Bifunctional biomass-derived N, S dual-doped ladder-like porous carbon for supercapacitor and oxygen reduction reaction

摘要

In recent years, heteroatom-doped biomass-derived carbon has attracted intensive attention in vast fields due to their inexpensive precursors and abundant resources, especially in oxygen reduction reaction and supercapacitors. This research demonstrates a simple strategy to prepare mulberry leaves-derived nitrogen, sulfur dual-doped ladder-like porous carbon material, which possesses high content of nitrogen (8.17?at %), sulfur (1.97?at %), large surface area (1689?m2?g?1) and porous structure with a mass of micropores and mesopores. With respect to electrode material of supercapacitor, the nitrogen, sulfur dual-doped ladder-like carbon exhibits large specific capacitance of 243.4?F?g?1at 0.1?A?g?1and outstanding durability (94% retention after 5000 cycles at 3?A?g?1). Moreover, in comparison to Pt/C catalyst, nitrogen, sulfur dual-doped ladder-like porous carbon presents excellent electrochemical performances of long term stability (90.2% retention after 20000?s) and resistance to methanol crossover for oxygen reduction reaction. This work successfully may provide a new case to take advantage of nature materials to fabricate heteroatom-doped carbon for energy conversion and storage.