Abstract
To solve the problems of resource waste and environmental pollution from coal gasification fine ash (CGFA), it is necessary to develop a high-value and sustainable utilization technology. In this study, a sustainable utilization method for CGFA to prepare activated carbon supercapacitor (AC-SC) was proposed for the first time. AC-SC with a high specific surface area was successfully fabricated via a facile deashing pretreatment and subsequent KOH activation. Results showed that with increasing KOH dosage, the specific surface area of AC-SC samples, "C–O or O C–O" functional groups content, and disorder in carbon skeleton increased. Among them, the AC-SC sample (D-800-1-5) with a carbon source to KOH mass ratio of 1:5, activation temperature of 800 °C, and activation time of 1 h showed an ideal micropore-mesoporous composite type pore structure. Moreover, the BET surface area of the sample was 2224.62 m 2 g −1 . The specific capacitance of the D-800-1-5 sample was 124.06 F g −1 @ 0.5 A g −1 , and the capacitance retention rate was as high as 128.7% after 10,000 charge-discharge cycles. These results revealed that D-800-1-5 exhibited excellent capacitance characteristics and rate performance, and proved the feasibility of CGFA as a carbon source for the preparation of AC-SC. The proposed method provided a new technical route for the high value and sustainable utilization of CGFA. • An activated carbon supercapacitor was prepared from coal gasification fine ash. • A technical route for high-value and sustainable use of coal gasification fine ash was proposed. • The method was more facile than the traditional preparation processes. • The BET surface area of the D-800-1-5 sample was 2224.62 m 2 g −1 . • The capacity retention of the material was 128.7% after 10000 cycles.
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