Abstract

The structural properties and inversion barriers of the pnictogens (NC-XY 2; X = N or P, Y = H, F, Cl or Br) were obtained through ab initio SCF and CI techniques using several basis sets. The geometries of the ground- and transition-state structures were fully optimized at the SCF level, and CISD calculations were performed on the SCF optimum geometries. All molecules have a pyramidal ground state of symmetry 1A'( C s), and have a bent molecular spine, the angle NCX deviating from linearity by about 5°. For the phosphorous halocyanamides (NC-PX 2) two transition structures were detected, the traditional trigonal planar structure and a T-shaped one, both of C 2v symmetry. An attempt was made to rationalize our findings by employing the state characteristics of the CN and XY 2 fragments.

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