Effect of substituents on the relative stability of furoxan isomers

The structures and relative stabilities of furoxan and some of its isomers, e.g., the 1,Z-dinitrosoethylenes, have been determined by means of ab initio Hartree-Fock and Mgller-Plesset calculations. Geometries were optimized at the HF/3-21G, HF/6-31G\* and MP2/6-31G\* levels, and subsequently used f

The unimolecular rearrangement of XSnBP (X ¼ H, Li, BeH, BH 2 , CH 3 , NH 2 , OH, and F) to Sn@PX is considered using B3LYP and QCISD calculations. The theoretical findings suggest that the doubly bonded Sn@PX molecule is intrinsically more stable than the triply bonded XSnBP species, regardless of

Si6H6( g) is treated as an equilibrium mixture of three isomers using recent advanced ab initio data. It is shown that equimolarity of hexasilaprismane with hexasilabenzene (lying 41 kJ/mol higher in potential energy) is reached at a temperature of 340 K while the third isomer (hexasila-Dewar benzen

Sunmary: Disubstituted phenalenyl cations undergo deuterium exchange in CF3SO30 by a mechanism that involves protonation of the ring to form carbodications. The effect of a variety of substituents on this process is reported.