Zur Deutung des Einflusses von Siliziumsubstituenten auf das Spektrum konjugierter Kohlenwasserstoffe

All-electron SCF MO LCAO computations for vinyl silane and propene with Gaussian functions showed that silicon d-functions are unimportant for building up the ground state wave function for the silicon compound. These d-functions participate in building up the first excited orbital of vinyl silane. but their influence cannot fully explain the observed differences in the spectra of vinyl silane and propene. The calculations showed hyperconjugation to be an important factor in these molecules and in part responsible for the observed spectral effects.     

Butadienyloxiran-Dihydrooxepin-Isomerisierung. Ringerweiterungsreaktionen von sterisch fixierten und benzoanellierten Epoxyhexadienen durch 1,7-Elektrocyclisierung konjugierter Carbonyl-Ylide

Butadienyloxirane-Dihydrooxepine Isomerisation. Ring Expansion Reactions of Sterically Fixed and Benzoannelated Epoxyhexadienes by 1,7-Electrocyclisation of Conjugated Carbonyl Ylides Thermal ring cleavage of specifically substituted oxiranes results in the formation of conjugated carbonyl ylide intermediates which react by 1,5- and/or 1,7-electrocyclisation to give ring-expanded products. While the spirooxiranes 5t, 6t , and 12t are transformed, as expected, only into 2,3-dihydrofurans ( 21, 22, 50 ), the geometrically fixed compounds give rise to the formation of seven-membered ring isomers either partially ( 6c ), or predominantly ( 5c ), or exclusively ( 7 – 11, 12c ). 1,7-Dipolar cyclisations also take place with participation of one or even two aromatic double bonds ( 7 → 52, 8 → 53, 9 → 54, 12c → 57 , and 10 → 55, 11 → 56 , resp.) affording mono- and dibenzo-dihydrooxepines, respectively. The rearrangements of 5c to 27 and 6c to 28 show for the first time that the 8π-ring closure of 2-oxaheptatrienyl dipoles proceeds in the theoretically predicted conrotatory manner. The exclusive, i.e. periselective formation of dihydrooxepines during the thermolysis of compounds 7 – 11, 12c is explained by assuming a helical geometry of the dipolar intermediates in which the stereoelectronic situation is specially suitable for the – entropically less advantageous – 1,7-cyclisation process.     

Kohlenwasserstoffe und sauerstoffhaltige Verbindungen

Ohne Zusammenfassung     

Die Trennung einiger leichter Kohlenwasserstoffe durch Adsorptions-Gaschromatographie

Ohne Zusammenfassung