Linqing Gu scite author profile

Although rechargeable aqueous zinc-ion batteries have attracted extensive interest due to their environmental friendliness and low cost, they still lack suitable cathodes with high rate capabilities, which are hampered by the intense charge repulsion of bivalent Zn . Here, a novel intercalation pseudocapacitance behavior and ultrafast kinetics of Zn into the unique tunnels of VO (B) nanofibers in aqueous electrolyte are demonstrated via in situ X-ray diffraction and various electrochemical measurements. Because VO (B) nanofibers possess unique tunnel transport pathways with big sizes (0.82 and 0.5 nm along the b- and c-axes) and little structural change on Zn intercalation, the limitation from solid-state diffusion in the vanadium dioxide electrode is eliminated. Thus, VO (B) nanofibers exhibit a high reversible capacity of 357 mAh g , excellent rate capability (171 mAh g at 300 C), and high energy and power densities as applied for zinc-ion storage.

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W-doped VO2(B) nanosheets-built 3D networks for fast lithium storage at high temperatures

Wang

Ding

et al. 2019

Electrochimica Acta

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Linqing Gu

Ultrafast Zn²⁺ Intercalation and Deintercalation in Vanadium Dioxide

W-doped VO2(B) nanosheets-built 3D networks for fast lithium storage at high temperatures

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Linqing Gu

Ultrafast Zn2+ Intercalation and Deintercalation in Vanadium Dioxide

W-doped VO2(B) nanosheets-built 3D networks for fast lithium storage at high temperatures

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Ultrafast Zn²⁺ Intercalation and Deintercalation in Vanadium Dioxide