Computational insights into the iron-catalyze d magnesium-me diate d hydroformylation of alkynes

TitleComputational insights into the iron-catalyze d magnesium-me diate d hydroformylation of alkynes
Publication TypeJournal Article
Year of Publication2023
AuthorsSharma, H, Tewari, T, Chikkali, SH, Vanka, K
JournalJournal of Organometallic Chemistry
Volume986
Pagination122621
Date PublishedFEB
Type of ArticleArticle
ISSN0022-328X
KeywordsComputational study, Ethylene Assisted Catalysis, EtMgBr Assistance, Explicit Role of Solvent, Hydroformylation, Iron Catalyst
Abstract

Iron is one of the most abundant transition metals in the earth's crust. It has attracted a lot of attention due to its low toxicity, bio-compatibility, and high natural abundance. Iron-catalyzed hydroamination, hydroalkoxylation, hydrocarboxylation, hydrosilylation, hydroboration, hydrophosphination, hydromagnesiation, and carbonylation reactions have therefore been developed over the past decades. However, despite many experimental and theoretical studies, a complete mechanistic understanding of iron-catalyzed hydrofunctionalisation at the molecular level has not yet been achieved. In this work, through density functional theory (DFT) calculations, we have shown the most feasible path for the hydroformylation of alkynes for an experimentally studied system. We have looked at the iron salt as a precatalyst without any external donor ligand, and the calculations revealed that hydrometalation followed by beta-hydride elimination was favorable over the direct migration of the beta-hydrogen to carbon. Furthermore, our calculations show that the solvent plays an important role in the hydromagnesiation reaction. Furthermore, we have employed an explicit solvent model, where the attachment of one molecule of solvent to the iron center was seen to stabilize the transition states significantly.(c) 2023 Elsevier B.V. All rights reserved.

DOI10.1016/j.jorganchem.2023.122621
Type of Journal (Indian or Foreign)

Foreign

Impact Factor (IF)

2.345

Divison category: 
Physical and Materials Chemistry
Polymer Science & Engineering
Database: 
Web of Science (WoS)

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