A wealth of structures for the Ge 2 H 2 + radical cation: comparison of theory and experiment.

Five structures of Ge 2 H 2 and Ge 2 H 2 + are investigated in this study. Optimized geometries at the CCSD(T)/cc-pwCVQZ-PP level of theory were obtained. Focal point analyses were performed on these optimized geometries to determine relative energies using the CCSD(T) method with polarized basis sets up to quintuple-zeta. Energy corrections include full T and pertubative (Q) coupled-cluster effects plus anharmonic corrections to the zero-point vibrational energy. Relative ordering in energy from lowest to highest of the five Ge 2 H 2 + structures is butterfly, germylidene, monobridged, trans , then linear. In neutral Ge 2 H 2 , the monobridged structure lies lower in energy than the germylidene structure. Fundamental vibrational frequencies and IR intensities were computed for the minima at the CCSD(T)/cc-pwCVTZ-PP level of theory to compare with experimental research. Partial atomic charges and natural bonding orbital analyses indicated that the positive charge of Ge 2 H 2 + is contained in the region of the Ge-Ge bond.