Journal
ADVANCED MATERIALS
Volume 34, Issue 3, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adma.202107346
Keywords
AIMD simulation; all-solid-state batteries; argyrodites; S; (2-); I; (-) disorder; ultrafast synthesis
Categories
Funding
- National Natural Science Foundation of China [U20A20126, 51971201]
- Development Program of Zhejiang Province [2021C01175]
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By doping LiI during synthesis, S2-/I- disorder is successfully introduced, promoting Li+ inter-cage jumps and enhancing long-range Li+ conducting. This electrolyte exhibits high ionic conductivity and stability, showing excellent performance in lithium metal batteries.
Lithium argyrodites are one of the most promising sulfide electrolytes due to their high ionic conductivity and ductile feature. Among them, Li6PS5I (LPSI) exhibits better stability against Li metal but a rather low ionic conductivity (only approximate to 10(-6) S cm(-1)) because of the absence of S2-/I- disorder. Herein, argyrodite Li6-xPS5-xI1+x glass-ceramic electrolytes with high iodine content are synthesized using ultimate-energy mechanical alloying method. S2-/I- disorder is successfully introduced into the system by doping LiI during this one-pot process. Determined by Li-6 magic angle spinning nuclear magnetic resonance and ab initio molecular dynamics simulations, the introduction of iodine promotes Li+ inter-cage jumps, leading to an enhanced long-range Li+ conducting. The Li5.6PS4.6I1.4 glass-ceramic electrolyte (LPSI1.4-gc) possesses high ionic conductivity (2.04 mS cm(-1)) and excellent stability against Li metal. The Li symmetric cell with the LPSI1.4-gc electrolyte demonstrates ultralong cycling stability over 3200 h at 0.2 mA cm(-2). LiCoO2/Li6PS5Cl/Li all-solid-state battery applying LPSI1.4-gc as the anode interlayer also presents prominent cycling and rate performance. This work provides a novel type of electrolyte with high ionic conductivity and stability against Li metal.
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