Keywords: N, S co-doped

초록

Herein, we have produced two series of novel materials including heteroatoms-doped (thiourea-modified) and heteroatoms-deprived microporous carbons using three different potassium salts activators (KOH, K2CO3, K2C2O4). The experimental results reveal that thiourea-modified KOH activated sample exhibit excellent textural features (specific surface area-1795 m2/g, micropore volume-0.82 cm3/g) but at the expense of a reduced heteroatom content. However, sample prepared with K2C2O4 exhibited a comparable specific surface area (-1747 m2/g), enough population of narrow micropores (<1.0 nm), the highest micropore volume (0.93 cm3/g) and a high nitrogen (4.6 at. %) and sulfur content (2.3 at. %). Therefore, the optimized sample, STO, exhibits remarkable CO2 adsorption (269.61 mg/g at 0 <degrees>C and 1 bar), excellent IAST CO2/N2 selectivity (73), high isosteric heat of adsorption (39.3 kJ/mol) and high cyclic stability, surpassing the CO2 adsorption/separation performance of most of the biomass-derived carbons. Herein, for the first time, a comprehensive study on potassium salts activation, in comparison with the conventionally practiced KOH activation, is presented. Concluding, the experimental results unveiled K2C2O4 as a more competitive and less corrosive potassium salt activating agent by virtue of its ability to fabricate N, S dual-doped highly porous carbons for efficient CO2 adsorption and separation.

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