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The significance of fluctuating charges for molecular polarizability and dispersion coefficients

YingXing Cheng (UGent) and Toon Verstraelen (UGent)
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Abstract
The influence of fluctuating charges or charge flow on the dynamic linear response properties of isolated molecules from the TS42 database is evaluated, with particular emphasis on dipole polarizability and C6 dispersion coefficients. Two new descriptors are defined to quantify the charge-flow contribution to response properties, making use of the recoupled dipole polarizability to separate isotropic and anisotropic components. Molecular polarizabilities are calculated using the “frequency-dependent atom-condensed Kohn–Sham density functional theory approximated to second order,” i.e., the ACKS2ω model. With ACKS2ω, the charge-flow contribution can be constructed in two conceptually distinct ways that appear to yield compatible results. The charge-flow contribution is significantly affected by molecular geometry and the presence of polarizable bonds, in line with previous studies. We show that the charge-flow contribution qualitatively reproduces the polarizability anisotropy. The contribution to the anisotropic C6 coefficients is less pronounced but cannot be neglected. The effect of fluctuating charges is only negligible for small molecules with at most one non-hydrogen atom. They become important and sometimes dominant for larger molecules or when highly polarizable bonds are present, such as conjugated, double, or triple bonds. Charge flow contributions cannot be explained in terms of individual atomic properties because they are affected by non-local features such as chemical bonding and geometry. Therefore, polarizable force fields and dispersion models can benefit from the explicit modeling of charge flow.
Keywords
Physical and Theoretical Chemistry, General Physics and Astronomy

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MLA
Cheng, YingXing, and Toon Verstraelen. “The Significance of Fluctuating Charges for Molecular Polarizability and Dispersion Coefficients.” JOURNAL OF CHEMICAL PHYSICS, vol. 159, no. 9, 2023, doi:10.1063/5.0163842.
APA
Cheng, Y., & Verstraelen, T. (2023). The significance of fluctuating charges for molecular polarizability and dispersion coefficients. JOURNAL OF CHEMICAL PHYSICS, 159(9). https://doi.org/10.1063/5.0163842
Chicago author-date
Cheng, YingXing, and Toon Verstraelen. 2023. “The Significance of Fluctuating Charges for Molecular Polarizability and Dispersion Coefficients.” JOURNAL OF CHEMICAL PHYSICS 159 (9). https://doi.org/10.1063/5.0163842.
Chicago author-date (all authors)
Cheng, YingXing, and Toon Verstraelen. 2023. “The Significance of Fluctuating Charges for Molecular Polarizability and Dispersion Coefficients.” JOURNAL OF CHEMICAL PHYSICS 159 (9). doi:10.1063/5.0163842.
Vancouver
1.
Cheng Y, Verstraelen T. The significance of fluctuating charges for molecular polarizability and dispersion coefficients. JOURNAL OF CHEMICAL PHYSICS. 2023;159(9).
IEEE
[1]
Y. Cheng and T. Verstraelen, “The significance of fluctuating charges for molecular polarizability and dispersion coefficients,” JOURNAL OF CHEMICAL PHYSICS, vol. 159, no. 9, 2023.
@article{01HA2B64G77CXQGP3SB4QWZSZZ,
  abstract     = {{The influence of fluctuating charges or charge flow on the dynamic linear response properties of isolated molecules from the TS42 database is evaluated, with particular emphasis on dipole polarizability and C6 dispersion coefficients. Two new descriptors are defined to quantify the charge-flow contribution to response properties, making use of the recoupled dipole polarizability to separate isotropic and anisotropic components. Molecular polarizabilities are calculated using the “frequency-dependent atom-condensed Kohn–Sham density functional theory approximated to second order,” i.e., the ACKS2ω model. With ACKS2ω, the charge-flow contribution can be constructed in two conceptually distinct ways that appear to yield compatible results. The charge-flow contribution is significantly affected by molecular geometry and the presence of polarizable bonds, in line with previous studies. We show that the charge-flow contribution qualitatively reproduces the polarizability anisotropy. The contribution to the anisotropic C6 coefficients is less pronounced but cannot be neglected. The effect of fluctuating charges is only negligible for small molecules with at most one non-hydrogen atom. They become important and sometimes dominant for larger molecules or when highly polarizable bonds are present, such as conjugated, double, or triple bonds. Charge flow contributions cannot be explained in terms of individual atomic properties because they are affected by non-local features such as chemical bonding and geometry. Therefore, polarizable force fields and dispersion models can benefit from the explicit modeling of charge flow.}},
  articleno    = {{094111}},
  author       = {{Cheng, YingXing and Verstraelen, Toon}},
  issn         = {{0021-9606}},
  journal      = {{JOURNAL OF CHEMICAL PHYSICS}},
  keywords     = {{Physical and Theoretical Chemistry,General Physics and Astronomy}},
  language     = {{eng}},
  number       = {{9}},
  pages        = {{39}},
  title        = {{The significance of fluctuating charges for molecular polarizability and dispersion coefficients}},
  url          = {{http://doi.org/10.1063/5.0163842}},
  volume       = {{159}},
  year         = {{2023}},
}

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