A Workplan for Using Heteroseeded Crystallizations to Produce New Polymorphs, as Illustrated by a Study of Cinnamic Acids

The field of crystal engineering can be considered to have begun more than 50 years ago, when Schmidt and co-workers showed that the photoreactivity of polymorphs of cinnamic acid is controlled by how neighboring molecules are positioned in the solid state. Since then, cinnamic acids have been a subject of special interest in crystal engineering, and their polymorphism has been studied extensively. As a result, any general strategy for increasing polymorphic diversity can be put to a stringent test by using it to seek new solid forms of cinnamic acids. In this way, we have assessed the following three-step workplan for producing new polymorphs by heteroseeded crystallizations: (1) synthesize and crystallize a set of close structural analogues of the target of interest; (2) identify analogues in the set that can form mixed crystals with the target yet can crystallize as pure samples to give structures unlike those known to be formed by the target; and (3) use pure or mixed crystals containing these analogues as heteroseeds to induce the formation of new polymorphs of the target. The effectiveness of this workplan has been demonstrated by using it to find new solid forms of simple cinnamic acids and to help map their polymorphic landscapes.