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Автор Horvat, Sonia M.
Автор Schiesser, Carl H.
Дата выпуска 2001
dc.description Ab initio molecular orbital calculations using a (valence) double-ζ pseudopotential basis set (DZP) with (MP2, QCISD) and without (SCFâ ) the inclusion of electron correlation predict that the transition states (5, 7) involved in homolytic (1,2)-translocation reactions of silyl (SiH3), germyl (GeH3) and stannyl (SnH3) groups between silicon and other group (IV) centres proceed via homolytic substitution mechanisms involving frontside attack at the heteroatom undergoing translocation. At the highest level of theory (CCSD(T)/aug-cc-pVDZ//MP2/aug-cc-pVDZ), an energy barrier (Î E<sup>â ¡</sup>) of 135.9 kJ mol<sup>â 1</sup> is calculated for the translocation of SiH3 between silicon centres; this value is 143.8 kJ mol<sup>â 1</sup> at the CCSD(T)/DZP//MP2/DZP level. Similar results are obtained at the CCSD(T)/DZP//MP2/DZP level of theory for reactions involving germanium and tin with values of Î E<sup>â ¡</sup> of 146.5 and 129.1 kJ mol<sup>â 1</sup> respectively for the rearrangements of trigermapropyl and tristannapropyl radicals respectively. These data strongly suggest that homolytic (1,2)-translocation reactions are unlikely to be involved in the free-radical degradation of polysilanes, polygermanes and polystannanes. CCSD(T)/DZP//MP2/DZP calculated energy barriers associated with mixed systems range from 108.1 kJ mol<sup>â 1</sup> for the (1,2)-translocation of SnH3 from tin to silicon, to 181.0 kJ mol<sup>â 1</sup> for the similar migration of SiH3 from silicon to tin. The mechanistic implications of these observations are discussed.
Формат application.pdf
Издатель Royal Society of Chemistry
Название Polysilane and related radical rearrangements: an ab initio study of (1,2)-silyl, germyl and stannyl translocations in radicals derived from trisilanes and related species†
Тип research-article
DOI 10.1039/b100162k
Electronic ISSN 1364-5471
Print ISSN 0300-9580
Журнал Journal of the Chemical Society, Perkin Transactions 2
Первая страница 939
Последняя страница 945
Аффилиация Horvat Sonia M.; School of Chemistry, The University of Melbourne
Аффилиация Schiesser Carl H.; School of Chemistry, The University of Melbourne
Выпуск 6
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