ELECTRIC VEHICLE BATTERY MODIFICATION TECHNOLOGIES

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KM PRITY; SHWETA SINGH

ELECTRIC VEHICLE BATTERY MODIFICATION TECHNOLOGIES

Authors: KM PRITY, SHWETA SINGH

Unique Paper ID: 178092
PageNo: 8326-8329

Keywords: Electric Vehicle Battery Modification Technology Nanomaterials

Abstract:
Modifying electric vehicle (EV) batteries has emerged as a key research focus to boost their performance, durability, and environmental compatibility. Researchers are actively exploring cutting-edge strategies such as incorporating nanomaterials, enhancing thermal regulation, and developing advanced battery chemistries to overcome challenges like low energy density, slow charging rates, and battery wear. Materials like graphene and silicon-based anodes have shown promise in increasing energy capacity and improving charging speed. Effective thermal control methods, including phase change materials and liquid-based cooling systems, help extend battery life by preventing overheating. In addition, next-generation batteries like solid-state and lithium-sulfur types are being advanced to eventually replace conventional lithium-ion batteries, offering improved energy density and safety. Smart fast-charging protocols and AI-powered battery management systems are also proving essential in maximizing performance and minimizing charging durations. This review compiles recent technological developments in EV battery modifications, examines their influence on battery functionality, and outlines future directions to support the widespread implementation of next-generation EV battery systems.

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Copyright & License

Copyright © 2026 Authors retain the copyright of this article. This article is an open access article distributed under the Creative Commons Attribution License which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

BibTeX

@article{178092,
        author = {KM PRITY and SHWETA SINGH},
        title = {ELECTRIC VEHICLE BATTERY MODIFICATION TECHNOLOGIES},
        journal = {International Journal of Innovative Research in Technology},
        year = {2025},
        volume = {11},
        number = {12},
        pages = {8326-8329},
        issn = {2349-6002},
        url = {https://ijirt.org/article?manuscript=178092},
        abstract = {Modifying electric vehicle (EV) batteries has emerged as a key research focus to boost their performance, durability, and environmental compatibility. Researchers are actively exploring cutting-edge strategies such as incorporating nanomaterials, enhancing thermal regulation, and developing advanced battery chemistries to overcome challenges like low energy density, slow charging rates, and battery wear. Materials like graphene and silicon-based anodes have shown promise in increasing energy capacity and improving charging speed. Effective thermal control methods, including phase change materials and liquid-based cooling systems, help extend battery life by preventing overheating.
In addition, next-generation batteries like solid-state and lithium-sulfur types are being advanced to eventually replace conventional lithium-ion batteries, offering improved energy density and safety. Smart fast-charging protocols and AI-powered battery management systems are also proving essential in maximizing performance and minimizing charging durations. This review compiles recent technological developments in EV battery modifications, examines their influence on battery functionality, and outlines future directions to support the widespread implementation of next-generation EV battery systems.},
        keywords = {Electric Vehicle, Battery, Modification, Technology, Nanomaterials},
        month = {May},
        }

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Cite This Article

PRITY, K., & SINGH, S. (2025). ELECTRIC VEHICLE BATTERY MODIFICATION TECHNOLOGIES. International Journal of Innovative Research in Technology (IJIRT), 11(12), 8326–8329.

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8.01 (Year 2024)

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