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Freestanding ReS 2 /Graphene Heterostructures as Binder-Free Anodes for Lithium-Ion Batteries.

Fei QiQiuran LiWenxia ZhangQiang HuangBingyan SongYuanfu ChenJiarui He
Published in: ACS applied materials & interfaces (2023)
It is still challenging to develop anode materials with high capacity and long cycling stability for lithium-ion batteries (LIBs). To address such issues, herein, for the first time, we present a three-dimensional and freestanding ReS 2 /graphene heterostructure (3DRG) as an anode synthesized via a one-pot hydrothermal method. The hybrid shows a hierarchically sandwich-like, nanoporous, and conductive three-dimensional (3D) network constructed by two-dimensional (2D) ReS 2 /graphene heterostructural nanosheets, which can be directly utilized as a freestanding and binder-free anode for LIBs. When the current density is 100 mA g -1 , the 3DRG anode delivers a high reversible specific capacity of 653 mAh g -1 . The 3DRG anode also delivers higher rate capability and cycling stability than the bare ReS 2 anode. The markedly boosted electrochemical properties derive from the unique nanoarchitecture, which guarantees massive electrochemical active sites, short channels of lithium-ion diffusion, fast electron/ion transportation, and inhibition of the volume change of ReS 2 for LIBs.
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