One-step preparation of N,O co-doped 3D hierarchically porous carbon derived from soybean dregs for high-performance supercapacitors†

Hierarchically porous carbon (HPC) material based on environmental friendliness biomass has spurred much attention, due to its high surface area and porous structure. Herein, three-dimensional (3D) N,O co-doped HPC (N–O-HPC) was prepared by using a one-step fabrication process of simultaneously carbonizing and activating soybean dregs and used as an electrode for supercapacitors (SCs). The obtained N–O-HPC with 4.8 at% N and 6.1 at% O exhibits a pretty small charge transfer resistance (0.05 Ω) and a large specific capacitance (408 F g ⁻¹ at 1 A g ⁻¹), due to its 3D hierarchically porous framework structure with extremely large specific surface area (1688 m ² g ⁻¹). Moreover, a symmetrical SC assembled with the HPC electrode exhibits an amazingly high energy density (22 W h kg ⁻¹ at 450 W kg ⁻¹) and a stable long cycling life with only 6% capacitance loss after 5000 cycles in 1 M Na ₂SO ₄ solution. This work provides a facile, green, and low-cost way to prepare electrode materials for SCs.

N,O co-doped 3D HPC derived from soybean dregs was prepared by a one-step method and displays an amazingly high energy density of 22 W h kg ⁻¹ (450 W kg ⁻¹) using 1 M Na ₂SO ₄ solution.