Lithium Germanium Phosphorus Sulfide

Lithium Germanium Phosphorus Sulfide Powder Overview

Lithium Germanium Phosphorus Sulfide powder is a solid-state electrolyte material with high lithium-ion conductivity, widely used in next-generation all-solid-state lithium batteries. LGPS is known for its exceptional ionic mobility, thermal stability, and compatibility with lithium metal anodes, making it a key material for high-energy-density battery research and advanced energy storage applications.

Lithium Germanium Phosphorus Sulfide powder is supplied with controlled stoichiometry, phase purity, and particle morphology, suitable for research and development of solid-state lithium batteries. The material supports stable ionic conduction and reproducible electrochemical performance in laboratory and pilot-scale battery studies.

Product Highlights

High lithium-ion conductivity for solid-state battery applications
Thermal stability supporting safe operation in energy storage systems
Phase-pure LGPS structure with consistent stoichiometry
Fine particle morphology for enhanced electrode/electrolyte contact
Suitable for R&D of all-solid-state lithium batteries
Compatible with lithium metal anodes and composite electrode formulations

Applications of Lithium Germanium Phosphorus Sulfide Powder

All-Solid-State Lithium Batteries：LGPS powder is used as a solid electrolyte in the development of high-energy-density, safe all-solid-state lithium batteries.
Energy Storage Research & Development：The powder supports research into solid electrolyte performance, lithium-ion transport mechanisms, and interface engineering in solid-state battery systems.
Electrochemical & Materials Science Research：LGPS is applied in studies of ionic conductivity, stability, and compatibility with various cathode and anode materials.
Advanced Battery Materials：The material is used in composite electrodes, thin-film batteries, and experimental solid-state battery prototypes.

FAQs

Q1: Why is LGPS considered a promising solid electrolyte?
A1: LGPS offers exceptionally high lithium-ion conductivity, thermal stability, and compatibility with lithium metal, making it ideal for high-performance all-solid-state batteries.

Q2: How should LGPS powder be handled?
A2: Handle in inert or dry conditions to prevent moisture contamination and maintain ionic conductivity.

Q3: Can LGPS powder be combined with cathode materials?
A3: Yes, LGPS is commonly mixed with cathode powders to form composite electrodes for solid-state battery research.

Q4: Is LGPS powder suitable for lab-scale and pilot battery studies?
A4: Yes, it is widely used in R&D for both laboratory and pilot-scale solid-state battery testing.

Report

Each batch is supplied with:
Certificate of Analysis (COA)
Technical Data Sheet (TDS)
Material Safety Data Sheet (MSDS)
Third-party testing reports available upon request

Material Advantages

Lithium Germanium Phosphorus Sulfide powder combines high lithium-ion conductivity, thermal stability, and solid-state compatibility, making it a critical material for next-generation all-solid-state lithium batteries and advanced energy storage research.