Abstract
The sol-gel metathesis reaction was used to synthesize a new family of aerogels called a rare-earth chalcophosphate aerogel KY(P2S6)(2)center dot K+ and the rare-earth metal cations Y3+ connect [P2S6](2-) anions to form an amorphous white gel. Supercritical drying of the resulting gel produced porous materials with a BET surface area of 443 m(2)center dot g(-1). The adsorption properties of the rare-earth chalcophosphate aerogel were studied using volatile organic hydrocarbons (VOCs) and gases as adsorptives. The results showed preferential adsorption of toluene vapor over cyclohexane and cyclopentane vapor. The adsorption capacity toward toluene was 703 mg center dot g(-1). Favored adsorption of CO2 over CH4, N-2, or H-2 was also observed for the aerogel: KY(P2S6)(2) (CO2/H-2: 308, CO2/CH4: 67, Co-2/N-2: 177). Pd doped aerogel showed significant enhancement toward toluene (1291 mg center dot g(-1)) for 1 wt % Pd @ KY(P2S6)(2), (2064 mg center dot g(-1)) for 3 wt % Pd @ KY(P2S6)(2) and (1108 mg center dot g(-1)) for 5 wt % Pd @ KY(P2S6)(2). It also showed a noticeable improvement in the gas selectivity (CO2/H-2: 337, CO2/CH4: 85, Co-2/N-2: 205) for 1 wt % Pd @ KY(P2S6)(2), (CO2/H-2: 345, CO2/CH4: 109, Co-2/N-2: 212) for 3 wt % Pd @ KY(P2S6)(2) and (CO2/H-2: 319, CO2/CH4: 73, Co-2/N-2: 187) for 5 wt % Pd @ KY(P2S6)(2).