalytic reaction. A potential reaction pathway starting with a direct hydride transfer from HCOO(-) to Fe is found to be possible, but slightly less favorable than the catalytic cycle with a β-hydride elimination step.

Entities: Chemical Gene

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Year: 2013 PMID： 23846167 DOI： 10.1039/c3dt50908g

Source DB: PubMed Journal: Dalton Trans ISSN： 1477-9226 Impact factor: 4.390

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Cited

4 in total

1. Dehydrogenation of formic acid by Ir-bisMETAMORPhos complexes: experimental and computational insight into the role of a cooperative ligand.

Authors: Sander Oldenhof; Martin Lutz; Bas de Bruin; Jarl Ivar van der Vlugt; Joost N H Reek
Journal: Chem Sci Date: 2014-10-22 Impact factor: 9.825

2. Enzymatic and non-enzymatic pathways of kynurenines' dimerization: the molecular factors for oxidative stress development.

Authors: Aleksandr V Zhuravlev; Oleg V Vetrovoy; Elena V Savvateeva-Popova
Journal: PLoS Comput Biol Date: 2018-12-10 Impact factor: 4.475

3. pH-Dependent transfer hydrogenation or dihydrogen release catalyzed by a [(η⁶-arene)RuCl(κ²-N,N-dmobpy)]⁺ complex: a DFT mechanistic understanding.

Authors: Chenguang Luo; Longfei Li; Xin Yue; Pengjie Li; Lin Zhang; Zuoyin Yang; Min Pu; Zexing Cao; Ming Lei
Journal: RSC Adv Date: 2020-03-11 Impact factor: 4.036

Review 4. Recent Progress in Homogeneous Catalytic Dehydrogenation of Formic Acid.

Authors: Naoya Onishi; Ryoichi Kanega; Hajime Kawanami; Yuichiro Himeda
Journal: Molecules Date: 2022-01-11 Impact factor: 4.411