Journal
CURRENT OPINION IN ELECTROCHEMISTRY
Volume 36, Issue -, Pages -Publisher
ELSEVIER
DOI: 10.1016/j.coelec.2022.101120
Keywords
Sodium-air batteries; Deposition and dissolution mechanism; Sudden death; Ionic liquids; Metallic anode; Superoxide anion
Funding
- Australian Research Council Training Centre for Future Energy Storage Technologies [IC180100049]
- Australian Government
- Basque Government (Elkartek CICe2020) [KK-2020/00078]
- Ramon y Cajal grant - MCIN/AEI [RYC- 2020-030104-I]
- ESF Investing in your future
- Australian Research Council [IC180100049] Funding Source: Australian Research Council
Ask authors/readers for more resources
NAB, as an energy storage technology using sustainable and abundant materials, has great potential but requires further research to overcome issues with battery components, electrodes, and electrolytes. Recent breakthroughs have provided a deeper understanding of battery operation and paved the way for commercialization of NAB.
An energy storage technology, that uses sustainable and abundant materials such as sodium and oxygen, known as Na-air/O(2 )battery (NAB), is desirable for our society and is a real alternative to current and dominant technologies such as Li-ion batteries. However, this technology (NAB) still requires more research to overcome some of the main issues that affect the battery components, electrodes, and electrolytes. Important breakthroughs have been published during the last decade to gain deep knowledge into the battery operation towards NAB commercialisation. In this opinion, we cover the most research in the charge and discharge mechanism, as well as the sudden death of NABs reported in the literature. The section on future directions will be a valuable guidance to the research society and the development of the NAB technology.
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