2015
DOI: 10.1039/c5dt01926e
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Kinetico-mechanistic studies on the formation of seven-membered [C,N]-platinacycles: the effect of methyl or fluoro substituents on the aryl ancillary ligands

Abstract: The reactions of dinuclear [Pt2(4-RC6H4)4(μ-SEt2)2] (R = Me or F), or mononuclear [Pt(4-RC6H4)2(SMe2)2] (R = Me or H), platinum(ii) compounds with imines of the general formula 2-X,6-YC6H3CH[double bond, length as m-dash]NCH2Ph (X = Br, Y = F; X = Cl, Y = F; X = Br, Y = H) produced seven-membered [C,N]-platinacycles. The reaction consists of the initial formation of cyclometallated platinum(iv) compounds followed by a three step process: reductive elimination, isomerisation of the resulting non-cyclometallated… Show more

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Cited by 9 publications
(11 citation statements)
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“…Platinum (II) complexes provide a useful platform for kinetic and mechanistic studies of fundamental oxidative addition reactions because of their relative inertness, high stability and availability of different oxidation states . Oxidative addition of C–X bonds to platinum (II) complexes is generally enthalpically favored and produces the corresponding platinum (IV) products normally proceeding through a S N 2 type mechanism in which the Pt (II) center acts as a nucleophile via the filled d z 2 orbital . However, a radical pathway as well as concerted three‐center mechanisms have also been suggested for oxidative addition reactions …”
Section: Introductionmentioning
confidence: 99%
“…Platinum (II) complexes provide a useful platform for kinetic and mechanistic studies of fundamental oxidative addition reactions because of their relative inertness, high stability and availability of different oxidation states . Oxidative addition of C–X bonds to platinum (II) complexes is generally enthalpically favored and produces the corresponding platinum (IV) products normally proceeding through a S N 2 type mechanism in which the Pt (II) center acts as a nucleophile via the filled d z 2 orbital . However, a radical pathway as well as concerted three‐center mechanisms have also been suggested for oxidative addition reactions …”
Section: Introductionmentioning
confidence: 99%
“…We have been involved in the use of diarylplatinum(II) complexes as precursors in the synthesis of [C,N,N′] cyclometallated platinum(II) and platinum(IV) compounds [38,39] and the study of the mechanisms involved in these processes [40][41][42]. The platinum(IV) compound 3a (Scheme 1), synthesized in previous studies [43], is a cyclometallated platinum(IV) compound with a fac-PtC3 arrangement and a meridional [C,N,N′] terdentate ligand, thus leaving one bromido and one aryl ring as axial ligands.…”
Section: Introductionmentioning
confidence: 99%
“…Among other explorations of reactivity preference, Pt­(II) complexes of a bidentate amine-imine ligand ( 8 ) with a dangling biphenyl group, generated by C–C reductive elimination from an aryl–Pt­(IV) precursor ( 7 ), undergo competing C–H activation of the proximal or distal arene ring to give five- or seven-membered metallacycles ( 9 , 10 ), respectively (Scheme ). A detailed study of kinetics led to understanding of the factors controlling product preference, including interconversion between the isomeric intermediates that are precursors to specific products. Some of the various five- and seven-membered metallacycles have been examined as possible antitumor agents, as well as for luminescence properties potentially relevant to OLED applications . The pyridylquinoline–Pt­(II) complex 11 undergoes “rollover” cyclometalation at room temperature; under certain conditions, 12 can be protonated at the free N without disturbing the Pt–methyl bond, but when the DMSO ligand is replaced with PPh 3 , “retro-rollover” takes place spontaneously (Scheme ).…”
Section: C–h Activation At Ptmentioning
confidence: 99%