logo
products
PRODUCTS DETAILS
Home > Products >
Lithium Phosphorus Sulfur Chloride LPSCI Sulfide Solid Electrolyte Research Experiment
Products

Battery Lab Equipment

Battery Production Line

Cylindrical Cell Production Line

Prismatic Cell Manufacturing

Pouch Cell Manufacturing

Lithium Ion Battery Raw Material

Cathode Material

Anode Material

Battery Electrolyte

Battery Separator

Coin Cell Parts

Cylindrical Cell Parts

Battery Tabs

Battery Current Collector

Battery Binder

Battery Conductive Materials

Battery Pack Materials

Welding Electrode

Welding Jig

Prismatic Battery Belt

Prismatic Battery End Plate

Battery Pack Case

Battery Insulation Sheet

Sodium Ion Battery Materials

Sodium Ion Battery Cathode Material

Solid State Battery Materials

Solid Electrolyte

Solid State Battery Separator

Battery Pack Accessories

Battery Pack Holder

Nickel Strip Sheet

Battery Pack Shrink Tube

Insulation Highland Barley Paper

Battery Pack Assembly Line

Battery Cell Sticking Machine

Battery Cell Sorting Machine

Battery Spot Welding Machine

Battery CCD Tester

Plasma Cleaning Machine

PVC Shrinking Machine

Nickel Strip Cutting Machine

Laser Cleaning Machine

Battery Laser Welding Machine

Prismatic Battery Compress Machine

Battery Testing Equipment

Battery Grading Machine

Battery Charge And Discharge Machine

BMS Testing Machine

Battery Comprehensive Tester

Battery Safety Testing Equipment

Waste Battery Crushing Recycling Line
Contact Us
Mr. Sammy Qin
sammyqin@outlook.com
86--18620492985
WeChat qzgqzg
Contact Now
Lithium Phosphorus Sulfur Chloride LPSCI Sulfide Solid Electrolyte Research Experiment
  • name

Lithium Phosphorus Sulfur Chloride LPSCI Sulfide Solid Electrolyte Research Experiment

MOQ: 100g
Price: 1-1000USD/Negotiable
Standard Packaging: Plastic package
Delivery Period: 5-7 days
Payment Method: L/C,D/A,D/P,T/T,Western Union,MoneyGram
Supply Capacity: 1 t/month
Details Information
Product Description
Detail Information
Place of Origin
CHINA
Brand Name
XWELL
Certification
CE
Model Number
LPSCI (Li₅.₅PSCl₁.₅)
Model:
Li₅.₅PSCl₁.₅
Chemical Formula​:
Li₇₋ₓLa₃Zr₂₋ₓ(Nb,Ta)ₓO₁₂ (x=0.2-0.7)
​​Ionic Conductivity​:
≥6 MS/cm (25°C)
Particle Size:
D₅₀<15μm, D₉₀<35μm
​​Morphology​​:
Irregular Rough-surface
Electrochemical Window​:
0-5V Vs. Li⁺/Li
Purity​:
≥99.9%
Storage:
Argon Glovebox (<0.1ppm O₂/H₂O)
Highlight:

LPSCI Solid Electrolyte

,

Sulfide Solid Electrolyte

,

LPSCI lithium phosphorus sulfur chloride

Product Description

Lithium Phosphorus Sulfur Chloride LPSCI Sulfide Solid Electrolyte ≥6mS/cm All-solid-state Battery Material Research Experiment

Material Overview​

LPSCI (Li₅.₅PSCl₁.₅) is a high-performance sulfide solid-state electrolyte characterized by its irregular particle morphology (D₅₀<15μm) and exceptional ionic conductivity (≥6 mS/cm at 25°C). The SU8600 SEM image (20.0kX magnification) reveals its distinctive rough-textured particles optimized for all-solid-state battery research.

​Key Specifications​

​Property​ ​Specification​ ​Verification Method​
​Chemical Formula​ Li₅.₅PSCl₁.₅ XRD/EDS Analysis
​Ionic Conductivity​ ≥6 mS/cm (25°C) AC Impedance (300MPa)
​Particle Size​ D₅₀<15μm, D₉₀<35μm Laser Diffraction
​Morphology​ Irregular rough-surface SEM Imaging (3.00kV)
​Electrochemical Window​ 0-5V vs. Li⁺/Li Linear Sweep Voltammetry

Performance Highlights​

​1. Ultra-High Conductivity​
• Achieves 2× higher Li⁺ transport than conventional Li₆PS₅Cl (3 mS/cm)
• Low activation energy (0.20-0.25 eV) enables stable performance at -20°C

​2. Interface Engineering​
• Rough particle surfaces enhance electrode-electrolyte contact (30% lower interfacial resistance)
• Chlorine substitution suppresses H₂S generation vs. pure sulfide systems

​3. Research Applications​
• Prototyping of 400+ Wh/kg all-solid-state batteries
• Compatible with:

  • Li-metal anodes (CCD >2 mA/cm²)
  • High-voltage NCM811 cathodes (4.3V)

Microstructural Analysis​

(Per SU8600 SEM at 20.0kX Magnification)
• ​​Particle Distribution​​: Broad size range (2-35μm) ensures dense packing
• ​​Surface Texture​​: Nano-scale roughness promotes electrolyte wetting
• ​​Defect Characteristics​​: Minimal cracks/voids (<1% area fraction)

Handling Protocol​

​Step​ ​Requirement​
Storage Argon glovebox (<0.1ppm O₂/H₂O)
Processing Cold-press at 300-400 MPa
Safety H₂S detectors mandatory

​Note​​: Custom particle size fractions (e.g., <10μm) available for thin-film battery research.

Tags: 

Solid State Battery Materials,  

solid state sodium battery,  

solid state lithium battery

Recommended Products
Sulfide LGPS Lithium Germanium Phosphorus Sulfur Solid Electrolyte 20um Li10GeP2S12

Sulfide LGPS Lithium Germanium Phosphorus Sulfur Solid Electrolyte 20um Li10GeP2S12

Contact Now
Lithium Indium Chloride LIC High Ionic Conductivity Halide Electrolyte Lithium Battery Material

Lithium Indium Chloride LIC High Ionic Conductivity Halide Electrolyte Lithium Battery Material

Contact Now
10g Lithium Indium Chloride Li3InCl6 Halide Solid Electrolyte Powder HLIC

10g Lithium Indium Chloride Li3InCl6 Halide Solid Electrolyte Powder HLIC

Contact Now
Lithium Phosphorus Sulfur Chloride LPSCI Sulfide Solid Electrolyte Research Experiment

Lithium Phosphorus Sulfur Chloride LPSCI Sulfide Solid Electrolyte Research Experiment

Contact Now
Niobium Containing LLZTO Tantalum Niobium Co Doped Lithium Lanthanum Zirconium Oxygen 500nm

Niobium Containing LLZTO Tantalum Niobium Co Doped Lithium Lanthanum Zirconium Oxygen 500nm

Contact Now
Niobium Containing Solid Electrolyte LLZTO Tantalum Niobium Co Doped Lithium Lanthanum Zirconium Oxygen 300nm

Niobium Containing Solid Electrolyte LLZTO Tantalum Niobium Co Doped Lithium Lanthanum Zirconium Oxygen 300nm

Contact Now
Coated Nickel Cobalt Manganese NCM811 Coating Material Lithium Niobate Single Crystal 811

Coated Nickel Cobalt Manganese NCM811 Coating Material Lithium Niobate Single Crystal 811

Contact Now
High Purity Lithium Sulfide Li2S Purity 99.9% Sulfide Solid Electrolyte

High Purity Lithium Sulfide Li2S Purity 99.9% Sulfide Solid Electrolyte

Contact Now
New Energy Materials Solid Electrolyte LATP BEO-2P3 Automotive Power Battery

New Energy Materials Solid Electrolyte LATP BEO-2P3 Automotive Power Battery

Contact Now
LLZTO Solid Electrolyte Tantalum Doped Lithium Lanthanum Zirconium Oxygen Li6.5La3Zr1.5Ta0.5O12

LLZTO Solid Electrolyte Tantalum Doped Lithium Lanthanum Zirconium Oxygen Li6.5La3Zr1.5Ta0.5O12

Contact Now
LIC LZC Niobium Tantalum Based Halide Solid Electrolyte For Solid State Battery Materials Research

LIC LZC Niobium Tantalum Based Halide Solid Electrolyte For Solid State Battery Materials Research

Contact Now
products
PRODUCTS DETAILS
Products

Battery Lab Equipment

Battery Production Line

Cylindrical Cell Production Line

Prismatic Cell Manufacturing

Pouch Cell Manufacturing

Lithium Ion Battery Raw Material

Cathode Material

Anode Material

Battery Electrolyte

Battery Separator

Coin Cell Parts

Cylindrical Cell Parts

Battery Tabs

Battery Current Collector

Battery Binder

Battery Conductive Materials

Battery Pack Materials

Welding Electrode

Welding Jig

Prismatic Battery Belt

Prismatic Battery End Plate

Battery Pack Case

Battery Insulation Sheet

Sodium Ion Battery Materials

Sodium Ion Battery Cathode Material

Solid State Battery Materials

Solid Electrolyte

Solid State Battery Separator

Battery Pack Accessories

Battery Pack Holder

Nickel Strip Sheet

Battery Pack Shrink Tube

Insulation Highland Barley Paper

Battery Pack Assembly Line

Battery Cell Sticking Machine

Battery Cell Sorting Machine

Battery Spot Welding Machine

Battery CCD Tester

Plasma Cleaning Machine

PVC Shrinking Machine

Nickel Strip Cutting Machine

Laser Cleaning Machine

Battery Laser Welding Machine

Prismatic Battery Compress Machine

Battery Testing Equipment

Battery Grading Machine

Battery Charge And Discharge Machine

BMS Testing Machine

Battery Comprehensive Tester

Battery Safety Testing Equipment

Waste Battery Crushing Recycling Line
Lithium Phosphorus Sulfur Chloride LPSCI Sulfide Solid Electrolyte Research Experiment
  • name
Lithium Phosphorus Sulfur Chloride LPSCI Sulfide Solid Electrolyte Research Experiment
MOQ: 100g
Price: 1-1000USD/Negotiable
Standard Packaging: Plastic package
Delivery Period: 5-7 days
Payment Method: L/C,D/A,D/P,T/T,Western Union,MoneyGram
Supply Capacity: 1 t/month
Detail Information
Product Description
Detail Information
Place of Origin
CHINA
Brand Name
XWELL
Certification
CE
Model Number
LPSCI (Li₅.₅PSCl₁.₅)
Model:
Li₅.₅PSCl₁.₅
Chemical Formula​:
Li₇₋ₓLa₃Zr₂₋ₓ(Nb,Ta)ₓO₁₂ (x=0.2-0.7)
​​Ionic Conductivity​:
≥6 MS/cm (25°C)
Particle Size:
D₅₀<15μm, D₉₀<35μm
​​Morphology​​:
Irregular Rough-surface
Electrochemical Window​:
0-5V Vs. Li⁺/Li
Purity​:
≥99.9%
Storage:
Argon Glovebox (<0.1ppm O₂/H₂O)
Minimum Order Quantity:
100g
Price:
1-1000USD/Negotiable
Packaging Details:
Plastic package
Delivery Time:
5-7 days
Payment Terms:
L/C,D/A,D/P,T/T,Western Union,MoneyGram
Supply Ability:
1 t/month
Highlight

LPSCI Solid Electrolyte

,

Sulfide Solid Electrolyte

,

LPSCI lithium phosphorus sulfur chloride

Product Description

Lithium Phosphorus Sulfur Chloride LPSCI Sulfide Solid Electrolyte ≥6mS/cm All-solid-state Battery Material Research Experiment

Material Overview​

LPSCI (Li₅.₅PSCl₁.₅) is a high-performance sulfide solid-state electrolyte characterized by its irregular particle morphology (D₅₀<15μm) and exceptional ionic conductivity (≥6 mS/cm at 25°C). The SU8600 SEM image (20.0kX magnification) reveals its distinctive rough-textured particles optimized for all-solid-state battery research.

​Key Specifications​

​Property​ ​Specification​ ​Verification Method​
​Chemical Formula​ Li₅.₅PSCl₁.₅ XRD/EDS Analysis
​Ionic Conductivity​ ≥6 mS/cm (25°C) AC Impedance (300MPa)
​Particle Size​ D₅₀<15μm, D₉₀<35μm Laser Diffraction
​Morphology​ Irregular rough-surface SEM Imaging (3.00kV)
​Electrochemical Window​ 0-5V vs. Li⁺/Li Linear Sweep Voltammetry

Performance Highlights​

​1. Ultra-High Conductivity​
• Achieves 2× higher Li⁺ transport than conventional Li₆PS₅Cl (3 mS/cm)
• Low activation energy (0.20-0.25 eV) enables stable performance at -20°C

​2. Interface Engineering​
• Rough particle surfaces enhance electrode-electrolyte contact (30% lower interfacial resistance)
• Chlorine substitution suppresses H₂S generation vs. pure sulfide systems

​3. Research Applications​
• Prototyping of 400+ Wh/kg all-solid-state batteries
• Compatible with:

  • Li-metal anodes (CCD >2 mA/cm²)
  • High-voltage NCM811 cathodes (4.3V)

Microstructural Analysis​

(Per SU8600 SEM at 20.0kX Magnification)
• ​​Particle Distribution​​: Broad size range (2-35μm) ensures dense packing
• ​​Surface Texture​​: Nano-scale roughness promotes electrolyte wetting
• ​​Defect Characteristics​​: Minimal cracks/voids (<1% area fraction)

Handling Protocol​

​Step​ ​Requirement​
Storage Argon glovebox (<0.1ppm O₂/H₂O)
Processing Cold-press at 300-400 MPa
Safety H₂S detectors mandatory

​Note​​: Custom particle size fractions (e.g., <10μm) available for thin-film battery research.

Tags: 

Solid State Battery Materials,

solid state sodium battery,

solid state lithium battery

GUANGDONG XWELL TECHNOLOGY CO., LTD.
Room 316, Building 3, No. 801, Qiaoxing Avenue, Xiaoluo Village, Shatou Street, Panyu District, Guangzhou
Tel: +8618620492985
Sitemap |  Privacy Policy | China Good Quality Battery Lab Equipment Supplier. Copyright © 2025 GUANGDONG XWELL TECHNOLOGY CO., LTD. . All Rights Reserved.