Abstract
Complexes of Re and Tc with 1,4,7-trithiacyclononane (9S3) differ from their later transition metal analogues in that their d6 form ([M(9S3)2]+) undergoes instantaneous C–S bond cleavage yielding ethene and [M(9S3)L]+ (L = SCH2CH2SCH2CH2S), a stable metal(III) thiolate complex, cleanly in aqueous solution. This contrast is interpreted as signifying increased π-back donation by Re and Tc, compared to later metals, into ligand C–S σ* orbitals. In order to validate this hypothesis within an established theoretical framework, and to compare the predicted relative C–S bond lability with relative experimental lability in a series of d6 analogues, extended Hückel theory (EHT) was used to investigate the bonding (M = Mo, Tc, Ru, Rh or Pd) while electrospray mass spectrometry (ES-MS) was used to compare ethene loss, in a series of analogous complexes (M = Tc, Re, Ru or Os). The C–S overlap populations were smaller for M = TcII and TcI than for later metal(II) analogues, and were smaller for TcI than for TcII. Fragment molecular orbitals corresponding to C–S σ* were more highly populated for M = TcII and TcI than for later analogues, and also more highly populated for TcI than for TcII. ES-MS showed that ethene loss from Tc/ReI and Tc/ReII complexes occurred at much lower energies than from the Ru/OsII analogues. EHT supports the hypothesis that C–S activation is caused by π-back donation into C–S σ* orbitals, and correctly predicts that ethene loss occurs more readily from rhenium and technetium d5 and especially d6 complexes than from later transition metal analogues.
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More From: Journal of the Chemical Society, Dalton Transactions
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