Recent advances in biopolymers-based carbon materials for supercapacitors

Supercapacitors as potential candidates for novel green energy storage devices demonstrate a promising future in promoting sustainable energy supply, but their development is impeded by limited energy density, which can be addressed by developing high-capacitance electrode materials with efforts. Carbon materials derived from biopolymers have received much attention for their abundant reserves and environmentally sustainable nature, rendering them ideal for supercapacitor electrodes. However, the limited capacitance has hindered their widespread application, resulting in the proposal of various strategies to enhance the capacity properties of carbon electrodes. This paper critically reviewed the recent research progress of biopolymers-based carbon electrodes. The advances in biopolymers-based carbon electrodes for supercapacitors are presented, followed by the strategies to improve the capacitance of carbon electrodes which include pore engineering, doping engineering and composite engineering. Furthermore, this review is summarized and the challenges of biopolymer-derived carbon electrodes are discussed. The purpose of this review is to promote the widespread application of biopolymers in the domain of supercapacitors. SSupercapacitors are competitive candidates for novel green energy storage devices. However, their development is impeded by limited energy density, which can be addressed by developing high-capacitance electrode materials with efforts.

Automated summary

This paper critically reviews the recent research progress of biopolymers-based carbon electrodes for supercapacitors. Various strategies to improve the capacitance of carbon electrodes, including pore engineering, doping engineering, and composite engineering, are presented. The challenges of biopolymer-derived carbon electrodes are also discussed.