2021
DOI: 10.1002/aenm.202103178
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Highly Safe, Durable, Adaptable, and Flexible Fuel Cell Using Gel/Sponge Composite Material

Abstract: With the rapid development of portable and wearable electronics, safety concerns over flexible energy devices are inevitable. Therefore, it is important to develop energy supplies that are safe for use. In this work, a highly safe, durable, adaptable, and flexible air‐breathing direct methanol fuel cell (DMFC) is successfully prepared by synthesizing and applying a new composite material with agar gel and wood sponge, that is, a gel/sponge composite. The gel/sponge composite has a high absorption rate, high cy… Show more

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Cited by 11 publications
(7 citation statements)
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“…The gel/sponge composite-based flexible fuel cell stack could not only provide a 13.7 mWh/cm 2 power density but also retained the air-breathed methanol fuel under a 29.4 kPa pressure without fuel leakage. The fuel cell architecture was safe and could survive under numerous severe conditions including needle penetration, angle cutting, edge cutting, bending, and compression . To address the ethanol-crossover-induced catalyst poisoning, which has been the main obstacle for high-performance flexible fuel cells, it is essential to develop a highly active ORR electrocatalyst in the cathode that cannot be poisoned by fuels.…”
Section: Ldn-based Wearable Energy Devicesmentioning
confidence: 99%
“…The gel/sponge composite-based flexible fuel cell stack could not only provide a 13.7 mWh/cm 2 power density but also retained the air-breathed methanol fuel under a 29.4 kPa pressure without fuel leakage. The fuel cell architecture was safe and could survive under numerous severe conditions including needle penetration, angle cutting, edge cutting, bending, and compression . To address the ethanol-crossover-induced catalyst poisoning, which has been the main obstacle for high-performance flexible fuel cells, it is essential to develop a highly active ORR electrocatalyst in the cathode that cannot be poisoned by fuels.…”
Section: Ldn-based Wearable Energy Devicesmentioning
confidence: 99%
“…6a) reaches to 722 Wh kg − 1 . To fabricate a safe and flexible DMFC system, Zou et al [92] developed an agar gel/wood sponge composite material as methanol container, which is flexible and adaptable and shows high absorption rate and capacity of methanol (1.5% agar gel could reserve about 90% of methanol solution at 29.4 kPa). Due to no need for air pumps, self-breathing PEMFC shows the advantage in the flexible energy suppliers.…”
Section: Flexible Pemfc Systemmentioning
confidence: 99%
“…[14] In addition, these cells require relatively inexpensive and non-noble metal electrodes such as nickel, silver, etc. [17,18] These electrode materials are due to the faster redox reaction kinetics than others. Methanol, ethanol, ethylene glycol, and isopropanol are the alcohols utilized as a fuel in the alcohol fuel cells because of their high energy densities, compared to hydrocarbons and gasoline.…”
Section: Introductionmentioning
confidence: 99%