PHOTOELECTRON SPECTROSCOPY OF M-XYLYLENE ANION

The 351-nm photoelectron spectrum of the negative ion of 1,3-benzoquinodimethane (m-xylylene) is reported. Features are observed in the photoelectron spectrum corresponding to formation of the 3 B2, 1 A1, and 1 B2 states of m-xylylene. The electron affinity of the triplet ground state is found to be 0.919 ( 0.008 eV, and vibrational frequencies of 290, 540, and 1500 cm -1 are obtained. The active modes are assigned to R-carbon bending, ring deformation, and methylene bending, respectively. The 1 A1 state is found to lie 9.6 ( 0.2 kcal/mol higher in energy than the ground state, in good agreement with theoretical predictions. Vibrational frequencies of 265, 1000, and 1265 cm-1 are found for this state. The 1B2 is estimated to be <21.5 kcal/mol higher in energy than the ground state. Density functional calculations have been carried out on the negative ion, indicating that the 2 B1 ion is a minimum on the potential energy surface, lying 2.9 kcal/mol lower in energy than the 2 A2 ion, which is a transition state.