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Synthesis and ionic conductivity studies of In- and Y-doped Li6Hf2O7 as solid-state electrolyte for all-solid state Li-ion batteries

机译：掺In和Y的Li6Hf2O7作为全固态锂离子电池的固态电解质的合成及离子电导率研究

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The development of all solid-state lithium batteries is reliant on suitable high performance solid state electrolytes. Here, we present the synthesis and ionic conductivity of the In- and Y-doped Li6Hf2O7 materials; Li6+xHf2-xMxO7 (M = In3+, Y3+). Microwave-assisted synthesis was used to give phase pure material after heating for 4 hours at 850 oC. The ionic conductivity of the materials is increased with the insertion of interstitial lithium ion within the structure from 0.02 to 0.25 mS cm-1 at 174 oC and the activation energy for ionic conduction is lowered from 0.97(4) eV to 0.42(3) eV with respect to the undoped material.

机译：所有固态锂电池的开发都依赖于合适的高性能固态电解质。在这里，我们介绍了In和Y掺杂的Li6Hf2O7材料的合成和离子电导率。 Li6 + xHf2-xMxO7（M = In3 +，Y3 +）。在850℃下加热4小时后，使用微波辅助合成法得到纯相材料。在174 oC下，随着结构内插入间隙锂离子，材料的离子电导率从0.02 mS cm-1增加到0.25 mS cm-1，离子传导的活化能从0.97（4）eV降低到0.42（3）eV关于未掺杂的材料。

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Amores M.; Corr S. A.; Cussen E. J.;
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7. Synthesis and ionic conductivity studies of In- and Y-doped Li6Hf2O7 as solid-state electrolyte for all-solid state Li-Ion batteries [O] . Amores M., Corr S.A., Cussen E.J. 2017

机译：In-和Y-掺杂Li6Hf2O7作为全固态锂离子电池固态电解质的合成和离子电导率研究

Synthesis and ionic conductivity studies of In- and Y-doped Li6Hf2O7 as solid-state electrolyte for all-solid state Li-ion batteries

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