Kazi Kutubuddin Sayyad Liyakat,
- Professor & Head, Department of E&TC Engineering, BMIT, Solapur, Maharashtra, India
Abstract
Carbon materials, like activated carbon, and graphene, are abundant and can be produced sustainably. This eco-friendliness aligns well with the overarching goals of electric vehicle manufacturers who are keen to diminish their carbon footprint. Their compatibility with renewable energy systems also opens avenues for integrated energy solutions, enhancing overall system efficiency. Carbon-based supercapacitors hold significant promises as complementary energy storage devices in the electric vehicle landscape. While challenges related to energy density, cost, and material performance remain. By harnessing the benefits of carbon-based supercapacitors, the electric vehicle industry stands to enhance performance, extend battery life, and ultimately contribute to a more sustainable transportation ecosystem. As technology progresses, carbon-based supercapacitors may well become a cornerstone in the electrification of mobility, bridging the gap between current limitations and the future of green transportation. Looking forward, the future of carbon-based supercapacitors in electric vehicles seems promising, hinging on several key advancements. Research is ongoing into hybrid systems that combine supercapacitors and batteries, leveraging the strengths of both technologies. This could lead to optimized energy storage solutions that utilize supercapacitors for rapid energy release and batteries for sustained energy output, potentially leading to more efficient and longer-range electric vehicles.
Keywords: Supercapacitor, carbon, electric vehicles, ultracapacitor, power density, temperature
[This article belongs to Journal of Nanoscience, NanoEngineering & Applications ]
Kazi Kutubuddin Sayyad Liyakat. Carbon based Supercapacitor for Electric Vehicles. Journal of Nanoscience, NanoEngineering & Applications. 2024; 14(03):01-11.
Kazi Kutubuddin Sayyad Liyakat. Carbon based Supercapacitor for Electric Vehicles. Journal of Nanoscience, NanoEngineering & Applications. 2024; 14(03):01-11. Available from: https://journals.stmjournals.com/jonsnea/article=2024/view=179371
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Journal of Nanoscience, NanoEngineering & Applications
| Volume | 14 |
| Issue | 03 |
| Received | 26/09/2024 |
| Accepted | 07/10/2024 |
| Published | 23/10/2024 |
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