A Halide Solid-State Electrolyte
High ionic conductivity and wide electrochemical window
Product Information | MSDS | Literature & Reviews | Related Products
Lithium indium chloride (LIC) is a halide solid-state electrolyte used in next-generation all-solid-state batteries. Lithium indium chloride exhibits a wide electrochemical window. When paired with lithium cobalt oxide, LIC demonstrates capacity retention of 73.6% at 5.27 V after 70 cycles. Lithium indium chloride possesses layered structure that facilitates ion transport. LIC also shows linear I–V curves across all sweep rates, indicating a stable ion-transport pathway with low interfacial and bulk resistance. Lithium indium chloride typically exhibits high ionic conductivity in the range of 10–3 S/cm.
Lithium indium chloride can also be used to fabricate quasi-solid-state composite electrolytes with conducting polymers such as PEDOT:PSS. These composite electrolytes deliver a high initial discharge capacity of approximately 160 mAh/g with only 4% capacity fade after 30 cycles.
High Ionic Conductivity
In the range of 10−4 to 10−3 S/cm
Low Cost Material
For affordable and effective battery R&D
Highly Stable Electrolyte
For safe solid-state
batteries
Worldwide shipping
Reliable delivery via tracked courier as standard
General Information
| CAS Number | N/A |
|---|---|
| Chemical Formula | Li3InCl6 |
| Full Name | Lithium indium chloride |
| Molecular Weight | 345.35 g/mol |
| Synonyms | LIC, Lithium hexachloroindate, Lithium indium hexachloride, HLIC |
| Classification or Family | Solid-state electrolytes, Solid-state batteries, Quasi-solid-state electrolyte, Lithium-ion batteries, Halide solid electrolyte |
Product Details
| Ionic Conductivity | 1.54 × 10–3 S/cm |
|---|---|
| Appearance | White powder |
MSDS Documentation
Lithium-Indium Chloride (Li3InCl6) Powder MSDS Sheet
References
- On the influence of Li3InCl6—PEDOT:PSS hybrids in solid-state batteries prepared via an aqueous one-pot approach, E. Nazmutdinova, Batteries & Supercaps., 7, e202300434 (2024); DOI: 10.1002/batt.20230043.
- Design and evaluations of nanoceramic electrolytes used for solid-state lithium battery, S. Bashir et al., npj Mater. Sustain., 2, 37 (2024); DOI: 10.1038/s44296-024-00039-3.
- Wet chemistry route to Li3InCl6: Microstructural control renders high ionic conductivity and enhanced all-solid-state battery performance, J. Bonsu et al., Adv. Sci., 11, 2403208 (2024); DOI: 10.1002/advs.202403208.
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