Due to the ring strain and Lewis acid character, silacyclobutanes and silacyclobutenes can undergo ring expansion reactions to afford five-and six-membered silacycles, or ring opening to give organosilicon molecules and materials as well as fulfill organic transformations under very mild conditions.

The reaction mechanism of the decomposition of silacyclobutane to silylene and propene is studied by MNDO semiempirical method.

Silacyclobutenes with one silicon atom in the ring can be synthesized by Si-C bond forming ring-closure mediated by organolithium or Grignard reagents, conversion of silacyclobutanes, insertion of silylene into C—H bond, cycloaddition of Si=C bond containing species with alkynes, and intramolecular cyclization of bis(alkynyl)silanes.

The isomerization of singlet silacyclopropene has been studied by using MP2 method of quantum chemistry with 6 - 31G(d) basis set.

Treatment of N-heterocyclic silylene Si[N(tBu)CH]_2 and [(η~3-C_3H_5)PdCl]_2 in toluene led to the formation of mononuclear complex (η~3-C_3H_5)Pd{Si[N(tBu)CH]_2}Cl, the silicon analogue to N-heterocyclic carbene complex (η~3-C_3H_5)Pd{C[N(tBu)CH]_2}Cl.

A variety of silacyclohexane,silacyclohexene and silacyclohexadiene derivatives are readily accessible by these transformations.