Biomass Activated Carbon Composites and Their Potential in Supercapacitor Applications: Current Trends and Future Perspectives

Reddygunta, Kiran Kumar Reddy; Kumar, Behara Dilip

doi:10.1021/acs.energyfuels.4c01159

Energy Fuels

2024

DOI: 10.1021/acs.energyfuels.4c01159

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Biomass Activated Carbon Composites and Their Potential in Supercapacitor Applications: Current Trends and Future Perspectives

Kiran Kumar Reddy Reddygunta,

Behara Dilip Kumar

Abstract: Supercapacitors have attracted increasing research interest in the search for high-power and high-energy-density energy storage systems, because they combine the exceptional power density of double-layer electrodes with the high energy density of faradaic-type electrodes into a single device. Biomass has been used as a renewable precursor to prepare carbonaceous electrodes for supercapacitor application, because of its diverse compositions and morphologies, excellent intrinsic structures, and renewability. Mor… Show more

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2024

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Cited by 5 publications

References 197 publications

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Fabrication of biocomposite materials with polycaprolactone and activated carbon extracted from agricultural waste

Mollaei,

Karbasi,

Sharifi Haddad

et al. 2024

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Fabrication of biocomposite materials with polycaprolactone and activated carbon extracted from agricultural waste

Mollaei,

Karbasi,

Sharifi Haddad

et al. 2024

Colloids and Surfaces A: Physicochemical and Engineering Aspect

View full text Add to dashboard Cite

Asymmetric Solid-State Supercapacitor Devices Made of Recycled Lithium-Ion Batteries and Palm Loofah Fibers with Exceptional Stability and Energy Density

Mesbah,

Sayed,

Allam

2024

Energy Fuels

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Green solid-state supercapacitors are becoming essential, especially with the increasing demand for energy storage devices. However, the acute desire for electronic devices has led to a surge in electronic waste, which affects the environment, human health, and economy. In this regard, we demonstrate the ability to repurpose recovered materials to fabricate highly compatible solid-state supercapacitor devices. Valuable metals from battery waste (M-BW) are recovered, purified through a straightforward hydrometallurgical method, and reused efficiently as positive electrodes in supercapacitor applications. Furthermore, the potential of carbon recycled from agriculture waste (C-AW) is explored as a carbonaceous material for supercapacitor negative electrodes. The morphological and compositional analyses of both recycled materials were characterized using field emission scanning electron microscopy, high-resolution transmission electron microscopy, X-ray diffraction, and X-ray photoelectron spectroscopy techniques. Then, M-BW was combined with C-AW to fabricate a hybrid solid-state supercapacitor device (M-BW//C-AW) and tested electrochemically. The device displays high specific capacitance (60 F g −1 ) and succeeds in providing high energy and power densities (31 Wh kg −1 at 875 W kg −1 ). Furthermore, it achieves superior stability with up to 50 000 cycles of charges and discharges, indicating its ability to efficiently store and deliver electrical energy with a capacitance retention rate of 100%.

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Developments in Sustainable Green Supercapacitors: A Minireview

Moorthi,

Mohan

2024

Energy Fuels

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This minireview revisits various biomass-derived carbon composites with metal oxides, layered double hydroxides, biopolymers, and the use of ionic liquids as electrolytes for green supercapacitors. These materials are abundant, stable, and nontoxic, offer high surface area, provide electrolyte accessibility due to their porous architecture, and have excellent electrical conductivity. Due to environmental concerns and the diminishing supply of fossil fuels, electrochemical energy storage devices have gained significant attention in recent years. Supercapacitors (SCs) hold a significant position due to their enhanced energy and power density compared to those of other energy storage devices. However, to utilize SCs effectively across various applications, their performance must be improved. Electronic devices are integral to daily life but can pose environmental hazards when discarded through conventional landfill or incineration methods. This is because these devices often contain harmful chemicals, such as sulfur, cyanide, and fluorine groups. To tackle this issue, there is increasing interest in developing green supercapacitor components, such as electrodes, electrolytes, binders, and conductive substrates, that are safe to dispose of and pose no environmental hazards. Since the electrode is crucial to a supercapacitor's performance, significant focus is devoted to developing electrode materials from clean and renewable sources, such as biomass-derived carbon and biopolymers. In fact, the use of such ecofriendly materials for electrodes and devices can advance other energy storage technologies as well.

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Biomass Activated Carbon Composites and Their Potential in Supercapacitor Applications: Current Trends and Future Perspectives

Cited by 5 publications

References 197 publications

Fabrication of biocomposite materials with polycaprolactone and activated carbon extracted from agricultural waste

Fabrication of biocomposite materials with polycaprolactone and activated carbon extracted from agricultural waste

Asymmetric Solid-State Supercapacitor Devices Made of Recycled Lithium-Ion Batteries and Palm Loofah Fibers with Exceptional Stability and Energy Density

Developments in Sustainable Green Supercapacitors: A Minireview

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