Relative humidity–temperature transition boundaries for anhydrous β‐caffeine and caffeine hydrate crystalline forms

Abstract: Caffeine is a hydrate‐forming polymorphic crystalline compound that can exist in α, β, and hydrate forms. Phase transitions between hydrate and anhydrous forms of a crystalline ingredient, and related water migration, can create product quality challenges. The objective of this study was to determine the relative humidity (RH)–temperature phase boundary between anhydrous β‐caffeine and caffeine hydrate. The β‐caffeine→caffeine hydrate and caffeine hydrate→β‐caffeine RH–temperature transition boundaries were de… Show more

“…In order to check for the presence of different polymorphs, we compared the confocal Raman and XRD spectra of samples obtained in the different process conditions (Figure ). In particular, we compared the Raman peak at ∼1650 cm –1 and the XRD peaks at 2θ = 25–27°, demonstrating the formation of anhydrous caffeine crystals in β phase − which also corresponds to the precursor phase. Because of the limited polymorphs of caffeine, the possibility of controlling polymorphism by tuning the SFE process parameter was not further explored; however, this important aspect will be investigated in the next future on more appropriate organic crystals.…”

From Microdroplets to Microcrystals: Tunable Caffeine Particles by Spray Flash Evaporation

“…In order to check for the presence of different polymorphs, we compared the confocal Raman and XRD spectra of samples obtained in the different process conditions (Figure ). In particular, we compared the Raman peak at ∼1650 cm –1 and the XRD peaks at 2θ = 25–27°, demonstrating the formation of anhydrous caffeine crystals in β phase − which also corresponds to the precursor phase. Because of the limited polymorphs of caffeine, the possibility of controlling polymorphism by tuning the SFE process parameter was not further explored; however, this important aspect will be investigated in the next future on more appropriate organic crystals.…”

From Microdroplets to Microcrystals: Tunable Caffeine Particles by Spray Flash Evaporation

Use of Resonant Acoustic Mixing Technology for Ultra-Low-Dose Blending in a Single-Step Mixing Process

Monitoring temporal evolution of the dehydration process of the caffeine hydrate with terahertz spectroscopy