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ATOMFAIR® Lithium Indium Scandium Chloride Li2In1/3Sc1/3Cl4 white powder inside a glass display bottle.

Li2In1/3Sc1/3Cl4 Solid Electrolyte 10g Grade ATOMFAIR®

$560.00

Institutional Procurement & Supply Compliance: As a verified US supplier, Atomfair accepts formal institutional Purchase Orders (POs), contract billing schedules, and custom procurement loops for university and national laboratories, and corporate R&D departments globally.

Research grade lithium indium scandium chloride solid electrolyte with >10^-2 S/cm conductivity and 10g quantity. Ideal for solid-state battery R&D. Order now.

SKU: Li2In1/3Sc1/3Cl4
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Description

ATOMFAIR® LITHIUM INDIUM SCANDIUM CHLORIDE (LI2IN1/3SC1/3CL4) SOLID-STATE ELECTROLYTE

RESEARCH GRADE MATERIAL

Product Overview
Lithium Indium Scandium Chloride (Li2In1/3Sc1/3Cl4) is a novel solid-state electrolyte designed for high-performance battery applications. This premium material offers unique properties that enhance the efficiency and safety of solid-state battery systems, providing elite baseline testing control, variable elimination, and electrolyte validation benefits for research teams tracking competitive chloride solid state electrolyte price benchmarks or integrating a premier advanced battery technology solid state electrolyte matrix.

Technical Specifications
PARAMETER DETAILS
1. Core Device & Electrochemical Design
Chemical Formula Li2In1/3Sc1/3Cl4
Conductivity Typically > 10-2 S/cm (varies based on processing conditions)
Phase Stable crystalline structure with favorable ionic pathways
Compatibility Suitable for use with lithium metal anodes and diverse cathode materials
2. Classification & Standards Trace
Electrolyte Type Chloride Solid-State Electrolyte
Manufacturing Rules Processed under strict [ISO 9001 standard compliance] conditions to preserve cell-to-cell structural control.
Alternative Options Explore our related catalog or custom dimension ranges. For urgent technical custom requests or bulk institutional quotes, please contact our support team.

Key Features & Advantages
  • Homogeneous Material Purity: Features excellent ionic transport properties paired with an optimized crystalline phase structure, ensuring outstanding performance across battery systems.
  • Enhanced Operational Efficiency: Demonstrates high chemical stability against lithium anodes and diverse cathodes, providing a wide electrochemical window and low density for lightweight, high-energy battery designs.
  • Optimized Sintering/Microstructure: Advanced solid-state engineering minimizes risk of thermal runaway and leakage, extending cycle life and fulfilling strict environmental standards for battery materials.

APPLICATION SCOPE: Solid-State Batteries for Electric Vehicles/Portable Electronics, Large-Scale Energy Storage Systems, and Academic/Industrial Research and Development.
PACKAGING & HANDLING: Shipped in protective laboratory-grade configurations. Use appropriate PPE during handling. Store in a cool, dry place away from direct sunlight. Follow local disposal regulations.
IMPORTANT NOTICE: Chloride-based solid-state electrolytes are highly sensitive to atmospheric humidity. To completely resolve technical queries regarding how to prevent chloride electrolyte moisture degradation, maintain storage and processing strictly within an anhydrous or climate-controlled environment matching strict battery fabrication protocols.

TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official institutional quotations.
EMAIL: support@atomfair.com
Manufacturer: Atomfair LLC
Brand: ATOMFAIR®

Lithium Indium Scandium Chloride (Li2In1/3Sc1/3Cl4) is a solid-state electrolyte with ionic conductivity exceeding 10^-2 S/cm under optimized processing conditions. Its chemical stability enables compatibility with lithium metal anodes and various cathode materials for battery research.

  • Processing Sensitivity: Ionic conductivity varies with processing conditions, requiring controlled fabrication parameters to achieve maximum performance.
  • Anode Compatibility: Material is chemically stable against lithium metal anodes under standard operating conditions.
  • Cathode Compatibility: Compatible with a range of cathode materials due to its wide electrochemical window.

How does the ionic conductivity of Li2In1/3Sc1/3Cl4 vary with processing conditions, and what is the typical achievable value?

The ionic conductivity of Li2In1/3Sc1/3Cl4 is typically >10^-2 S/cm, but it varies based on processing conditions. Achieving this value relies on maintaining a stable crystalline structure with favorable ionic pathways, as specified in the product data.

Is Li2In1/3Sc1/3Cl4 compatible with lithium metal anodes and high-voltage cathodes in solid-state batteries?

Yes, Li2In1/3Sc1/3Cl4 is suitable for use with lithium metal anodes and diverse cathode materials. It offers good chemical stability against lithium and a wide electrochemical window, making it compatible with both high-voltage cathodes and lithium metal anodes without significant degradation.

What are the critical storage conditions required to prevent moisture degradation of Li2In1/3Sc1/3Cl4 solid electrolyte?

Store Li2In1/3Sc1/3Cl4 in a cool, dry place away from moisture and direct sunlight to maintain its performance. Use appropriate PPE during handling, and follow local regulations for disposal of battery materials to ensure safety and compliance.

This solid-state electrolyte exhibits high ionic conductivity (typically >10⁻² S/cm) and demonstrates good chemical stability against lithium metal and diverse cathode materials, making it well-suited for high-energy-density solid-state battery research. However, its ionic transport performance is explicitly processing-condition-dependent, and the material requires storage in a cool, dry environment away from moisture to maintain integrity.

Positive

  • High Ionic Conductivity: With ionic conductivity typically exceeding 10⁻² S/cm, this material enables efficient lithium-ion transport essential for high-performance solid-state battery operation.
  • Good Chemical Stability: Shows good chemical stability against lithium metal and a range of cathode materials, supporting compatibility in advanced battery architectures.

Trade-offs

  • Processing-Dependent Conductivity: The specified ionic conductivity (typically >10⁻² S/cm) varies based on processing conditions, meaning final performance depends on careful synthesis and handling protocols.
  • Moisture and Light Sensitivity: Storage requires a cool, dry place away from moisture and direct sunlight to prevent degradation, imposing environmental control requirements during lab handling and storage.

Every advanced material, component, equipment, and instrument in our catalog is backed by rigorous testing. We maintain strict internal quality management frameworks and align with CE conformity metrics to deliver transparent, reproducible performance data via our public open-science repository.

To request raw batch performance data, submit formal vendor registration paperwork, or execute a fast-turnaround R&D manufacturing loop, contact us at inquiry@atomfair.com.

Item is dispatched under the Atomfair Shipping & Delivery Framework (Free worldwide shipping on orders over $59 USD). Return is governed by the Atomfair Return & Refund Policy (7-day technical return window).

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