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Team develops safe and long-cyclable lithium metal battery for high temperatures

Date:
July 22, 2024
Source:
The University of Hong Kong
Summary:
In recent years, batteries have become ubiquitous in consumers' daily lives. However, existing commercial battery technologies, which use liquid electrolytes and carbonaceous anodes, have certain drawbacks such as safety concerns, limited lifespan, and inadequate power density particularly at high temperatures.
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In recent years, batteries have become ubiquitous in consumers' daily lives. However, existing commercial battery technologies, which use liquid electrolytes and carbonaceous anodes, have certain drawbacks such as safety concerns, limited lifespan, and inadequate power density particularly at high temperatures.

Yet, there is an increasing need for batteries that can operate in extreme conditions, such as the high temperatures required in various industrial sectors, including medical device sterilisation, subsurface exploration, and thermal reactors.

This has prompted researchers to search for solid electrolytes that are safe and compatible with lithium metal anodes, which are known for their high theoretical specific power capacity.

A research team led by Professor Dong-Myeong Shin of Department of Mechanical Engineering at the University of Hong Kong (HKU) has developed a new generation of lithium metal batteries, representing a significant advancement in the field. Their innovation centres on microcrack-free polymer electrolytes, integral to these batteries, which promise extended lifespan and enhanced safety at elevated temperatures.

The findings have been published in the journal Advanced Science with the title "Accelerated Selective Li+ Transports Assisted by Microcrack-Free Anionic Network Polymer Membranes for Long Cyclable Lithium Metal Batteries."

The microcrack-free polymer electrolytes developed by Professor Shin's team are synthesised via a straightforward one-step click reaction, exhibiting notable attributes including resistance to dendrite growth and non-flammability, demonstrating a high electrochemical stability window up to 5 V, and an ionic conductivity of 3.1 × 10−5 S cm−1 at high tempuratures.

These enhancements are attributed to tethered borate anions within the microcrack-free membranes, which facilitate accelerated selective transport of Li+ ions and suppress dendrite formation. Ultimately, these anionic network polymer membranes enable lithium metal batteries to function as safe, long-cycling energy storage devices at high temperatures, maintaining 92.7% capacity retention and averaging 99.867% coulombic efficiency over 450 cycles at 100°C. Normally, the cycling performance of conventional liquid electrolytes Li metal batteries is fewer than 10 cycles at high temperatures.

The breakthrough by the research team potentially paves the way for future advancements in anionic polymer electrolyte design for next-generation lithium batteries.

"We believe this innovation opens doors for new battery chemistries that can revolutionise rechargeable batteries for high-temperature applications, emphasising safety and longevity," said Dr Jingyi Gao, the first author of the paper.

"Apart from applications in high-temperature scenarios, the microcrack-free electrolyte membranes also have the potential to enable fast charging due to low overpotential. This capability could allow electric vehicles to recharge in the time it takes to drink a cup of coffee, marking a significant advancement towards a clean energy future," Professor Shin added.


Story Source:

Materials provided by The University of Hong Kong. Note: Content may be edited for style and length.


Journal Reference:

  1. Jingyi Gao, Jiaming Zhou, Xiaodie Chen, Ran Tao, Yao Li, Yu Ru, Chang Li, Eunjong Kim, Xiaoting Ma, Min Wang, Yoonseob Kim, Seungkyu Lee, Dong‐Myeong Shin. Accelerated Selective Li+ Transports Assisted by Microcrack‐Free Anionic Network Polymer Membranes for Long Cyclable Lithium Metal Batteries. Advanced Science, 2024; 11 (17) DOI: 10.1002/advs.202308530

Cite This Page:

The University of Hong Kong. "Team develops safe and long-cyclable lithium metal battery for high temperatures." ScienceDaily. ScienceDaily, 22 July 2024. <www.sciencedaily.com/releases/2024/07/240722155132.htm>.
The University of Hong Kong. (2024, July 22). Team develops safe and long-cyclable lithium metal battery for high temperatures. ScienceDaily. Retrieved November 20, 2024 from www.sciencedaily.com/releases/2024/07/240722155132.htm
The University of Hong Kong. "Team develops safe and long-cyclable lithium metal battery for high temperatures." ScienceDaily. www.sciencedaily.com/releases/2024/07/240722155132.htm (accessed November 20, 2024).

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