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Effect of Self‐Doped Heteroatoms in Biomass‐Derived Activated Carbon for Supercapacitor Applications
Author(s) -
Chen Dandan,
Yang Lijun,
Li Jiangfeng,
Wu Qingsheng
Publication year - 2019
Publication title -
chemistryselect
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.437
H-Index - 34
ISSN - 2365-6549
DOI - 10.1002/slct.201803413
Subject(s) - heteroatom , supercapacitor , biomass (ecology) , carbon fibers , materials science , energy storage , nanotechnology , activated carbon , environmental science , electrode , chemistry , capacitance , power (physics) , composite material , organic chemistry , ecology , physics , ring (chemistry) , quantum mechanics , adsorption , composite number , biology
Abstract As a green and effective energy storage device, supercapacitors have been attractive due to their high power density along with long cycle stability. Among various electrode materials, carbon materials have drawn significant attention due to their wonderful properties, such as high specific surface area, electronic conductivity, chemical stability and porous structures. In addition, challenges come from global warming and environmental pollution, biomass derived carbon materials feature the concepts of the sustainable development of chemistry. In this, the review not only summarizes the most advanced progress in biomass derived heteroatoms self‐doped carbon materials for supercapacitor, but also provides important guidelines for the future design of biomass‐derived carbons with heteroatoms doping in specific energy applications.