Yuqi Peng scite author profile

Aqueous Zn-ion batteries (ZIBs) are a potential electrochemical energy storage device because of their highly intrinsic safety, low cost, and large capacity. However, it is still in the primary stage because of the limited selection of cathode materials with high rate and long-life cycling stability. In addition, the energy storage mechanisms of ZIBs have not been well established. In this work, we report the synthesis of porous V2O3@C materials with high conductivity and further illustrate its application as the intercalation cathode for aqueous zinc-ion batteries. The unique channel and appropriate pore size distribution of corundum-type V2O3 are beneficial to the rapid zinc ion intercalation and removal, leading to a high rate capability. Also, the carbon framework structure achieves a high cyclic stability. The porous V2O3@C cathode delivers high capacities of 350 mA h g–1 at 100 mA g–1, an excellent rate capability (250 mA h g–1 at 2 A g–1), and an impressive long-life cycling stability with 90% capacity retention over 4000 cycles at 5 A g–1. The storage mechanism of zinc ions in the Zn/V2O3 system was studied by various analytical methods and first-principles calculation.

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Suppressing the skeleton decomposition in Ti-doped NH4V4O10 for durable aqueous zinc ion battery

Peng

Ding

et al. 2021

Journal of Power Sources

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Yuqi Peng

Hierarchical Porous Metallic V₂O₃@C for Advanced Aqueous Zinc-Ion Batteries

Suppressing the skeleton decomposition in Ti-doped NH4V4O10 for durable aqueous zinc ion battery

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Yuqi Peng

Hierarchical Porous Metallic V2O3@C for Advanced Aqueous Zinc-Ion Batteries

Suppressing the skeleton decomposition in Ti-doped NH4V4O10 for durable aqueous zinc ion battery

Contact Info

Product

Resources

About

Hierarchical Porous Metallic V₂O₃@C for Advanced Aqueous Zinc-Ion Batteries