期刊
CRYSTAL GROWTH & DESIGN
卷 22, 期 4, 页码 2499-2511出版社
AMER CHEMICAL SOC
DOI: 10.1021/acs.cgd.2c00009
关键词
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资金
- Tianjin Natural Science Foundation [18JCZDJC38100]
The cooling crystallization behavior of flexible molecule chlorpropamide in four solvent systems was studied to understand the relationship between solution chemistry and polymorphic nucleation. The presence of dimers and solvated monomers in the solution was confirmed using online ATR-FTIR spectra. Molecular dynamics simulations and 2D nuclear overhauser effect spectroscopy revealed the molecular preassembled species in the solution. The self-association mode and conformational distribution of chlorpropamide in the solution were found to influence the nucleation process and polymorphic outcome.
In an attempt to understand the relationship between solution chemistry and polymorphic nucleation, the flexible molecule chlorpropamide is used as a model compound to study its cooling crystallization behavior in four solvent systems. Online ATR-FTIR spectra proved the existence of dimers and solvated monomers in the solution. 2D nuclear overhauser effect spectroscopy and molecular dynamics simulations further revealed the molecular preassembled species in the solution. The results show that, in ethanol, ethanol/n-heptane, and ethyl acetate/n-heptane solvents, the solute molecules exist in the form of solvated monomers in multiple conformations. The stable formation of metastable form. in ethyl acetate/n-heptane shows that, compared to conformational flexibility, the desolvation process plays a crucial role in overall self-assembly during the nucleation process. While in ethyl acetate, the solute molecules mainly exist as dimers and the rearrangement of the wrong conformation dimers becomes a key step to the nucleation rate and leads to the formation of stable form a. As a result, the self-association mode and conformational distribution of chlorpropamide in the solution work together to affect the nucleation process and polymorphic outcome.
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