Roger J. Davey scite author profile

The simultaneous appearance of polymorphs of a substance has long been recognized but rarely noted or systematically studied. This phenomenon can be useful in the investigation of solid materials and in understanding the relative crystal energetics of polymorphic materials. This review covers the thermodynamic and kinetic factors that govern competitive and concomitant polymorphic crystallization. One of the many examples surveyed is a cyanine/oxonol complex, for which different relative molecular orientations in two of the many reported polymorphs are shown.

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Nucleation of Organic Crystals—A Molecular Perspective

Davey

2013

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The outcome of synthetic procedures for crystalline organic materials strongly depends on the first steps along the molecular self-assembly pathway, a process we know as crystal nucleation. New experimental techniques and computational methodologies have spurred significant interest in understanding the detailed molecular mechanisms by which nuclei form and develop into macroscopic crystals. Although classical nucleation theory (CNT) has served well in describing the kinetics of the processes involved, new proposed nucleation mechanisms are additionally concerned with the evolution of structure and the competing nature of crystallization in polymorphic systems. In this Review, we explore the extent to which CNT and nucleation rate measurements can yield molecular-scale information on this process and summarize current knowledge relating to molecular self-assembly in nucleating systems.

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Impact of Molecular Speciation on Crystal Nucleation in Polymorphic Systems: The Conundrum of γ Glycine and Molecular ‘Self Poisoning'

Towler¹,

Davey²,

Lancaster³

et al. 2004

J. Am. Chem. Soc.

191

326

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The polymorphism of the simple amino acid glycine has been known for almost a century. It is also known that in aqueous solutions, at the isoelectric point (pI 5.9), the metastable alpha polymorph crystallizes, while the stable gamma form of glycine only nucleates at high and low pH. Despite the importance of understanding the process by which crystals nucleate, the solution and solid-state chemistry underlying this simple observation have never been explored. In this contribution, we have combined solution chemistry, crystallization, and crystallographic data to investigate the mechanisms by which this effect occurs. It is concluded that solution speciation and the consequent interactions between charged species and developing crystal nuclei determine the structural outcome of the crystallization process.

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Polymorphism in Molecular Crystals: Stabilization of a Metastable Form by Conformational Mimicry

Davey¹,

Blagden²,

Potts³

et al. 1997

J. Am. Chem. Soc.

332

297

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Making Co-CrystalsThe Utility of Ternary Phase Diagrams

Chiarella

Davey

Peterson

2007

Crystal Growth & Design

243

253

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Roger J. Davey

Concomitant Polymorphs

Nucleation of Organic Crystals—A Molecular Perspective

Impact of Molecular Speciation on Crystal Nucleation in Polymorphic Systems: The Conundrum of γ Glycine and Molecular ‘Self Poisoning'

Polymorphism in Molecular Crystals: Stabilization of a Metastable Form by Conformational Mimicry

Making Co-CrystalsThe Utility of Ternary Phase Diagrams

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