Artificial Intelligence-Driven Optimization of Gaussian Orbital Expansions via Evolutionary Computing: Applications to Confined Atoms and Molecules

doi:10.1002/cphc.202500107

. 2025 Aug 13:e2500107.

doi: 10.1002/cphc.202500107. Online ahead of print.

Artificial Intelligence-Driven Optimization of Gaussian Orbital Expansions via Evolutionary Computing: Applications to Confined Atoms and Molecules

Victor García¹, Manuel Fernández¹

Affiliations

PMID: 40802837
DOI: 10.1002/cphc.202500107

Artificial Intelligence-Driven Optimization of Gaussian Orbital Expansions via Evolutionary Computing: Applications to Confined Atoms and Molecules

Victor García et al. Chemphyschem. 2025.

. 2025 Aug 13:e2500107.

doi: 10.1002/cphc.202500107. Online ahead of print.

Authors

Victor García¹, Manuel Fernández¹

Affiliation

¹ Departamento de Química-Física, Facultad de Ciencias, Campus Universitario Río San Pedro, Universidad de Cádiz, 11510, Puerto Real, Cádiz, Spain.

PMID: 40802837
DOI: 10.1002/cphc.202500107

Abstract

Two artificial intelligence techniques, genetic algorithms and differential evolution, are applied to generate Gaussian expansions (φ-nG) for both free and sphere-confined atomic orbitals. A program (UCA-GSS-GA) is developed to enable the efficient calculation of these expansions. The accuracy of the obtained expansions is analyzed, and they are used to significantly refine self-consistent reaction field models for solvent effects. The orbitals, atoms, and molecules analyzed include some of the simplest systems (1s, H, H₂, and CH₄). However, the developed program is capable of handling all types of molecules and solvents.

Keywords: Gaussian orbital expansions; confined molecules; genetic algorithms; self‐consistent reaction field; simplified box orbitals.

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References

1. R. F. Stewart, J. Chem. Phys. 1970, 52, 431.
1. W. J. Hehre, R. F. Stewart, J. A. Pople, J. Chem. Phys. 1969, 51, 2657.
1. V. García, D. Zorrilla, M. Fernández, Int. J. Quantum Chem. 2013, 113, 2172.
1. J. Sánchez‐Márquez, V. García, D. Zorrilla, M. Fernández, J. Comput. Aided. Mol. Des. 2020, 34, 267.
1. D. Zorrilla, V. García, M. F. Jesús Sánchez‐Márquez, J. Mol. Model. 2017, 23, 165.

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Universidad de Cádiz

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[1] R. F. Stewart, J. Chem. Phys. 1970, 52, 431.

[2] R. F. Stewart, J. Chem. Phys. 1970, 52, 431.

[3] W. J. Hehre, R. F. Stewart, J. A. Pople, J. Chem. Phys. 1969, 51, 2657.

[4] W. J. Hehre, R. F. Stewart, J. A. Pople, J. Chem. Phys. 1969, 51, 2657.

[5] V. García, D. Zorrilla, M. Fernández, Int. J. Quantum Chem. 2013, 113, 2172.

[6] V. García, D. Zorrilla, M. Fernández, Int. J. Quantum Chem. 2013, 113, 2172.

[7] J. Sánchez‐Márquez, V. García, D. Zorrilla, M. Fernández, J. Comput. Aided. Mol. Des. 2020, 34, 267.

[8] J. Sánchez‐Márquez, V. García, D. Zorrilla, M. Fernández, J. Comput. Aided. Mol. Des. 2020, 34, 267.

[9] D. Zorrilla, V. García, M. F. Jesús Sánchez‐Márquez, J. Mol. Model. 2017, 23, 165.

[10] D. Zorrilla, V. García, M. F. Jesús Sánchez‐Márquez, J. Mol. Model. 2017, 23, 165.

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Artificial Intelligence-Driven Optimization of Gaussian Orbital Expansions via Evolutionary Computing: Applications to Confined Atoms and Molecules

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Artificial Intelligence-Driven Optimization of Gaussian Orbital Expansions via Evolutionary Computing: Applications to Confined Atoms and Molecules

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Abstract

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