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• W2022160107 abstract "The lattice energies (ΔE lat ) of α- and β-oxalic acid ((COOH) 2 ) have been calculated using a recently introduced semiempirical quantum-chemical procedure. Within the framework of this method the lattice energy (ΔE lat ) is evaluated as the sum of the semiempirically calculated intermolecular dispersion (ΔE dis ), induction (ΔE ind ), repulsion (ΔE rep ), and electrostatic energy (ΔE els ). The lattice energies of the two polymorphs of oxalic acid obtained in this way correlate not only with the results of other calculations but also with the experimentally determined heats of sublimation in that the α-modification, which has a somewhat higher heat of sublimation, is slightly more stable than the β-polymorph. However, additional quantum-chemical calculations at the non-empirical ab initio level (e. g. ZPE+MP2(FC)/6-311++G**//MP2(FC)/6-311++G**) revealed that the absolute values of the lattice energies and the heats of sublimation are not directly comparable to each other because the structures of the (COOH) 2 molecules in the crystal lattices of both polymorphs differ significantly from that of the most stable form of the free molecule in the gasphase. At about 4.3 kcal/mol the calculated energy difference between the structure of the molecule in the solid state and the energetically most favourable conformation of the free (COOH) 2 molecule in the gasphase is much smaller than that in the recently described case of α-glycine (28±2 kcal/mol). However, even such a small difference might be the source of serious problems if the heats of sublimation are employed to fit parameters to be used in the optimization of crystal packings." @default.
• W2022160107 created "2016-06-24" @default.
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• W2022160107 date "2002-12-01" @default.
• W2022160107 modified "2023-09-27" @default.
• W2022160107 title "The Use of Quantum-Chemical Semiempirical Methods to Calculate the Lattice Energies of Organic Molecular Crystals. Part II: The Lattice Energies of α- and β-Oxalic Acid (COOH)₂" @default.
• W2022160107 doi "https://doi.org/10.1515/zna-2002-1209" @default.
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