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Activated carbon fibers derived from dryer lint via self-generated atmosphere for supercapacitor applications

Activated carbon fibers (ACFs) were synthesized using a straightforward two-step process from dryer lint microfibers in a self-generated atmosphere. During pyrolysis and activation, a CO/CO 2 environment was created based on the Boudouard equilibrium. The resulting ACFs showed a high specific surfac...

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Published in:Ionics 2024-09, Vol.30 (9), p.5853-5860
Main Authors: Igba, Victor Mshi, Garcia-Lobato, M. A., García-Pérez, Ulises Matías, Oyervides-Muñoz, E., Martínez-Mora, Eder I.
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container_end_page 5860
container_issue 9
container_start_page 5853
container_title Ionics
container_volume 30
creator Igba, Victor Mshi
Garcia-Lobato, M. A.
García-Pérez, Ulises Matías
Oyervides-Muñoz, E.
Martínez-Mora, Eder I.
description Activated carbon fibers (ACFs) were synthesized using a straightforward two-step process from dryer lint microfibers in a self-generated atmosphere. During pyrolysis and activation, a CO/CO 2 environment was created based on the Boudouard equilibrium. The resulting ACFs showed a high specific surface area (1720 m 2 /g), a suitable pore size distribution, and good electrical conductivity (0.34–0.36 S/cm), promoting rapid ion transfer. ACFs demonstrated a high specific capacitance of 156.2 at 0.9 V and 180.3 F/g at 1 V. Notably, ACFs demonstrated outstanding rate capability with a power density exceeding 35 kW/kg, along with an extended cycle life of at least charge/discharge 10 4 cycles. These results are comparable to methods involving tube furnaces under inert gas with controlled heating ramps.
doi_str_mv 10.1007/s11581-024-05701-3
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subjects Activated carbon
Brief Report
Carbon fibers
Charge density
Chemistry
Chemistry and Materials Science
Condensed Matter Physics
Electrical resistivity
Electrochemistry
Energy Storage
Flux density
Microfibers
Optical and Electronic Materials
Pore size distribution
Pyrolysis
Rare gases
Renewable and Green Energy
Tube furnaces
title Activated carbon fibers derived from dryer lint via self-generated atmosphere for supercapacitor applications
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