Abstract
This study provides a detailed description of noncovalent interactions of different types and strengths in the title crystal using a combined experimental and theoretical study of the charge density distribution. The nature of the noncovalent interactions is visualized using information theory and through the superposition of the gradient fields in the electron density and electrostatic potential. The energy of the intramolecular O–H···O bond, intermolecular C–H···O bonds, and π-stacking interactions, Eint, are evaluated from empirical correlations between Eint and geometrical and electron-density bond critical point parameters. The complete set of noncovalent interactions including the strong intramolecular O–H···O (Eint > 90 kJ/mol) and weak C–H···O (Eint < 10 kJ/mol) hydrogen bonds, and π-stacking interactions (Eint < 4 kJ/mol) is quantitatively described. The results from the experimental charge density analysis are compared with periodic quantum calculations using density functional theory with the G...
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