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Advancements in Battery Materials for Rapid Charging: A Path Toward Sustainable and Efficient Energy Storage
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  • Jibrin Muhammad Yelwa,
  • Haruna Musa,
  • Alhagie Drammeh,
  • Kalu Michael Kalu,
  • Bashir Mohammed Aliyu
Jibrin Muhammad Yelwa
National Research Institute for Chemical Technology

Corresponding Author:mjyelwa@gmail.com

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Haruna Musa
Bayero University
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Alhagie Drammeh
University of the Gambia School of Arts and Sciences
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Kalu Michael Kalu
Gombe State University
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Bashir Mohammed Aliyu
National Research Institute for Chemical Technology
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Abstract

Fast-charging battery technology plays a vital role in the development of EVs and portable electronics, where quick charging is so crucial in reducing downtime to reduce delays and enhance user friendliness. Though lithium-ion batteries have always been at the top among their peers, their fast-charging capabilities have a limitation connected with thermal management, electrolyte stability, and material degradation. This review discusses recent advances in battery materials for rapid charging, focusing on novel anodes and cathodes like silicon and nickel-rich composition, along with solid-state and gel polymer electrolytes. Emerging trends related to the innovation of solid-state batteries, AI-enabled material development, and hybrid batteries are also discussed, which may provide promising ways to circumvent existing challenges. For the realization of effective, safe, and durable fast-charging solutions, it is always important to balance high charge rates against stability, cost, and sustainability. The scalability of materials and technologies in future research work should be ensured with minimal environmental impact.
11 Nov 2024Submitted to Battery Energy
12 Nov 2024Submission Checks Completed
12 Nov 2024Assigned to Editor
12 Nov 2024Review(s) Completed, Editorial Evaluation Pending
27 Nov 2024Reviewer(s) Assigned