Nucleation Control and Isolation of Polymorphic Forms of Aspirin through an Efficient Template‐Assisted Swift Cooling Process

Nucleation Control and Isolation of Polymorphic Forms of Aspirin through an Efficient Template‐Assisted Swift Cooling Process

Aspirin, a commonly used pharmaceutical therapeutic pharmacological substance, exhibits cross‐nucleation (intergrowth or overgrowth) of stable polymorphic Form‐I over the preferably required metastable polymorphic Form‐II, which creates a bottleneck issue in the solution crystallization of aspirin i...

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Bibliographic Details
Published in:Crystal research and technology (1979) Vol. 59; no. 8
Main Authors: Muthusamy, Ramya, Gnanasekar, Nandhu varshini, Karuppannan, Srinivasan
Format: Journal Article
Language:English
Published: 01-08-2024
Subjects:
aspirin
cross‐nucleation
nucleation kinetics
polymorphism
supersaturation
template
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Summary:Aspirin, a commonly used pharmaceutical therapeutic pharmacological substance, exhibits cross‐nucleation (intergrowth or overgrowth) of stable polymorphic Form‐I over the preferably required metastable polymorphic Form‐II, which creates a bottleneck issue in the solution crystallization of aspirin in most organic solvents and their mixtures. Controlling the overgrowth phenomenon is a key factor for designing the pharmaceutical drug material aspirin with desired properties. Hence, our present work chose a novel template‐assisted swift cooling crystallization with selected templates like copper‐wire and nylon 6/6 polymer, and also N‐N‐Dimethylformamide (DMF) as a solvent. The pure solution in the absence and the presence of a nylon 6/6 template in all the experimental supersaturation ranges achieves only thermodynamically stable polymorphic Form‐I of aspirin with slightly different morphologies. Contrarily, the presence of a copper‐wire template induces both stable and metastable polymorphs of aspirin depending on the level of supersaturation in the mother solution. The effect of templates on the nucleation kinetics of aspirin polymorphs is estimated using classical nucleation theory, and the determined values exactly match with experimental results. The polymorphic nature of the grown crystals is ascertained by powder X‐ray diffraction (PXRD), single crystal X‐ray diffraction (SCXRD), and differential scanning calorimetry (DSC) analyses. A reliable, easy, and promising strategy for controlling the cross‐nucleation of aspirin polymorphs is achieved by employing the template‐assisted swift cooling crystallization process. Further, the effect of templates on the nucleation kinetics of aspirin polymorphs is estimated using the classical nucleation theory.
ISSN:0232-1300
1521-4079
DOI:10.1002/crat.202400046