Mechanically robust and size-controlled MoS2/graphene hybrid aerogels as high-performance anodes for lithium-ion batteries

He, Pingge; Zhao, Keren; Huang, Boyun; Zhang, Baoqiang; Huang, Qun; Chen, Tengfei; Zhang, Qiangqiang

Mechanically robust and size-controlled MoS2/graphene hybrid aerogels as high-performance anodes for lithium-ion batteries

2018

Controllable layered MoS₂ on 3D graphene aerogel (MoS₂/GA) was synthesized via a facial hydrothermal process. As-prepared MoS₂/graphene hybrid aerogels with desirable sizes serve directly as free-standing and binder-free anodes for lithium-ion batteries (LIB) without the need for mechanical cutting or mixing. The mechanical properties of MoS₂/GA samples were quantitatively investigated to demonstrate their high mechanical robustness with Young’s modulus values up to 59.2 kPa and recoverable deformability of 90% elastic strain, indicating their ability to resist large-scale deformation or fatigue stress during LIB applications. Moreover, the effects of the MoS₂ mass loading on both microstructure and electrochemical performance of MoS₂/GA were systematically investigated. Hierarchical nanostructures of MoS₂/GA with a mass ratio of MoS₂ to graphene oxide as 1:2.5 exhibit a high specific capacity of 1360.5 mAh g⁻¹ at a current density of 100 mAh g⁻¹. These materials also have desirable rate capability and good cyclic stability, demonstrating their utility in energy storage devices.

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