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Niobium Containing LLZTO Solid Electrolyte Tantalum Niobium Co Doped Lithium Lanthanum Zirconium Oxygen 500nm
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Niobium Containing LLZTO Solid Electrolyte Tantalum Niobium Co Doped Lithium Lanthanum Zirconium Oxygen 500nm
  • name
  • name
  • name
  • name

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

MOQ: 10g
Price: 1-1000USD/Negotiable
Standard Packaging: Plastic box
Delivery Period: 5-8 work days
Payment Method: T/T
Details Information
Product Description
Detail Information
Cycle Life:
500-1000 Cycles
Capacity:
Typically 3.6V And 1000mAh/g
Disposal:
Requires Special Disposal Methods Due To Toxic Materials
Weight:
Lightweight Compared To Other Battery Types
Energy Density:
Up To 200 Wh/kg
Safety:
Highly Flammable And Sensitive To Temperature
Self-discharge Rate:
1-2% Per Month
Shelf Life:
2-3 Years
Recharge Time:
1-2 Hours
Operating Temperature:
-20°C To 60°C
Environmental Impact:
Contains Toxic And Rare Materials
Application:
Widely Used In Portable Electronic Devices And Electric Vehicles
Chemical Composition:
Lithium Cobalt Oxide (LiCoO2)
Cost:
Relatively Expensive Compared To Other Battery Types
Size:
Compact And Customizable
Highlight:

Niobium Containing llzto solid electrolyte

,

500nm llzto solid electrolyte

,

500nm llzto

Product Description

Niobium-containing LLZTO Tantalum-niobium co-doped lithium lanthanum zirconium oxygen solid electrolyte (500nm) battery material

 

LLZTO (Li6.4La3Zr1.4Ta0.6O12) is a garnet-type solid-state electrolyte material that has garnered significant attention in the field of solid-state lithium-ion batteries due to its high ionic conductivity, excellent electrochemical stability, and compatibility with metallic lithium. Below is a detailed introduction to LLZTO:

  1. Structure and Properties
    LLZTO belongs to the cubic garnet structure, which exhibits high lithium-ion conductivity (typically ranging from toS/cm at room temperature). This makes it a promising candidate for solid-state electrolytes. The lithium ions in its structure can migrate rapidly through a three-dimensional network, enabling efficient ion conduction.
  2. Interfacial Stability
    The interfacial stability between LLZTO and liquid electrolytes is a critical challenge. Research has shown that constructing self-assembled monolayers (e.g., 4-chlorobenzenesulfonic acid) on the LLZTO surface can significantly enhance interfacial stability, optimize solvation structures, and improve ionic conductivity (e.g., up to 1.19 mS/cm) and lithium-ion transference numbers (e.g., 0.647).
  3. Application of Composite Materials
    LLZTO is often combined with other materials (e.g., graphene) to further enhance its performance. For instance, LLZTO-graphene composites with 25% graphene content exhibit optimal electrochemical performance, achieving a room-temperature ionic conductivity of S/cm and excellent cycling stability.
  4. Ion Redistribution Function
    LLZTO is also utilized as an ion redistributor in composite separators, where it uniformly guides lithium-ion deposition to suppress lithium dendrite formation, thereby improving battery safety and cycling performance.
  5. Machine Learning-Assisted Research
    Through machine learning techniques, researchers can quantify the impact of LLZTO’s microstructure (e.g., porosity and grain size) on its ionic conductivity, enabling optimized material design.

In summary, LLZTO is a high-performance solid-state electrolyte material. Through interfacial modifications, composite material designs, and advanced research methodologies, its performance and application potential have been significantly enhanced.

 

Parameters

 

Main Parameters Description
Product Name LLZTO (Tantalum + Niobium) Co-Doped Lithium Lanthanum Zirconium Oxide Solid-State Electrolyte
Chemical Formula Li7-xLa3Zr2-x(Nb+Ta)xO12, x=0.2~0.7
Physical Properties D50 particle size 500 nm, 99.9%
Appearance White powder
Application Used as a solid-state electrolyte in lithium batteries
Ionic Conductivity >0.8 mS/cm
Other Agglomerates can be treated by ball milling or grinding

 

Tags: 

Solid State Battery Materials,  

solid state sodium battery,  

solid state lithium battery

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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
Niobium Containing LLZTO Solid Electrolyte Tantalum Niobium Co Doped Lithium Lanthanum Zirconium Oxygen 500nm
  • name
  • name
  • name
  • name
Niobium Containing LLZTO Solid Electrolyte Tantalum Niobium Co Doped Lithium Lanthanum Zirconium Oxygen 500nm
MOQ: 10g
Price: 1-1000USD/Negotiable
Standard Packaging: Plastic box
Delivery Period: 5-8 work days
Payment Method: T/T
Detail Information
Product Description
Detail Information
Cycle Life:
500-1000 Cycles
Capacity:
Typically 3.6V And 1000mAh/g
Disposal:
Requires Special Disposal Methods Due To Toxic Materials
Weight:
Lightweight Compared To Other Battery Types
Energy Density:
Up To 200 Wh/kg
Safety:
Highly Flammable And Sensitive To Temperature
Self-discharge Rate:
1-2% Per Month
Shelf Life:
2-3 Years
Recharge Time:
1-2 Hours
Operating Temperature:
-20°C To 60°C
Environmental Impact:
Contains Toxic And Rare Materials
Application:
Widely Used In Portable Electronic Devices And Electric Vehicles
Chemical Composition:
Lithium Cobalt Oxide (LiCoO2)
Cost:
Relatively Expensive Compared To Other Battery Types
Size:
Compact And Customizable
Minimum Order Quantity:
10g
Price:
1-1000USD/Negotiable
Packaging Details:
Plastic box
Delivery Time:
5-8 work days
Payment Terms:
T/T
Highlight

Niobium Containing llzto solid electrolyte

,

500nm llzto solid electrolyte

,

500nm llzto

Product Description

Niobium-containing LLZTO Tantalum-niobium co-doped lithium lanthanum zirconium oxygen solid electrolyte (500nm) battery material

 

LLZTO (Li6.4La3Zr1.4Ta0.6O12) is a garnet-type solid-state electrolyte material that has garnered significant attention in the field of solid-state lithium-ion batteries due to its high ionic conductivity, excellent electrochemical stability, and compatibility with metallic lithium. Below is a detailed introduction to LLZTO:

  1. Structure and Properties
    LLZTO belongs to the cubic garnet structure, which exhibits high lithium-ion conductivity (typically ranging from toS/cm at room temperature). This makes it a promising candidate for solid-state electrolytes. The lithium ions in its structure can migrate rapidly through a three-dimensional network, enabling efficient ion conduction.
  2. Interfacial Stability
    The interfacial stability between LLZTO and liquid electrolytes is a critical challenge. Research has shown that constructing self-assembled monolayers (e.g., 4-chlorobenzenesulfonic acid) on the LLZTO surface can significantly enhance interfacial stability, optimize solvation structures, and improve ionic conductivity (e.g., up to 1.19 mS/cm) and lithium-ion transference numbers (e.g., 0.647).
  3. Application of Composite Materials
    LLZTO is often combined with other materials (e.g., graphene) to further enhance its performance. For instance, LLZTO-graphene composites with 25% graphene content exhibit optimal electrochemical performance, achieving a room-temperature ionic conductivity of S/cm and excellent cycling stability.
  4. Ion Redistribution Function
    LLZTO is also utilized as an ion redistributor in composite separators, where it uniformly guides lithium-ion deposition to suppress lithium dendrite formation, thereby improving battery safety and cycling performance.
  5. Machine Learning-Assisted Research
    Through machine learning techniques, researchers can quantify the impact of LLZTO’s microstructure (e.g., porosity and grain size) on its ionic conductivity, enabling optimized material design.

In summary, LLZTO is a high-performance solid-state electrolyte material. Through interfacial modifications, composite material designs, and advanced research methodologies, its performance and application potential have been significantly enhanced.

 

Parameters

 

Main Parameters Description
Product Name LLZTO (Tantalum + Niobium) Co-Doped Lithium Lanthanum Zirconium Oxide Solid-State Electrolyte
Chemical Formula Li7-xLa3Zr2-x(Nb+Ta)xO12, x=0.2~0.7
Physical Properties D50 particle size 500 nm, 99.9%
Appearance White powder
Application Used as a solid-state electrolyte in lithium batteries
Ionic Conductivity >0.8 mS/cm
Other Agglomerates can be treated by ball milling or grinding

 

Tags: 

Solid State Battery Materials,

solid state sodium battery,

solid state lithium battery

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