Litcius/Paper detail

Elaborated thermochemical treatment of HF, CO, N2, and H2O: Insight into HEAT and its extensions

James H. Thorpe, Josie L. Kilburn, David Feller, P. Bryan Changala, David H. Bross, Branko Ruščić, John F. Stanton

2021The Journal of Chemical Physics38 citationsDOIOpen Access PDF

Abstract

Empirical, highly accurate non-relativistic electronic total atomization energies (eTAEs) are established by combining experimental or computationally converged treatments of the nuclear motion and relativistic contributions with the total atomization energies of HF, CO, N2, and H2O obtained from the Active Thermochemical Tables. These eTAEs, which have estimated (2σ) uncertainties of less than 10 cm−1 (0.12 kJ mol−1), form the basis for an analysis of high-level ab initio quantum chemical calculations that aim at reproducing these eTAEs for the title molecules. The results are then employed to analyze the performance of the high-accuracy extrapolated ab initio thermochemistry, or High-Accuracy Extrapolated Ab Initio Thermochemistry (HEAT), family of theoretical methods. The method known as HEAT-345(Q), in particular, is found to benefit from fortuitous error cancellation between its treatment of the zero-point energy, extrapolation errors in the Hartree-Fock and coupled cluster contributions, neglect of post-(T) core-correlation, and the basis-set error involved in higher-level correlation corrections. In addition to shedding light on a longstanding curiosity of the HEAT protocol—where the cheapest HEAT-345(Q) performs comparably to the theoretically more complete HEAT-456QP procedure—this study lays the foundation for extended HEAT variants that offer substantial improvements in accuracy relative to the established approaches.

Topics & Concepts

ThermochemistryExtrapolationAb initioChemistryStandard enthalpy of formationCoupled clusterThermodynamicsBasis setHeat capacityAb initio quantum chemistry methodsComputational chemistryAtomic physicsMoleculePhysicsPhysical chemistryDensity functional theoryMathematicsStatisticsOrganic chemistryAdvanced Chemical Physics StudiesChemical Thermodynamics and Molecular StructureAtmospheric chemistry and aerosols