Recently,the challenges pertaining to the recycling of metal-based electrode materials and the resulting environmental pollution have impeded the advancement of battery technology.Consequently,biomass-derived carbon m...Recently,the challenges pertaining to the recycling of metal-based electrode materials and the resulting environmental pollution have impeded the advancement of battery technology.Consequently,biomass-derived carbon materials,distinguished by their eco-friendliness and consistent performance,stand as a pivotal solution to this predicament.Researchers have made significant strides in the integration of porous carbon materials derived from biomass into battery systems.Nevertheless,these materials face issues such as limited efficiency,modest yields,and a complex fabrication process.This paper endeavors to summarize the recent advancements in the utilization of biomass-derived carbon materials within the realm of batteries,offering a comprehensive examination of their battery performance from three distinct perspectives:synthesis,structure,and application.We posit that composite materials composed of biomass-derived carbon align with the trajectory of future development and present extensive potential for application.Ultimately,we will expound upon our profound outlook regarding the furtherance of biomass-derived carbon materials.展开更多
基金the University Synergy Innovation Program of Anhui Province(GXXT-2022-018)National Natural Science Foundation of China(22302052)+3 种基金Anhui Provincial Natural Science Foundation for Distinguished Young Scholar(2008085J26)Natural Science Foundation in University of Anhui Province(KJ2021ZD0119,2022AH040251 and 2023AH052190)Excellent Scientific Research and Innovation Team in University of Anhui Province(2022AH010096 and 2023AH010050)Startup Fund for Distinguished Scholars in Hefei University(20RC37)and Anhui Provincial Natural Science Foundation(2108085QB47).
文摘Recently,the challenges pertaining to the recycling of metal-based electrode materials and the resulting environmental pollution have impeded the advancement of battery technology.Consequently,biomass-derived carbon materials,distinguished by their eco-friendliness and consistent performance,stand as a pivotal solution to this predicament.Researchers have made significant strides in the integration of porous carbon materials derived from biomass into battery systems.Nevertheless,these materials face issues such as limited efficiency,modest yields,and a complex fabrication process.This paper endeavors to summarize the recent advancements in the utilization of biomass-derived carbon materials within the realm of batteries,offering a comprehensive examination of their battery performance from three distinct perspectives:synthesis,structure,and application.We posit that composite materials composed of biomass-derived carbon align with the trajectory of future development and present extensive potential for application.Ultimately,we will expound upon our profound outlook regarding the furtherance of biomass-derived carbon materials.