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Supercapacitors and Batteries
Our research develops advanced materials and electrode architectures for supercapacitors and batteries that enable fast ion transport, efficient charge storage, and long-term stability. By engineering porous, conductive, and redox-active frameworks, we aim to create next-generation energy-storage systems that combine high energy, high power, and long cycle life for portable electronics, electric mobility, and grid applications.
Our research develops advanced materials and electrode architectures for supercapacitors and batteries that enable fast ion transport, efficient charge storage, and long-term stability. By engineering porous, conductive, and redox-active frameworks, we aim to create next-generation energy-storage systems that combine high energy, high power, and long cycle life for portable electronics, electric mobility, and grid applications.
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