Abstract
We describe the redox behaviour in non-aqueous solvents of some cyclopentadienyl(oxo)titanium derivatives. The derivative [Ti4{η5-C5H4(SiMe3)}4(μ-O)6] shows an electrochemically and chemically reversible le reduction process, followed by a multi-electron, chemically complicated reduction at a fairly cathodic potential. On the basis of the overall electrochemical features and the comparison with the redox behaviour of the quasi-planar compound [[Ti{η5-C5H4(SiMe3)}Cl(μ-O)]4], we propose an EECCEE mechanism for the first derivative, where the second electron-transfer induces a cascade of chemical reactions giving rise to irreversible cluster breakdown. The electrochemically induced fragmentation can be viewed as a retrosynthetic pathway. The heterometallic derivative [{Ti(η5-C5H4Me)2(μ2-MoO4)2}2] shows two consecutive reduction processes; the first is chemically reversible, and the second quasi-reversible. The molybdate bridges apparently increase the stability of the electrogenerated anions. However none of these poly-oxo clusters can be considered as good models of electron 'sinks'.
Lingua originale | Inglese |
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pagine (da-a) | 45-50 |
Numero di pagine | 6 |
Rivista | Journal of Organometallic Chemistry |
Volume | 510 |
Numero di pubblicazione | 1-2 |
DOI | |
Stato di pubblicazione | Pubblicato - 21 mar 1996 |
Pubblicato esternamente | Sì |