Quantitative evaluation of noncovalent interactions with negative fragmentation approach including basis set superposition error correction

Abstract

Abstract We propose a negative fragmentation approach (NFA), including counterpoise (CP) correction to basis set superposition error (BSSE) for quantitatively evaluating intra- and intermolecular noncovalent interactions. Noncovalent interactions are widely found in chemistry and biology and are regarded as essential interactions. However, there are few general methods for evaluating these individual intra- and intermolecular interaction energies because of two issues: (i) difficulty in the evaluation of intramolecular interactions due to the interacting sites connected with covalent bonds and (ii) BSSE affecting the quantitative accuracy of interaction analysis. In our scheme, we overcome the issue (i) using the NFA scheme, which can evaluate intra- and intermolecular interactions as a fragment–fragment interaction of interacting sites, and address the issue (ii) using the CP method. Here, NFA including the CP correction was applied to various molecular systems, providing comparable results for intermolecular interactions to supermolecule calculations with the CP correction and also succeeding in the evaluation of intramolecular interactions and its BSSEs. It is notable that our NFA scheme does not require any particular program or a modification of the program codes. These indicate that many researchers can apply our NFA scheme to various molecular systems.