The Eight Hydrates of Strychnine Sulfate.

Commercial samples of strychnine sulfate were used as the starting material in crystallization experiments accompanied by stability studies. Eight hydrate forms (-), including five novel hydrates, were verified. The crystal structures of ("pentahydrate") and ("hexahydrate") were determined from single-crystal X-ray diffraction data. was identified as the most stable hydrate at high water activities at room temperature (RT), and and were also found to be stable at ambient conditions. Long-time storage experiments over nearly two decades confirm that these three hydrates are stable at ambient conditions (20-60% relative humidity). The other five hydrates, ("dihydrate"), , , , and , are only observable at the low(est) relative humidity (RH) levels at RT. Some of these latter forms can only exist within a very narrow RH range and are therefore intermediate phases. By applying a range of complementary experimental techniques such as gravimetric moisture sorption analysis, thermal analysis, moisture controlled PXRD measurements, and variable temperature IR spectroscopy in combination with principal component analysis, it was possible to identify the distinct hydrate phases and elucidate their stability and dehydration pathways. The observed (de)hydration routes, ↔ , ↔ ↔ , ↔ ↔ and → ↔ , depended on the initial hydrate form, particle size, and atmospheric conditions. In addition, a transformation from / to occurs at high RH values at RT. The specific moisture and temperature conditions of none of the applied drying regimes yielded a crystalline water-free form, which highlights the essential role of water molecules for the formation and stability of the crystalline strychnine sulfate phases.