2 research outputs found
Anthryl-Substituted 3‑Silylene-2-silaaziridine Obtained by Isomerization of Disilacyclopropanimine: An Exocyclic Silene Showing a Distinct Intramolecular Charge Transfer Transition
An anthryl-substituted exocyclic
silene, 3-silylene-2-silaaziridine,
was synthesized by isomerization of the corresponding disilacyclopropanimine.
The UV–vis spectrum of the silene shows a distinct intramolecular
charge transfer (ICT) transition from the π orbital of the SiC
double bond to the π* orbital of the anthryl moiety. The relatively
high-lying Ï€Â(Siî—»C) orbital of the 3-silylene-2-silaaziridine
moiety and the low-lying π* orbital of the anthryl group would
be responsible for the distinct ICT band
Anthryl-Substituted 3‑Silylene-2-silaaziridine Obtained by Isomerization of Disilacyclopropanimine: An Exocyclic Silene Showing a Distinct Intramolecular Charge Transfer Transition
An anthryl-substituted exocyclic
silene, 3-silylene-2-silaaziridine,
was synthesized by isomerization of the corresponding disilacyclopropanimine.
The UV–vis spectrum of the silene shows a distinct intramolecular
charge transfer (ICT) transition from the π orbital of the SiC
double bond to the π* orbital of the anthryl moiety. The relatively
high-lying Ï€Â(Siî—»C) orbital of the 3-silylene-2-silaaziridine
moiety and the low-lying π* orbital of the anthryl group would
be responsible for the distinct ICT band