Effect of Substituents on the Strength of A−Cl- (A = Si, Ge, and Sn) Bonds in Hypervalent Systems: ACl5-, ACl4F-, and A(CH3)3Cl2-

The gas-phase strengths of the A−Cl- bonds in ACl5-, ACl4F-, and A(CH3)3Cl2- (A = Si, Ge, and Sn) have been determined by measuring thresholds for collision-induced dissociation in a flowing afterglow-tandem mass spectrometer. Bond dissociation energies increase in the order Si < Ge < Sn. Replacement of the three equatorial chlorides with methyl groups weakens the bonds, while replacing one axial chloride with a fluoride strengthens the bonds. Computational results using the B3LYP model with several basis sets parallel the experimental periodic trends, but provide bond dissociation energies lower than experiment by 7−44 kJ mol-1. MP2 computational results are in better agreement with experiment. The results are consistent with steric hindrance and electrostatic effects playing significant roles in the bonding energetics.