期刊
CERAMICS INTERNATIONAL
卷 47, 期 16, 页码 22269-22301出版社
ELSEVIER SCI LTD
DOI: 10.1016/j.ceramint.2021.05.048
关键词
Heteroatom-doped graphene; Functionalized graphene; Porous graphene; Holey graphene; Anode; Li-ion batteries
Graphene has been a favorable anode material for Li-ion batteries due to its fascinating physicochemical properties, but issues such as restacking, agglomeration, and long transport pathways for Li-ions have limited its performance. These drawbacks can be significantly improved by functionalization and formation of porous structures, enhancing the overall electrochemical performance.
Graphene materials, with their distinctively fascinating physicochemical properties, have been receiving great attention as favorable anode materials for use in Li-ion batteries (LIBs). However, the high affinity of graphene nanosheets to restack and agglomerate during electrode assembly reduces the deliverable specific capacity due to the limited available surface area and active sites for Li-ion storage. Furthermore, the high aspect ratio of graphene nanosheets could result in long transport pathways for Li-ions and consequently limiting the rate performance. These drawbacks can be significantly improved via the functionalization of graphene by various heteroatoms and also the formation of porous graphene, adding unique beneficial properties to the inherent characteristics of graphene. Here, a comprehensive review of porous and/or heteroatom doped graphene anode materials for LIBs is presented, which summarizes in detail the main recent literature from their procedure, optimum synthesis parameters, relevant mechanisms, and the obtained morphology/structure to their electrochemical performance as the LIBs anode. Finally, the research gaps are proposed. This review will promote the basic understanding and further development of porous and/or doped graphene materials as anodes for LIBs.
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