Mean Value Ensemble Hubbard- U Correction for Spin-Crossover Molecules.

High-throughput searches for spin-crossover molecules require Hubbard- U corrections to common density functional exchange-correlation (XC) approximations. However, the U eff values obtained from linear response or based on previous studies overcorrect the spin-crossover energies. We demonstrate that employing a linearly mixed ensemble average spin state as the reference configuration for the linear response calculation of U eff resolves this issue. Validation on a commonly used set of spin-crossover complexes shows that these ensemble U eff values consistently are smaller than those calculated directly on a pure spin state, irrespective of whether that be low- or high-spin. Adiabatic crossover energies using this methodology for a generalized gradient approximation XC functional are closer to the expected target energy range than with conventional U eff values. Based on the observation that the U eff correction is similar for different complexes that share transition metals with the same oxidation state, we devise a set of recommended averaged U eff values for high-throughput calculations.