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Antimony Redox Catalysis: Hydroboration of Disulfides through Unique Sb(I)/Sb(III) Redox Cycling

Minghao Huang, Kunlong Li, Zichen Zhang, Jiliang Zhou

2024Journal of the American Chemical Society29 citationsDOI

Abstract

The stibinidene ArSb I (Ar = [2,6-( t BuN═CH) 2 -C 6 H 3 ], 1 ) reacts with S 2 Tol 2 (Tol = p -tolyl) to form ArSb III (STol) 2 ( 2 ), which upon treatment with pinacolborane, regenerates 1 . These processes unveil an unprecedented antimony redox catalysis involving Sb(I)/Sb(III) cycling for the hydroboration of organic disulfides. Elementary reaction studies and density functional theory calculations support that the catalysis mimics transition metal processes, proceeding through oxidative addition, ligand metathesis, and reductive elimination. The thiophenols and sulfidoborates generated from the hydroboration of disulfides react in situ with α,β -unsaturated carbonyl compounds with the assistance of 1 as a base catalyst. These tandem reactions establish a one-pot synthetic method for β-sulfido carbonyl compounds, in which a stibinidene functions as a redox catalyst and a base catalyst successively, illustrating the versatility and efficiency of antimony catalysis in organic synthesis.

Topics & Concepts

ChemistryAntimonyHydroborationRedoxCatalysisInorganic chemistryCyclingOrganic chemistryHistoryArchaeologyChemical Synthesis and ReactionsSulfur-Based Synthesis TechniquesOrganoboron and organosilicon chemistry
Antimony Redox Catalysis: Hydroboration of Disulfides through Unique Sb(I)/Sb(III) Redox Cycling | Litcius