April 17th, 2023<\/p>\n
Due to the growing electric mobility, lithium-ion batteries (LIB) are produced on an ever larger scale, which leads to a large cost reduction and new possibilities for their use in energy storage at grid and\/or household level. By 2040, the number of electric vehicles is expected to increase by two to three orders of magnitude and stationary storage can reach up to 1,300 GWh.<\/p>\n
This raises concerns about the future and long-term availability and cost of critical raw materials (particularly cobalt, nickel, copper and lithium) used in LIB. Although LIBs are ideally suited for use in electromobility, Germany and Europe also need new, reliable, sustainable and cost-effective batteries for stationary storage. In such a scenario, sodium-ion batteries with aqueous electrolytes are an attractive alternative.
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\n\ud83e\uddbe\ud83d\udca6 HIU coordinates @BMBF_Bund<\/a> financed project “#NaSS<\/a>” #aqueous<\/a> #sodium<\/a> #batteries<\/a> \ud83d\udd0b for cost-effective & #sustainable<\/a> stationary #storage<\/a> \ud83c\udfaf Aiming at innovative #rechargeable<\/a> aqu. Na-ion #cells<\/a> @KITKarlsruhe<\/a> @uni_ulm<\/a> @fz_juelich<\/a> @SCHOTT_AG<\/a> @Qcells_EU<\/a> https:\/\/t.co\/IoBVKXOnso<\/a> pic.twitter.com\/oUbf80XHic<\/a><\/p>\n
\u2014 Helmholtz Institute Ulm \ud83c\uddea\ud83c\uddfa\ud83c\uddfa\ud83c\udde6 (@HelmholtzUlm) April 17, 2023<\/a><\/p><\/blockquote>\n