Spinning, Sliding, Flexing, and Jumping of Theophylline Sulfate between Concomitant Polymorphs and Hydrates

Enrico Spoletti, Ricardo Albarran Velo, Cathal Phelan, Cian Williams, Matteo Lusi

Research output: Contribution to journalArticlepeer-review

Abstract

The solid form screening of theophylline (TP) and sulfuric acid led to a collection of new crystals including two anhydrous sulfate salts (TPH+HSO4- form I and TPH+HSO4- form II) and two hydrated salts (bis-theophyllinium sulfate monohydrate ([TPH+]2SO42-·H2O) and theophyllinium hydrogen sulfate dihydrate (TPH+HSO4-·2H2O)). The new structures were determined and their stability was investigated, suggesting multiple modes of movement for the ions in the solid state. Anhydrous TPH+HSO4- form II exhibits unusually large anisotropic linear thermal expansion, associated with the elongation of a unique sulfate−π contact. Additionally, thermal dehydration of TPH+HSO4-·2H2O occurs in a salient, rocketlike manner that may be caused by the sudden release of water vapor trapped inside the particles.

Original languageEnglish
JournalCrystal Growth and Design
DOIs
Publication statusAccepted/In press - 2024

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