Activation of a Hydroamination Gold Catalyst by Oxidation of a Redox-Noninnocent Chlorostibine Z‑Ligand

In search of new platforms that support redox-controlled catalysis, we have investigated the noninnocent behavior of chlorostibine ligands coordinated to gold. The gold chlorostibine complex ((o-(Ph2P)­C6H4)2SbCl)­AuCl (1-Cl) undergoes a clean oxidation reaction on treatment with PhICl2. This oxidat...

Full description

Saved in:
Bibliographic Details
Published in:Journal of the American Chemical Society 2015-10, Vol.137 (41), p.13425-13432
Main Authors: Yang, Haifeng, Gabbaı̈, François P
Format: Article
Language:English
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:In search of new platforms that support redox-controlled catalysis, we have investigated the noninnocent behavior of chlorostibine ligands coordinated to gold. The gold chlorostibine complex ((o-(Ph2P)­C6H4)2SbCl)­AuCl (1-Cl) undergoes a clean oxidation reaction on treatment with PhICl2. This oxidation reaction affords the corresponding trichlorostiborane complex ((o-(Ph2P)­C6H4)2SbCl3)­AuCl (2-Cl), which can be converted into the more tractable trifluoride analogue ((o-(Ph2P)­C6H4)2SbF3)­AuCl (3-Cl) by treatment with a fluoride source. As supported by experimental and computational results, these complexes possess a Au→Sb donor–acceptor interaction which is distinctly stronger in the oxidized complexes 2-Cl and 3-Cl. Both 1-Cl and 3-Cl undergo a clean chloride abstraction reaction to afford the corresponding cationic gold species [((o-(Ph2P)­C6H4)2SbCl)­Au]+ ([1]+) and [((o-(Ph2P)­C6H4)2SbF3)­Au]+ ([3]+), which have been isolated as SbF6 – salts. As a result of a stronger Au→Sb interaction, cation [3]+ features a more Lewis acidic gold center. It forms an isolable water adduct and also activates terminal alkynes toward hydroamination with arylamines. These results demonstrate that the redox state of noninnocent Z-ligands can be used to control the catalytic activity of the adjoining metal center.
ISSN:0002-7863
1520-5126
DOI:10.1021/jacs.5b07998