Understanding Hygroscopicity of Theophyllineviaa Novel Cocrystal Polymorph: A Charge Density Study

共晶 三斜晶系 结晶学 晶格能 分子内力 化学 电荷密度 密度泛函理论 分子间力 分子 丙二酸 单斜晶系 氢键 计算化学 晶体结构 立体化学 有机化学 物理 量子力学
作者
Stephen A. Stanton,Jonathan J. Du,Felcia Lai,Gyte Stanton,Bryson A. Hawkins,Jennifer Ong,Paul W. Groundwater,James A. Platts,David E. Hibbs
出处
期刊:Journal of Physical Chemistry A [American Chemical Society]
卷期号:125 (45): 9736-9756 被引量:8
标识
DOI:10.1021/acs.jpca.0c09536
摘要

The charge density distribution in a novel cocrystal (1) complex of 1,3-dimethylxanthine (theophylline) and propanedioic acid (malonic acid) has been determined. The molecules crystallize in the triclinic, centrosymmetric space group P1̅, with four independent molecules (Z = 4) in the asymmetric unit (two molecules each of theophylline and malonic acid). Theophylline has a notably high hygroscopic nature, and numerous cocrystals have shown a significant improvement in stability to humidity. A charge density study of the novel polymorph has identified interesting theoretical results correlating the stability enhancement of theophylline via cocrystallization. Topological analysis of the electron density highlighted key differences (up to 17.8) in Laplacian (∇2ρ) between the experimental (EXP) and single-point (SP) models, mainly around intermolecular-bonded carbonyls. Further investigation via molecular electrostatic potential maps reaffirmed that the charge redistribution enhanced intramolecular hydrogen bonding, predominantly for N(2') and N(2) (61.2 and 61.8 kJ mol-1, respectively). An overall weaker lattice energy of the triclinic form (-126.1 kJ mol-1) compared to that of the monoclinic form (-133.8 kJ mol-1) suggests a lower energy threshold to overcome to initiate dissociation. Future work via physical testing of the novel cocrystal in both dissolution and solubility will further solidify the correlation between theoretical and experimental results.

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