Carbon-Hydrogen Bond Activation in Hydridotris(pyrazolyl)borate Platinum(IV) Complexes: Comparison of Density Functionals, Basis Sets, and Bonding Patterns. Academic Article uri icon

abstract

  • The reaction mechanism for the cycle beginning with the reductive elimination (RE) of methane from (3)-TpPt(IV)(CH3)2H (1) (Tp = hydridotris(pyrazolyl)borate) and subsequent oxidative addition (OA) of benzene to form finally (3)-TpPt(IV)(Ph)2H (19) was investigated by density functional theory (DFT). Two mechanistic steps are of particular interest, namely the barrier to C-H coupling (barrier 1 - Ba1) and the barrier to methane release (barrier 2 - Ba2). For 31 density functionals, the calculated values for Ba1 and Ba2 were benchmarked against the experimentally reported values of 26 (Ba1) and 35 (Ba2) kcalmol(-1), respectively. Specifically, the values for Ba1 and Ba2, calculated at the B3LYP/double- plus polarization level of theory, are 24.6 and 34.3 kcalmol(-1), respectively. Overall, the best performing functional was BPW91 where the mae associated with the calculated values of the two barriers is 0.68 kcalmol(-1). The calculated B3LYP values of Ba1 ranged between 20 and 26 kcalmol(-1) for 12 effective core potential basis sets for platinum and 29 all-electron basis sets for the first row elements. Polarization functions for the first row elements were important for accurate values, but the addition of diffuse functions to non-hydrogen (+) and hydrogen atoms (++) had little effect on the calculated values. Basis set saturation was achieved with APNO basis sets utilized for first-row atoms. Bader's "Atoms in Molecules" was used to analyze the electron density of several complexes, and the electron density at the Pt-Nax bond critical point (trans to the active site for C-H coupling) varied over a wider range than any of the other Pt-N bonds.

published proceedings

  • J Chem Theory Comput

author list (cited authors)

  • Vastine, B. A., Webster, C. E., & Hall, M. B.

citation count

  • 13

complete list of authors

  • Vastine, Benjamin Alan||Webster, Charles Edwin||Hall, Michael B

publication date

  • November 2007