Phosphate lithium‐ion conductors are outstanding electrolyte materials for solid‐state lithium batteries. As polycrystalline ceramics, they must be sintered at high temperatures. Lithium tungstate Li2WO4 (LWO) is reported for the first time as an effective sintering aid to reduce the sintering temperature for one of the most common solid‐state lithium‐ion conductors, Li1.5Al0.5Ti1.5(PO4)3 (LATP). While densification of LATP without sintering aids requires temperatures of at least 950 °C to obtain a relative density of 90 %, here relative densities of 90–95 % are achieved even at 775 °C when 5 wt.% of LWO are added. At 800 °C the LATP containing 5–7 wt.% LWO densifies to a relative density of 97.2 %. The ionic conductivity of LWO containing LATP is generally higher than that of pure LATP sintered at the same temperature. LATP containing 7 wt.% LWO shows high ionic conductivity of 4.4×10−4 S/cm after sintering at 825 °C. A significant reduction in sintering temperature, an increase in density and in the ionic conductivity of LATP as well as its non‐toxicity render LWO a very promising sintering aid for the development of LATP‐based solid state batteries.
Invited for this month's cover picture is the group of Prof. Fattakhova‐Rohlfing from Forschungszentrum Jülich (IEK‐1). The cover picture shows LATP powder and a dense LATP pellet obtained after powder sintering, which typically requires high temperatures. With only a small weight fraction of Li2WO4, a significant reduction in sintering temperature and increase in ionic conductivity can be achieved. Processing and performance improvements render Li2WO4 a very promising sintering aid for the development of LATP‐based solid‐state batteries like the pouch cell also shown in the cover picture. Read the full text of the Research Article at 10.1002/celc.202101366.
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