Abstract
Abstract Ionic liquids (ILs) have been introduced as potential replacement of conventional CO 2 capturing solvents, for their negligible vapour pressure and high thermal stability. Besides, through matching cations and anions, ILs provide a flexibility to tune their properties. However, due to vast number of potential ILs, time and expense required determine suitable ILs for CO 2 capture is unaffordable. In this work, a systematic visual approach to design IL as CO 2 solvent, via property clustering technique and group contribution method has been developed. This approach allows visualisation of high-dimensional problem into two or three dimensions. A case study has been presented to elaborate application of the developed approach.
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