Salts, binary and ternary cocrystals of pyrimethamine: mechanosynthesis, solution crystallization and crystallization from the gas phase
O’Malley, Ciaran Bouchet, Chloe Manyara, Grayce Walsh, Niamh McArdle, Patrick Erxleben, Andrea
O’Malley, Ciaran
Bouchet, Chloe
Manyara, Grayce
Walsh, Niamh
McArdle, Patrick
Erxleben, Andrea
Loading...
Publication Date
2020-11-24
Type
Article
Downloads
Citation
O’Malley, Ciaran, Bouchet, Chloe, Manyara, Grayce, Walsh, Niamh, McArdle, Patrick, & Erxleben, Andrea. (2020). Salts, Binary and Ternary Cocrystals of Pyrimethamine: Mechanosynthesis, Solution Crystallization, and Crystallization from the Gas Phase. Crystal Growth & Design. doi:10.1021/acs.cgd.0c01147
Abstract
A series of salts and binary and ternary cocrystals of the antimalaria drug pyrimethamine (PYR) are reported. PYR has a donor–acceptor–donor (DAD) and a donor–acceptor (DA) binding site, and cocrystallization experiments were performed with coformers with complementary acceptor-donor-acceptor (ADA) and acceptor-donor (AD) H-bonding functionalities. Three different preparation techniques were compared, namely, solution crystallization, crystallization from the gas phase, and liquid-assisted grinding. In several cases different solid-state forms were obtained depending on the crystallization method. The molecular ionic cocrystals PYRH+BAR–·PYR (BAR = barbituric acid) and (PYRH+SAC–)2·GLU (GLU = glutarimide, SAC = saccharin), the binary cocrystal PYR·GLU, the salt PYRH+NIC– (NIC = nicotinic acid), and two polymorphs of PYRH+SAC– could be crystallized by sublimation. Two other ternary molecular ionic cocrystals, (PYRH+BEN–)·PYR·SUC and (PYRH+SAC–)2·SOR (SUC = succinimide, BEN = benzoic acid, SOR = sorbic acid), were obtained by solution crystallization. Attempts to crystallize ternary cocrystals from solution also yielded a number of new two-component cocrystals including four new solvates of PYRH+SAC–, thus extending the structural landscape of the PYR/SAC system. Liquid-assisted milling was performed as a one-pot reaction and with the stepwise addition of the coformers. The (PYRH+SAC–)2·GLU cocrystal formed when the coformers were milled in one step and when they were added to the mill stepwise. For other systems the outcome of the two-step milling experiment depended on the order in which the coformers were added. The PYR-coformer interactions were analyzed using the PIXEL program.
Publisher
American Chemical Society
Publisher DOI
Rights
Attribution-NonCommercial-NoDerivs 3.0 Ireland