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Issue 37, 2018
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A basis for the kinetic selection of polymorphs during solution crystallization of organic compounds

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Abstract

The equations of the classical nucleation theory were used to calculate the critical nucleation free energy for pairs of polymorphs. Conditions explored include supersaturation, the ratio of interfacial energies (γst/γme) and equilibrium solubility (Image ID:c8ce00843d-t1.gif) for pairs of polymorphs, crystallization temperature and molecular volume. Analysis of the critical free energies of nucleation of polymorphs pairs leads to an understanding of why we rarely see differences in excess of 2-fold in equilibrium solubilities for pairs of polymorphs. When this threshold is exceeded for low values of supersaturation with respect to the stable polymorph (Sst) the corresponding supersaturation with respect to the metastable polymorph (Sme) becomes very small, driving up the value of critical nucleation free energy for that polymorph. Essentially the model explains the change in relative kinetic accessibility of the polymorphs because for high values of Image ID:c8ce00843d-t2.gif or low values of Sst the corresponding Sme value can become very small, driving up the value of the critical nucleation free energy of the metastable polymorph. A domain diagram has been developed by identifying for any selected values of supersaturation the combinations of Image ID:c8ce00843d-t3.gif and γst/γme at which the critical nucleation free energy of the polymorphs are equal. This diagram can be used to select experimental conditions; most notably the supersaturation needed for a given polymorph pair to select kinetically the metastable or stable forms.

Graphical abstract: A basis for the kinetic selection of polymorphs during solution crystallization of organic compounds

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Publication details

The article was received on 21 May 2018, accepted on 24 Aug 2018 and first published on 27 Aug 2018


Article type: Paper
DOI: 10.1039/C8CE00843D
Citation: CrystEngComm, 2018,20, 5551-5561
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    A basis for the kinetic selection of polymorphs during solution crystallization of organic compounds

    V. Verma and B. K. Hodnett, CrystEngComm, 2018, 20, 5551
    DOI: 10.1039/C8CE00843D

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