A lithium–air battery and gas handling system demonstrator

Jordan, Jack W.; Vailaya, Ganesh; Holc, Conrad; Jenkins, Max; McNulty, Rory C.; Puscalau, Constantin; Tokay, Begum; Laybourn, Andrea; Gao, Xiangwen; Walsh, Darren A.; Newton, Graham N.; Bruce, Peter G.; Johnson, Lee R.

doi:10.1039/d3fd00137g

Faraday Discuss.

2024

DOI: 10.1039/d3fd00137g

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A lithium–air battery and gas handling system demonstrator

Jack W. Jordan,

Ganesh Vailaya,

Conrad Holc

et al.

Abstract: The lithium-air (Li-air) battery offers one of the highest practical specific energy densities of any battery system at >400 Wh kg-1system. The practical cell is expected to operate in air,...

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2024

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Cited by 2 publications

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Automated Robotic Cell Fabrication Technology for Stacked‐Type Lithium‐Oxygen Batteries

Matsuda,

Kimura,

Takahashi

2024

Batteries & Supercaps

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Rechargeable lithium‐oxygen batteries (LOBs) are gaining interest as next‐generation energy storage devices due to their superior theoretical energy density. While recent years have seen successful operation of LOBs with high cell‐level energy density, the technology for cell fabrication is still in its infancy. This is because the cell fabrication procedure for LOBs is quite different from that of conventional lithium‐ion batteries. The study presents a fully automated sequential robotic experimental setup for the fabrication of stacked‐type LOB cells. This approach allows for high accuracy and high throughput fabrication of the cells. The developed system enables the fabrication of over 80 cells per day, which is 10 times higher than conventional human‐based experiments. In addition, the high alignment accuracy during the electrode stacking and electrolyte injection process results in improved battery performance and reproducibility. The effectiveness of the developed system was also confirmed by investigating a multi‐component electrolyte to maximize battery performance. We believe the methodology demonstrated in the present study is beneficial for accelerating the research and development of LOBs.

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Automated Robotic Cell Fabrication Technology for Stacked‐Type Lithium‐Oxygen Batteries

Matsuda,

Kimura,

Takahashi

2024

Batteries & Supercaps

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Singlet oxygen is not the main source of electrolyte degradation in lithium–oxygen batteries

Zor,

Jones,

Rees

et al. 2024

Energy Environ. Sci.

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A lithium–air battery and gas handling system demonstrator

Abstract: The lithium-air (Li-air) battery offers one of the highest practical specific energy densities of any battery system at >400 Wh kg-1system. The practical cell is expected to operate in air,...

Cited by 2 publications

References 51 publications

Automated Robotic Cell Fabrication Technology for Stacked‐Type Lithium‐Oxygen Batteries

Automated Robotic Cell Fabrication Technology for Stacked‐Type Lithium‐Oxygen Batteries

Singlet oxygen is not the main source of electrolyte degradation in lithium–oxygen batteries

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