LIC HLIC-1 Li₃InCl₆ (Particle Size: 1-10μm | Ionic Conductivity: 1.5 ms/cm) — Lithium Indium Chloride Halide Solid-State Electrolyte Powder

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Model:Li3InCl6
 Particle Size:1-10 μm
 Theoretical Density:2.56 g/cm³
 Appearance (Powder):White powder, uniform, no foreign matter
 Ionic Conductivity (Cold Press):>1.5 mS/cm (25°C, 300MPa)
 Electronic Conductivity (Cold Press):<1×10⁻⁸ S/cm
 MOQ: 10g
 Leading time: 5-7 working days

SKU: Li3InCl6 Category:

LIC HLIC-1 Li₃InCl₆ (Particle Size: 1-10μm | Ionic Conductivity: 1.5 mS/cm) — Lithium Indium Chloride Halide Solid-State Electrolyte Powder

Product Overview

Li₃InCl₆ (HLIC) is a high-performance halide solid-state electrolyte powder with superior ionic conductivity (>1.0 mS/cm at 27°C under 300 MPa cold pressing) and excellent electrochemical stability. This white, free-flowing powder (D₅₀: 1–3 μm) is specifically designed for advanced all-solid-state battery research, offering compatibility with high-voltage cathodes (e.g., NCM811) and enhanced moisture stability compared to conventional sulfides.

Key Properties

Item Details
Chemical Abbreviation LIC
Molecular Formula Li₂InCl₄
Theoretical Density 2.56 g/cm³
Particle Size 1-10 μm
Appearance (Powder) White powder, uniform, no foreign matter
Ionic Conductivity (Cold Press) >1.5 mS/cm (25°C, 300MPa)
Electronic Conductivity (Cold Press) <1×10⁻⁸ S/cm
Electrochemical Window 2.38V–4.3V (calculated value), 1.9V–4.2V (measured value)
Preparation Method Liquid Phase Synthesis
Precautions Halides cannot exist stably in DMF or NMP solvents; stable in toluene and p-xylene
Halide: Cathode Material (Formula Reference) 30: 70

Material Advantages

  1. High Ionic Conductivity:
    • Room-temperature conductivity rivals liquid electrolytes, enabling fast Li⁺ transport.
    • Stable performance across -25°C to 75°C with no phase transitions.
  2. Electrochemical Stability:
    • Wide voltage window (0–5 V vs. Li⁺/Li) for use with high-energy cathodes.
    • Minimal reactivity with lithium metal anodes (CCD >2 mA/cm²).
  3. Process Flexibility:
    • Compatible with dry pressing (300–500 MPa) and slurry casting for scalable production.
    • Water-mediated synthesis route available for cost-effective manufacturing.
  4. Moisture Tolerance:
    • Reversible hydration/dehydration behavior (Li₃InCl₆ ↔ Li₃InCl₆·2H₂O) enhances air stability.

Applications

  • All-solid-state lithium batteries (ASSLBs)
  • Hybrid solid-liquid electrolyte systems
  • Cathode coatings to reduce interfacial resistance

Handling & Storage

  • Packaging: Sealed glass bottles with argon atmosphere (<0.1 ppm O₂/H₂O).
  • Shelf Life: 12 months when unopened; store in dry environments (<30% RH).
  • Safety: Use in glovebox for prolonged exposure; H₂S detectors recommended.