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An efficient method by combining different basis sets and SAPT levels.

Zhihao Deng1, Chang Liu1, Zhongwei Li2

  • 1Beijing StoneWise Technology Co Ltd., Beijing, China.

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|May 4, 2024
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We developed efficient computational methods for large molecular complexes, improving non-covalent interaction (NCI) predictions. These methods offer accuracy comparable to gold standards with significantly reduced computational cost.

Keywords:
SAPTnon‐covalent interactions

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Area of Science:

  • Computational Chemistry
  • Quantum Chemistry
  • Molecular Interactions

Background:

  • Accurate calculation of non-covalent interactions (NCI) for large molecular systems (>50 atoms) using symmetry-adapted perturbation theory (SAPT) is computationally expensive with large basis sets.
  • Smaller basis sets often lead to inaccurate predictions of dispersion forces and total interaction energies in NCI calculations.

Purpose of the Study:

  • To develop computationally efficient yet accurate methods for calculating NCIs in large molecular complexes.
  • To improve the prediction of dispersion energies and overall interaction energies compared to standard SAPT approaches.

Main Methods:

  • Proposed two composite methods combining SAPT2 calculations with different basis sets (aug-cc-pVDZ and aug-cc-pVTZ) as baselines.
  • Incorporated dispersion term corrections at the SAPT2+ level using bond functions and smaller basis sets with MP2 corrections.

Main Results:

  • Evaluated methods on benchmark NCI datasets (S22, S66).
  • Demonstrated significant improvements in accuracy compared to the original SAPT Silver standard.
  • Achieved accuracy comparable to the SAPT Gold standard in certain cases.

Conclusions:

  • The proposed composite methods offer a substantial improvement in the accuracy of NCI calculations for large systems.
  • These methods provide a computationally feasible alternative to traditional approaches, maintaining high accuracy with reduced cost.