Road to better performing batteries using less critical raw materials
TU Delft researchers have developed a battery containing fewer critical materials, which can charge quickly, store a relatively large amount of energy and last longer
Peer-Reviewed PublicationA paper was recently published in Nature Energy by Marnix Wagemaker and Alexandros Vasileiadis in collaboration with researchers from the Chinese Academy of Sciences, on fast-charging Na-ion batteries and improvements made to the negative electrode. These can be made from organic materials. This reduces the dependence on rare materials that do not come from Europe.
Full article Origin of fast charging in hard carbon anodes (Nature Energy, (2024)
Plus point: cathode also improved
The Delft researchers have also improved the other side and published about it. This article in Nature Sustainability Fast-charge high-voltage layered cathodes for sodium-ion batteries details the development of a new positive electrode, based on design principles they published in Science in 2020, Rational design of layered oxide materials for sodium-ion batteries.
From these design principles, a material has been designed that combines the best of two possible structures: high energy density is combined with fast charging. As an added bonus, the material appears to change its structure very gradually during charging and discharging, making it last even longer. It also contains no cobalt as is still common in Li-ion cathodes.
Next steps
Thanks to the growing knowledge about these battery materials the third Growth Fund project sustainable battery technology the next step will be prepared. In it, in addition to Li-ion batteries research, Na-ion research will also be addressed nationally. The battery research will be further expanded, allowing this technology to be applied to national and European markets.
JOURNAL
Nature Sustainability
METHOD OF RESEARCH
Experimental study
SUBJECT OF RESEARCH
Not applicable
ARTICLE TITLE
Fast-charge high-voltage layered cathodes for sodium-ion batteries
ARTICLE PUBLICATION DATE
20-Feb-2024
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