2023
DOI: 10.1088/1361-6528/acbeb5
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Fe-doped V2O5 layered nanowire cathode material with high lithium storage performance

Abstract: As a lithium-ion battery cathode material with high theoretical capacity, the application of V2O5 is limited by its unstable structure and low intrinsic conductivity. In this paper, we report a Fe doped V2O5 nanowire with a layered structure of 200-300 nm diameter prepared by electrostatic spinning technique. The 3Fe-V2O5 electrode exhibited a superb capacity of 436.9 mAh/g in the first cycle when tested in the voltage range of 2.0-4.0 V at current density of 100 mA/g, far exceeding its theoretical capacity (2… Show more

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Cited by 8 publications
(2 citation statements)
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“…However, in zinc ion batteries, vanadium mostly exists in a layered structure, allowing zinc ions and electrons to move between the two layers. 29,30 For VO 2 , there are many different crystal forms, such as monoclinic, rutile, tetragonal, and metastable crystals. In the positive electrode material, it will form a tunnel like structure with a sufficiently large diameter and good stability that is not easily deformed.…”
Section: Development Status Of Zinc Ion Battery Electrodesmentioning
confidence: 99%
“…However, in zinc ion batteries, vanadium mostly exists in a layered structure, allowing zinc ions and electrons to move between the two layers. 29,30 For VO 2 , there are many different crystal forms, such as monoclinic, rutile, tetragonal, and metastable crystals. In the positive electrode material, it will form a tunnel like structure with a sufficiently large diameter and good stability that is not easily deformed.…”
Section: Development Status Of Zinc Ion Battery Electrodesmentioning
confidence: 99%
“…[32][33][34] However, the sluggish diffusion kinetics of lithium ions and the poor electronic conductivity, resulting in a signicant capacity loss at high C-rate, are the main obstacles that limit the performances of this material. Several strategies have been developed to overcome the aforementioned issues such as particle size reduction, [35][36][37] surface coating, [38][39][40][41] preparation of composite electrodes, [42][43][44] addition of conductive binders, [45][46][47] and doping. [48][49][50][51] All these strategies have shown encouraging results in lithium-ion batteries, but less attention has been given to the application of these advanced LFP based materials for redox ow batteries.…”
Section: Mouad Dahbimentioning
confidence: 99%