Issue 17, 2001
From the journal:

Physical Chemistry Chemical Physics

Can crystal structure prediction be used as part of an integrated strategy for ensuring maximum diversity of isolated crystal forms? The case of 2-amino-4-nitrophenol

Nicholas Blagden,a   Wendy I. Cross,a   Roger J. Davey,*a   Mairead Broderick,b   Robin G. Pritchard,b   Ronald J. Robertsc  and  Raymond C. Rowec  

* Corresponding authors

a Colloids, Crystals and Interfaces Group, Department of Chemical Engineering, UMIST, P.O. Box 88, Manchester, UK

b Department of Chemistry, UMIST, P.O. Box 88, Manchester, UK

c AstraZeneca plc., Hurdsfield Industrial Estate, Macclesfield, Cheshire, UK

Abstract

Crystal structure prediction was used to explore possible modes of assembly of 2-amino-4-nitrophenol (ANP) molecules in the solid state. The results from this simulation were employed for the rational selection of solvents for the isolation of solid phases by solution crystallisation. Implementation of this crystal engineering based approach is seen as a first step in utilising predicted structural data and in this example resulted in the isolation of three crystal forms, one non-solvated structure and two solvated forms. Though too complex to be predicted, each contained elements of the packing modes identified from the crystal modelling simulations. This work demonstrates the potential application and limitations of available crystal structure modelling techniques as part of a strategy for the discovery of new crystal forms of molecular materials.

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Article information

DOI
https://doi.org/10.1039/B103797H
Article type
Paper
Submitted
26 Apr 2001
Accepted
12 Jun 2001
First published
19 Jul 2001

Phys. Chem. Chem. Phys., 2001,3, 3819-3825

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Can crystal structure prediction be used as part of an integrated strategy for ensuring maximum diversity of isolated crystal forms? The case of 2-amino-4-nitrophenol

N. Blagden, W. I. Cross, R. J. Davey, M. Broderick, R. G. Pritchard, R. J. Roberts and R. C. Rowe, Phys. Chem. Chem. Phys., 2001, 3, 3819 DOI: 10.1039/B103797H

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