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Advancements in Vanadium Disulphide (VS2) Nanomaterials for Enhanced Energy Storage Synthesis Techniques, Electrochemical Properties, and Prospective Outcomes

Advancements in Vanadium Disulphide (VS2) Nanomaterials for Enhanced Energy Storage Synthesis Techniques, Electrochemical Properties, and Prospective Outcomes

S. Harikrishnan, A. R. Abhijith, Jyoti Rajput, Deepak Sharma, Amar Srivastava
Copyright: © 2024 |Pages: 45
ISBN13: 9798369313060|ISBN13 Softcover: 9798369347270|EISBN13: 9798369313077
DOI: 10.4018/979-8-3693-1306-0.ch004
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MLA

Harikrishnan, S., et al. "Advancements in Vanadium Disulphide (VS2) Nanomaterials for Enhanced Energy Storage Synthesis Techniques, Electrochemical Properties, and Prospective Outcomes." Next Generation Materials for Sustainable Engineering, edited by Shrikaant Kulkarni, et al., IGI Global, 2024, pp. 49-93. https://doi.org/10.4018/979-8-3693-1306-0.ch004

APA

Harikrishnan, S., Abhijith, A. R., Rajput, J., Sharma, D., & Srivastava, A. (2024). Advancements in Vanadium Disulphide (VS2) Nanomaterials for Enhanced Energy Storage Synthesis Techniques, Electrochemical Properties, and Prospective Outcomes. In S. Kulkarni, B. Kharisov, A. Haghi, & V. Srivastava (Eds.), Next Generation Materials for Sustainable Engineering (pp. 49-93). IGI Global. https://doi.org/10.4018/979-8-3693-1306-0.ch004

Chicago

Harikrishnan, S., et al. "Advancements in Vanadium Disulphide (VS2) Nanomaterials for Enhanced Energy Storage Synthesis Techniques, Electrochemical Properties, and Prospective Outcomes." In Next Generation Materials for Sustainable Engineering, edited by Shrikaant Kulkarni, et al., 49-93. Hershey, PA: IGI Global, 2024. https://doi.org/10.4018/979-8-3693-1306-0.ch004

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Abstract

Nanomaterials have become a viable way to improve the performance of batteries and supercapacitors in the quest for effective and sustainable energy storage solutions. This chapter provides an in-depth look at current advances in synthesis processes and applications of VS2-based nanomaterials in energy storage devices. The discussion carefully assesses electrochemical characteristics of VS2-based nanomaterials while critically analyzing alternative synthesis techniques and composite approaches. Furthermore, the chapter highlights current research discoveries concerning the performance of VS2-based nanomaterials in various types of batteries. Additionally, potential uses of VS2-based nanomaterials in energy storage devices, such as lithium-ion batteries, sodium-ion batteries, potassium-ion batteries, zinc-ion batteries, magnesium-ion batteries, aluminum-ion batteries, and ammonium-ion batteries, are investigated. This review emphasizes the importance of VS2-based nanomaterials in energy storage applications and offers possible future research directions in this rapidly expanding sector.

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