M. J. Earle, J. Esperanca, M. A. Gilea, J. N. C. Lopes, L. P. N. Rebelo, J. W. Magee, K. R. Seddon and J. A. Widegren,The distillation and volatility of ionic liquids,Nature,2006,439(7078), 831-834.

It is widely believed that a defining characteristic of ionic liquids ( or low-temperature molten salts) is that they exert no measurable vapour pressure, and hence cannot be distilled(1,2.) Here we demonstrate that this is unfounded, and that many ionic liquids can be distilled at low pressure without decomposition. Ionic liquids represent matter solely composed of ions, and so are perceived as non-volatile substances. During the last decade, interest in the field of ionic liquids has burgeoned(3), producing a wealth of intellectual and technological challenges and opportunities for the production of new chemical and extractive processes(4-6), fuel cells and batteries(7), and new composite materials(8,9). Much of this potential is underpinned by their presumed involatility. This characteristic, however, can severely restrict the attainability of high purity levels for ionic liquids ( when they contain poorly volatile components) in recycling schemes, as well as excluding their use in gas-phase processes. We anticipate that our demonstration that some selected families of commonly used aprotic ionic liquids can be distilled at 200 - 300 degrees C and low pressure, with concomitant recovery of significant amounts of pure substance, will permit these currently excluded applications to be realized.