As a type of energy storage device between traditional capacitors and batteries, the supercapacitor has the advantages of energy saving and environmental protection, high
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Battery-, fuel cell-, and electrochemical capacitor (also known as supercapacitor (SC))-based electrochemical energy has a key role in meeting today''s energy demands
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The reported carbon-based electrodes so far used for the cathode in HSCs are graphite, CNTs, graphene, activated carbon (AC),
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The present paper reports comprehensive reviews of the recent development in carbon material with reliance on carbon-based copper sulfide nanocomposit
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Since carbon-based active materials are the key focus of this review, synthesis parameters, such as carbonisation, activation, and functionalisation, which can impact a
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However, carbon materials alone exhibit limitations, such as low energy density and low specific capacitance. To address this limitation, the synergistic effect of carbon
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However, commercially available supercapacitors, which commonly use high-surface-area carbon-based electrodes and organic solutions as electrolytes, suffer from inferior energy
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However, carbon materials alone exhibit limitations, such as low energy density and low specific capacitance. To address this
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As a type of energy storage device between traditional capacitors and batteries, the supercapacitor has the advantages of
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The advancement of energy storage technologies requires novel material design concepts to address performance, scalability, and sustainability goals. Carbon nanomaterials,
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This review aims to provide readers a comprehensive understanding of the energy storage mechanism of carbon-based supercapacitors and commonly used carbon electrode
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Then, research on carbon-based material electrodes for supercapacitor in recent years is summarized, including different dimensional carbon-based materials and biomass-derived
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The reported carbon-based electrodes so far used for the cathode in HSCs are graphite, CNTs, graphene, activated carbon (AC), 3D mesoporous carbons and different metal
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