KFeSbTe3: a quaternary chalcogenide aerogel for preferential adsorption of polarizable hydrocarbons and gases†
Abstract
The first telluride-based quaternary aerogel KFeSbTe3 is synthesized by a sol–gel metathesis reaction between Fe(OAc)2 and K3SbTe3 in dimethyl formamide. The aerogel has an exceptionally large surface area 652 m2 g−1 which is amongst the highest reported for chalcogenide-based aerogels. This predominantly mesoporous material shows preferential adsorption for toluene vapors over cyclohexane or cyclopentane and CO2 over CH4 or H2. The remarkably high adsorption capacity for toluene (9.31 mmol g−1) and high selectivity for gases (CO2/H2: 121 and CO2/CH4: 75) suggest a potential use of such materials in adsorption-based separation processes for the effective purification of hydrocarbons and gases.
- This article is part of the themed collection: 2015 Journal of Materials Chemistry A Hot Papers