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Cluster-in-Molecule Approach with Explicitly Correlated Methods for Large Molecules

Yuqi Wang, Yang Guo, Frank Neese, Edward F. Valeev, Wei Li, Shuhua Li

2023Journal of Chemical Theory and Computation11 citationsDOI

Abstract

In this article, we present a series of explicitly correlated local correlation methods developed under the cluster-in-molecule (CIM) framework, including explicitly correlated second-order Møller–Plesset perturbation (MP2), coupled-cluster singles and doubles (CCSD), domain-based local pair natural orbital CCSD (DLPNO-CCSD), and DLPNO-CCSD with perturbative triples (DLPNO-CCSD(T)). In these methods, F12 correction is decomposed into contributions from each occupied local molecular orbital and then evaluated independently in a given cluster, which consists of a subset of localized orbitals. These newly developed methods allow F12 calculations of large molecules (up to 145 atoms for quasi-one-dimensional systems) on a single node. We use these methods to investigate the relative stability between extended and folded alkane C 30 H 62, the relative stability of four secondary structures of a polyglycine Ace(Gly) 10 NH 2, and the binding energies of two host–guest complexes. The results demonstrate that the combination of CIM with F12 methods is a promising way to investigate large molecules with small basis set errors.

Topics & Concepts

Coupled clusterAtomic orbitalPerturbation theory (quantum mechanics)Cluster (spacecraft)MoleculePerturbation (astronomy)PhysicsBasis setChemistryComputational chemistryStatistical physicsDensity functional theoryComputer scienceQuantum mechanicsElectronProgramming languageAdvanced Chemical Physics StudiesCrystallography and molecular interactionsInorganic Fluorides and Related Compounds
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