CALCULATED AND MEASURED DOUBLE-IONIZATION ENERGIES OF ACETONITRILE TO SINGLET AND TRIPLET ELECTRONIC STATES OF THE DOUBLY CHARGED ION

Abstract Double-ionization energies of acetonitrile (methyl cyanide) to singlet and triplet electronic states of the dication were measured and calculated. In the experimental part of the investigation, double-electron-capture reactions of fast-moving singly charged positive ions with acetonitrile molecules were investigated. Double-ionization energies were determined from the translational energies of the negative ions generated. Because of spin conservation in the reactions, triplet states of CH 3 CN 2 + were populated when using OH + projectile ions, and singlet states when using H + projectile ions. The double-ionization energies measured were compared with values calculated using two different computational methods. Ab initio MP2J3-21G predictions of the double-ionization energies to the lowest singlet and triplet states agreed well with the measured values of 34.3 ± 0.2 and 33.3 ± 0.3 eV, respectively. Double-ionization energies to higher-lying states were calculated using an ab initio Green's function method. In general, the theoretically predicted results agreed well with those measured, thus identifying the electronic transitions which take place in the double-electron-capture reactions.