An Fe 2 NiSe 4 /holey-graphene composite with superior rate capability enabled by in-plane holes for sodium-ion batteries.

Zixin WuXuejie WangShenghua HouXilong ZhangXinming NieJiaguo Yu Tao Liu

Published in: Chemical communications (Cambridge, England) (2024)

Fe 2 NiSe 4 @holey-graphene (FNS@HG) has been prepared by in situ growth and simultaneous perforation via a carbothermal reaction. The generation of nanoholes on the graphene sheets significantly reduced the diffusion distance of electrolyte ions, enhancing the rate capability of FNS@HG as an anode material for sodium-ion batteries.

Keyphrases

ion batteries
aqueous solution
room temperature
carbon nanotubes
walled carbon nanotubes
quantum dots
visible light