Litcius/Paper detail

Controlling polymorphism in molecular cocrystals by variable temperature ball milling

Kevin Linberg, Bettina Röder, Dominik Al‐Sabbagh, Franziska Emmerling, Adam A. L. Michalchuk∞

2022Faraday Discussions52 citationsDOIOpen Access PDF

Abstract

Mechanochemistry offers a unique opportunity to modify and manipulate crystal forms, often providing new products as compared with conventional solution methods. While promising, there is little known about how to control the solid form through mechanochemical means, demanding dedicated investigations. Using a model organic cocrystal system (isonicotinamide:glutaric acid), we here demonstrate that with mechanochemistry, polymorphism can be induced in molecular solids under conditions seemingly different to their conventional thermodynamic (thermal) transition point. Whereas Form II converts to Form I upon heating to 363 K, the same transition can be initiated under ball milling conditions at markedly lower temperatures (348 K). Our results indicate that mechanochemical techniques can help to reduce the energy barriers to solid form transitions, offering new insights into controlling polymorphic forms. Moreover, our results suggest that the nature of mechanochemical transformations could make it difficult to interpret mechanochemical solid form landscapes using conventional equilibrium-based tools.

Topics & Concepts

Polymorphism (computer science)Ball millBall (mathematics)Materials scienceCrystallographyChemistryMetallurgyBiologyGeneticsGenotypeMathematicsGeometryGeneCrystallography and molecular interactionsCrystallization and Solubility StudiesCrystal structures of chemical compounds