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Recent Advances in Supercapacitor Materials: A Review on Performance Enhancement, Flexibility, and Scalability for Next-Generation Energy Storage
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Author(s): Zakia Aribou (Ibn Tofail University, Morocco), Khaoula Mzioud (Ibn Tofail University, Morocco), Moussa Ouakki (Ibn Tofail University, Morocco), Nouhaila Ferraa (Ibn Tofail University, Morocco), Said Bakkali (University of Hassan II Casablanca, Morocco)and Mohamed Ebn Touhami (Ibn Tofail University, Morocco)
Copyright: 2026
Pages: 74
Source title:
Advancements and Innovations in Electrochemical Conversion and Energy Storage
Source Author(s)/Editor(s): Khaoula Alaoui (Ibn Tofail University, Morocco), Moussa Ouakki (Ibn Tofaïl University, Morocco)and Younes El Kacimi (Ibn Tofail University, Morocco)
DOI: 10.4018/979-8-3373-3156-0.ch005
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Abstract
Supercapacitors are attracting attention as high-performance energy storage devices, especially for flexible electronics. They offer high power density, long cycle life, and fast charge/discharge, making them strong alternatives to batteries in applications requiring quick energy delivery. This study reviews recent advances in supercapacitor materials, focusing on enhancing electrode performance through nanostructures and conductive composites. These innovations have significantly improved specific capacitance and electrochemical stability. The development of heat-resistant separators and highly conductive electrolytes has further improved performance under harsh conditions. Research is also advancing flexible supercapacitors to meet demand for wearable and portable electronics. Their improved mechanical flexibility and solid-state performance enable new tech integrations. However, large-scale production faces challenges such as high manufacturing costs and complex material synthesis. Continued efforts are needed to reduce costs and enable commercial use across energy storage sectors
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