Cotton‐Based Metal–Air Batteries without Catalysts as Low‐Cost Micropower Devices

Liu, Chunmei; Jiang, Pengfei; Liu, Jingjie; Gu, Jiaming; Lai, Gaoqiang

doi:10.1002/ente.202300555

Energy Tech

2023

DOI: 10.1002/ente.202300555

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Cotton‐Based Metal–Air Batteries without Catalysts as Low‐Cost Micropower Devices

Chunmei Liu,

Pengfei Jiang,

Jingjie Liu

et al.

Abstract: The cotton‐based metal–air batteries without any catalyst are constructed. Especially, the continuous electrolyte flowing depends on the capillary force and the gravity from the height difference between the inlet and outlet. The performance of the cotton‐based metal–air batteries under 2 mol L−1 NaOH or NaCl solutions is compared. The Al–air battery performance in the NaOH solution is better, while the Mg–air battery performance in the NaCl solution is the best. Considering the battery performance and cost, t… Show more

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2024

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Cited by 2 publications

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Research on the Performance of the Cotton‐Based Al‐Air Battery with the Tilt Angle

Liu,

Jiang,

Liu

et al. 2024

ChemistrySelect

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The passive cotton‐based Al‐air battery adopts the cotton cloth as the flow channel to transport the electrolyte by the capillary force from the cloth. An absorbent pad is usually put at the end of the cotton cloth to keep the electrolyte continuously flowing. Once the absorbent pad is saturated, the electrolyte flow slows down or even stops. This can affect the transportation of the electrolyte and product, decreasing the battery performance. To maintain the electrolyte's continuous flow, the cotton‐based Al‐air battery with the tilt angle was presented and constructed. The effects of the catalyst loadings, tilt angles, electrolyte types, and area ratios on this battery were studied. Under the 4 mg cm−2 carbon catalyst loading, 10° tilt angle, 4 mol L−1 KOH electrolyte, and anode‐to‐cathode area ratio of 1 : 3, this battery performance was optimal, with the peak power density of 78.09±0.68 mW cm−2 and limiting current density of 213.12±0.80 mA cm−2. Finally, the battery stack was gained by connecting the two batteries with the 10° tilt angle in series. This stack with a peak power of 48.47±0.37 mW could light the 44 LEDs.

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Research on the Performance of the Cotton‐Based Al‐Air Battery with the Tilt Angle

Liu,

Jiang,

Liu

et al. 2024

ChemistrySelect

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High specific capacity microfluidic Al-air battery with the double-side reactive anode

Liu,

Lai,

et al. 2024

Journal of Power Sources

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Cotton‐Based Metal–Air Batteries without Catalysts as Low‐Cost Micropower Devices

Cited by 2 publications

References 42 publications

Research on the Performance of the Cotton‐Based Al‐Air Battery with the Tilt Angle

Research on the Performance of the Cotton‐Based Al‐Air Battery with the Tilt Angle

High specific capacity microfluidic Al-air battery with the double-side reactive anode

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