On the Nature of Chemical Bond: Space Enfoldings, Density Bond Matrices, Quantum Molecular Polyhedra, and a Collective Bond Description Proposal
Keywords:
LCAO-MO, chemical bond, enfolded spaces, basis sets, collective chemical bonds, first order density function, density bond matrix, quantum molecular polyhedra, bond comparisonAbstract
The nature of the quantum mechanical LCAO-MO Mulliken-like description is analyzed in light of constructing basis function enfolded spaces. As a result, the concept of the chemical bond can transform into a collective functional structure, where one considers the whole set of molecular atoms plus enfolding centers as bearing the chemical bond in various collective forms. Such an endeavor permits the discussion of many collateral subjects like density bond matrices, polyatomic bonds, quantum molecular polyhedra, and bond comparisons.
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Published
2025-04-27
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(1)
Carbó-Dorca , R.; Chakraborty, T. On the Nature of Chemical Bond: Space Enfoldings, Density Bond Matrices, Quantum Molecular Polyhedra, and a Collective Bond Description Proposal. Sci. Insights 2025, 1, 2.
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Computer Science and Mathematics
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Copyright (c) 2025 Ramon Carbó-Dorca, et al.
This work is licensed under a Creative Commons Attribution 4.0 International License.