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ATOMFAIR® Lithium Phosphorus Sulfide Li7P3S11 white powder substance inside a clear glass display bottle.

Lithium Li7P3S11 Sulfide Solid Electrolyte 10g ATOMFAIR®

$540.00

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 Li7P3S11 sulfide solid-state electrolyte with >10^-2 S/cm ionic conductivity. Compatible with Li metal. 10g quantity. Order now.

SKU: Li7P3S11
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Description

ATOMFAIR® LITHIUM PHOSPHORUS SULFIDE (LI7P3S11) SULFIDE SOLID-STATE ELECTROLYTE

RESEARCH GRADE MATERIAL

Product Overview
Lithium Phosphorus Sulfide (Li7P3S11) is a cutting-edge sulfide solid-state electrolyte designed for high-performance battery applications. This premium formula offers elite baseline testing control, variable elimination, and electrolyte validation platform benefits, making it an ideal choice for research teams reviewing competitive sulfide solid state electrolyte price structures or integrating a premier advanced battery technology solid state electrolyte matrix into next-generation systems.

Technical Specifications
PARAMETER DETAILS
1. Core Device & Electrochemical Design
Chemical Formula Li7P3S11
Conductivity Typically > 10-2 S/cm (varies based on processing conditions)
Phase Crystalline structure with favorable ionic pathways
Compatibility Compatible with lithium metal anodes and a variety of cathodes
2. Classification & Standards Trace
Electrolyte Type Sulfide 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 quantity formulations. For urgent technical custom requests or bulk institutional quotes, please contact our support team.

Key Features & Advantages
  • Homogeneous Material Purity: Features exceptional ionic conductivity at room temperature, facilitating efficient ion transport for optimized battery performance metrics.
  • Enhanced Operational Efficiency: Provides a highly stable chemistry against lithium anodes and alternative components, expanding safety alongside a wide electrochemical window compatible with various electrode pairs.
  • Optimized Sintering/Microstructure: Low-density solid-state engineering minimizes risk of thermal runaway or leakage while contributing to long cycle life and lightweight battery configurations.

APPLICATION SCOPE: Electric Vehicles, Portable Electronics requiring high energy density, Academic/Industrial Research, and Large-Scale Energy Storage Systems.
PACKAGING & HANDLING: Shipped in standard laboratory configurations. Use appropriate PPE when handling. Store in a cool, dry environment away from moisture and direct sunlight. Follow local chemical disposal regulations.
IMPORTANT NOTICE: Sulfide solid-state electrolyte materials degrade rapidly upon ambient humidity exposure. To successfully resolve technical challenges related to how to prevent sulfide electrolyte moisture degradation, this product must be processed exclusively within an anhydrous inert gas glovebox environment before thermal validation.

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

This sulfide solid-state electrolyte exhibits conductivity that varies significantly with processing conditions. Compatibility with lithium metal anodes and a variety of cathodes requires careful interface engineering and material verification.

  • Processing Sensitivity: Conductivity of Li7P3S11 depends on processing conditions, necessitating precise control during synthesis and fabrication.
  • Anode Compatibility: Compatibility with lithium metal anodes requires managing interfacial reactions to maintain performance.
  • Cathode Compatibility: The electrolyte is compatible with a variety of cathode materials, but individual cathode chemistries must be verified for compatibility.
  • Electrochemical Window: The wide electrochemical window must be respected to prevent decomposition at extreme operating voltages.

What is the typical ionic conductivity of Li7P3S11 and what processing factors influence it?

The ionic conductivity of Li7P3S11 is typically >10⁻² S/cm at room temperature, but this value varies significantly based on processing conditions such as synthesis route and densification parameters. The crystalline structure provides favorable ionic pathways that enable this high conductivity.

Is Li7P3S11 directly compatible with lithium metal anodes and standard cathode materials?

Yes, Li7P3S11 is explicitly compatible with lithium metal anodes and a variety of cathodes, as stated in the product specifications. It offers a wide electrochemical window and stable chemistry against lithium, making it suitable for direct interfacial contact without additional coatings in solid-state battery designs.

What storage conditions are required to maintain the performance of Li7P3S11 sulfide electrolyte?

Li7P3S11 must be stored in a cool, dry place away from moisture and direct sunlight to prevent structural degradation and loss of ionic conductivity. Moisture exposure can chemically alter the sulfide compound, and appropriate PPE should be used during handling to avoid contamination.

This lithium phosphorus sulfide (Li7P3S11) solid-state electrolyte delivers superionic conductivity above 10^-2 S/cm and stable compatibility with lithium metal anodes, but its acute moisture sensitivity and processing-dependent performance demand inert-atmosphere handling and precise process optimization.

Positive

  • Superionic Conductivity at Room Temperature: Achieves typical ionic conductivity >10^-2 S/cm at room temperature, directly enhancing battery rate capability and power density.
  • Lithium Metal Anode Compatibility: Chemically stable against lithium metal anodes and various cathode materials, enabling flexible design of high-energy-density solid-state cells.

Trade-offs

  • Moisture Sensitivity Requires Dry Handling: The material must be stored and handled in a dry, inert atmosphere to prevent degradation from ambient moisture, requiring glovebox or dry-room facilities.
  • Conductivity Dependent on Processing: The stated ionic conductivity range varies based on synthesis and processing conditions, necessitating rigorous quality control for reproducible performance.

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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