Kela Materials presents Urchin-like Bismuth Sulfide (Bi₂S₃), a high-performance inorganic material designed as a cost-effective replacement for Germanium (Ge) in LGPS-type sulfide solid electrolytes (Li₁₀GeP₂S₁₂).
Bi₂S₃ enables the development of Ge-free or Ge-reduced LGPS systems while maintaining strong lithium-ion conductivity, stable structural properties, and improved scalability for next-generation solid-state batteries.
The unique urchin-like nanostructure increases surface area and enhances solid-state reaction pathways, resulting in improved electrolyte densification and enhanced Li⁺ transport performance in modified LGPS formulations.
Urchin-like Bismuth Sulfide (Bi₂S₃) – LGPS Substitute is an advanced solid-electrolyte modification material from Kela Materials designed to replace Germanium (Ge) in Li₁₀GeP₂S₁₂-type sulfide solid electrolytes. Bi₂S₃ lowers material cost, improves scalability, and enables formation of LGPS-like high-conductivity solid electrolytes for next-generation solid-state batteries. The urchin-like morphology enhances reactivity and promotes efficient ion-transport pathways.
Urchin-like Bismuth Sulfide (Bi₂S₃) is a high-purity inorganic material used as a cost-effective and scalable substitute for Germanium (Ge) in LGPS-type sulfide solid electrolytes.
Bi₂S₃ enables germanium-free LGPS formulations while maintaining strong ionic conductivity, lowering cost, and improving large-scale solid-state electrolyte production.
The urchin-like nanostructure increases surface area, enhances solid-state reaction uniformity, and supports efficient Li⁺ transport pathways.
Bi₂S₃ significantly reduces raw-material cost by eliminating the need for Ge in Li₁₀GeP₂S₁₂-type systems.
Optimized Bi-doped LGPS materials can achieve competitive lithium-ion conductivity with stable activation energy.
Bi₂S₃ is compatible with mechanochemical milling, sintering, and cold-pressing used in LGPS manufacturing.
Bi₂S₃ exhibits stable chemical behavior under typical solid-state electrolyte processing and is suitable for R&D and pilot-scale production.
Suitable for high-energy ASSBs requiring stable ionic conduction and reduced materials cost.
Bi₂S₃ supports the formation of Li₁₀BiₓP₂S₁₂₋ₓ structures with reliable transport pathways.
Used in material screening, formulation development, and process optimization for next-generation sulfide electrolytes.
Each batch maintains consistent structure, purity and particle behavior for dependable electrolyte performance.
Kela ensures stable supply and consistent quality for research institutions, pilot lines, and early-stage production.
Support available for Bi-doping strategies, synthesis conditions, and electrolyte performance optimization.
Urchin-like Bi₂S₃ partially replaces Germanium (Ge) in LGPS-type electrolytes, enabling Li₁₀BiₓP₂S₁₂₋ₓ compositions with lower cost and strong lithium-ion conductivity.
Bi₂S₃ is significantly cheaper and more abundant than Ge, enabling scalable LGPS manufacturing for solid-state batteries.
Yes. Bi₂S₃-modified LGPS can maintain high Li⁺ conductivity when optimized for doping level and synthesis temperature.