Journal ArticleDOI
Bonded-atom fragments for describing molecular charge densities
TLDR
In this article, a general and natural choice is to share the charge density at each point among the several atoms in proportion to their free-atom densities at the corresponding distances from the nuclei.Abstract:
For quantitative description of a molecular charge distribution it is convenient to dissect the molecule into well-defined atomic fragments. A general and natural choice is to share the charge density at each point among the several atoms in proportion to their free-atom densities at the corresponding distances from the nuclei. This prescription yields well-localized bonded-atom distributions each of which closely resembles the molecular density in its vicinity. Integration of the atomic deformation densities — bonded minus free atoms — defines net atomic charges and multipole moments which concisely summarize the molecular charge reorganization. They permit calculation of the external electrostatic potential and of the interaction energy between molecules or between parts of the same molecule. Sample results for several molecules indicate a high transferability of net atomic charges and moments.read more
Citations
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Unleashing the Quadratic Nonlinear Optical Responses of Graphene by Confining White-Graphene (h-BN) Sections in Its Framework
TL;DR: It is shown that by controlling the shape, size, and covering area of the h-BN domain (or domains), one can effectively regulate "à volonté" both the magnitudes and types of the second order NLO responses switching from dipolar to octupolar and vice versa.
Journal ArticleDOI
Quantitative crystal structure analysis of fluorinated porphyrins
TL;DR: In this article, a series of fluorinated porphyrins, 5,10,15,20-tetrakis(2′,6′-difluorophenyl)porphyrin, MT(2.6, 6′-DFP)P and Zn(II)·(THF) 3, 5 have been structurally characterized by single crystal X-ray diffraction analysis.
Journal ArticleDOI
Predicting molecular dipole moments by combining atomic partial charges and atomic dipoles.
TL;DR: In this paper, a physically inspired machine learning model was proposed to represent the molecular dipole moment (μ) with a physically-inspired ML model that captures two distinct physical effects: local atomic polarization is captured within the symmetry-adapted Gaussian process regression framework, while the movement of charge across the entire molecule is captured by assigning a partial (scalar) charge to each atom.
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Aromaticity measures from fuzzy-atom bond orders (FBO). The aromatic fluctuation (FLU) and the para-delocalization (PDI) indexes.
TL;DR: FLU and PDI based on FBO are shown to be both good aromaticity indexes and almost basis-set-independent measures and opens up a wide range of possibilities for PDI and FLU to also be calculated on large organic systems.
Journal ArticleDOI
Bridging Hydroxyl Groups in Faujasite: Periodic vs Cluster Density Functional Calculations
TL;DR: In this paper, the same functionals used for the periodic calculations have been employed in calculations on model clusters, and it is shown that clusters provide a qualitative as opposed to a quantitative description of these systems.
References
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Journal ArticleDOI
Electronic Structures of Molecules XI. Electroaffinity, Molecular Orbitals and Dipole Moments
TL;DR: In this article, the authors show how electroaffinity and other data can be used in the approximate determination of the polarities of molecular orbitals and so of bonds, the results being expressed both in terms of coefficients in LCAO molecular orbits and the effective charges transferred.
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Properties of atoms in molecules. I. Proposed definition of the charge on an atom in a molecule
Peter Politzer,Roger R. Harris +1 more
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Analysis of Charge Distributions: Hydrogen Fluoride
C. W. Kern,Martin Karplus +1 more
TL;DR: In this article, a series of single-determinant SCF-LCAO-MO wavefunctions were used to study the changes that occur in the electron density as the Hartree-Fock solution is approached.