C-H AND C-Cl ACTIVATION BY MONONUCLEAR AND DINUCLEAR PLATINUM COMPLEXES WITH 7-AZAINDOLYL-CONTAINING CHELATES

Since Shilov and coworkers [1] demonstrated the catalytic oxidation of CH 4 into CH 3 OH and CH 3 Cl, using a Pt(II) salt as a catalyst and stoichiometric amount of Pt(IV) species as an oxidant in an aqueous system, the direct and selective functionalization of hydrocarbons by late transition metal...

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Published in:Comments on modern chemistry. Part A, Comments on inorganic chemistry Comments on inorganic chemistry, 2004-01, Vol.25 (1-2), p.1-18
Main Authors: SONG, DATONG, WANG, SUNING
Format: Article
Language:English
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Summary:Since Shilov and coworkers [1] demonstrated the catalytic oxidation of CH 4 into CH 3 OH and CH 3 Cl, using a Pt(II) salt as a catalyst and stoichiometric amount of Pt(IV) species as an oxidant in an aqueous system, the direct and selective functionalization of hydrocarbons by late transition metal complexes has attracted much research effort due to their potential applications on the utilization of hydrocarbon resources from natural gas or petroleum. Much recent work on C-H activations involving Pt metal atoms has been concentrated on cationic mononuclear Pt(II) diimine compounds. This review describes the results from our group on C-H activations using Pt(II) complexes that contain a 7-azaindolyl chelate ligand capable of blocking one binding site of the Pt(II) center. We will focus on a dinuclear Pt(II) compound and its unique reactivity toward C-H bonds. For comparison purposes, related mononuclear Pt(II) compounds and their reactivity toward C-H bonds will also be described. To aid the understanding of the reactivity of the dinuclear Pt(II) compound with C-H bonds, we will also present the results of our investigation on the reaction of the same Pt 2 compound with C-Cl bonds. The potential use of the new Pt(II) compounds, especially the Pt 2 compound in selective C-H activation processes, will be discussed.
ISSN:0260-3594
1548-9574
DOI:10.1080/02603590490486653