Dehydration behaviour of hydrates

Abstract

Immersing a crystalline solvate in a suitable anti‐solvent can induce phase transformation to solvent‐free solid phase. In certain cases the solvent‐mediated phase transition results in the generation of hollow, tubular structures. Both the tube dimensions of sodium‐2‐keto‐L‐gulonate anhydrate (skga) and the dehydration kinetics of sodium‐2‐keto‐L‐gulonate monohydrate (skgm) can be modified by the antisolvent employed. An explanation for the variable dehydration behaviour of skgm in the antisolvents is presented here. Furthermore, other crystalline hydrates were dehydrated in dry methanol. Providing an operational window can be found, any hydrate material could possibly find use in the production of tubes (micro‐ or nanotubes for different applications). The experimental conditions selected (dry methanol as antisolvent, dehydration temperature at 25 °C) for the dehydration did not lead to the anhydrate tube growth for all hydrates investigated. Based upon the results presented here a first hypothesis is presented to explain this effect. (© 2010 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)