NICKEL TETRACARBONYL, NI(CO)4 .1. MOLECULAR-STRUCTURE BY GASEOUS ELECTRON-DIFFRACTION .2. REFINEMENT OF QUADRATIC FORCE-FIELD

The molecular structure of gaseous nickel tetracarbonyl has been investigated by electron diffraction at room temperature. The analysis, based on an assumed Td molecular symmetry with corrections for the effects of vibrational motion, led to the following bond distances (rg) and amplitudes of vibration (l) with estimated uncertainties (2σ), all in angstroms: r(C=0) = 1.141(2), r(Ni-C) = 1.838(2), l(C=O)= 0.039(2), l(Ni-C) = 0.059(3), l(Ni⋯O) = 0.061(3), l(C⋯C) = 0.124(17), l(C⋯O) =0.176(1 l)and l(O⋯O) = 0.244(34). The quadratic force field was refined using our structure and vibrational wave numbers from the literature in order to permit calculation of the distance corrections arising from vibrational averaging. The force constants are generally very similar to those from a previous spectroscopic study. © 1979 American Institute of Physics.