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

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

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

Model Number

LIC/LZC

Model:

LIC/LZC

Ionic Conductivity:

1.2–2.5 MS/cm

Electrochemical Window:

1.5–4.3 V

Density:

2.8 G/cm³

Moisture Sensitivity:

Processing:

Ball-mill For 10h (Zr-based) Or Sol-gel Synthesis For Ta/Nb Systems.

Storage:

Argon-filled Glovebox (O₂/H₂O <0.1 Ppm) For LIC; Dry Air (<30% RH) For LZC.

Temperature:

Highlight:

LZC halide solid electrolyte

LIC halide solid electrolyte

1.5v solid state battery materials

Product Description

LIC/LZC/niobium-based/tantalum-based Halide Solid Electrolytes For All-solid-state Battery Materials Research And Experiments

Material Overview

LIC (Li₃InCl₆), LZC (Li₂ZrCl₆), and Nb/Ta-based halide solid electrolytes represent cutting-edge solutions for next-generation all-solid-state batteries (ASSBs). These materials combine high ionic conductivity (>1 mS/cm), exceptional oxidation stability (>4 V vs. Li⁺/Li), and cost-effective processing, making them ideal for high-voltage cathode compatibility and lithium metal anode integration.

Key Material Systems

LIC (Li₃InCl₆)
- Conductivity: 1.2–2.5 mS/cm at 25°C
- Stability: Stable with NCM811 cathodes (4.3 V)
- Handling: Moisture-sensitive; requires glovebox processing
LZC (Li₂ZrCl₆)
- Conductivity: 0.4–1.67 mS/cm (doping-dependent)
- Cost: <$11.6/kg (lowest among halides)
- Air Stability: Tolerates 5% humidity
Nb/Ta-Based Halides
- Formula: Li₂₊ₓZr₁₋ₓMₓCl₆ (M = Nb, Ta; x ≤ 0.2)
- Conductivity: Up to 3.07 mS/cm (Ta/Nb co-doping)
- Voltage Stability: >4.6 V with LNMO cathodes

Performance Highlights

Property	LIC	LZC	Nb/Ta Halides
Ionic Conductivity	1.2–2.5 mS/cm	0.4–1.67 mS/cm	1.5–3.07 mS/cm
Electrochemical Window	1.5–4.3 V	1.8–4.5 V	1.7–4.6 V
Density	2.8 g/cm³	2.77 g/cm³	2.9–3.1 g/cm³
Moisture Sensitivity	High	Moderate	Low (fluorinated)

Research Applications

Interface Engineering: Compatible with LiCoO₂, NCM811, and LNMO cathodes.
Mechanical Properties: Soft enough for cold pressing (300MPa) to achieve 94% theoretical density.
Doping Strategies:
- LZC: Dy³⁺/Ta⁵⁺ co-doping boosts conductivity to 1.67 mS/cm.
- LIC: Zr⁴⁺ substitution enhances moisture resistance.

Handling Guidelines

Storage: Argon-filled glovebox (O₂/H₂O <0.1 ppm) for LIC; dry air (<30% RH) for LZC.
Processing: Ball-mill for 10h (Zr-based) or sol-gel synthesis for Ta/Nb systems.
Safety: Decomposes in humid air (H₂S/HCl risk); use fume hoods for large-scale prep.

Note: Custom formulations (e.g., Li₂.₄Zr₀.₈Ta₀.₂Cl₆) available for high-voltage ASSB research.

Tags:

Products

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

Model Number

LIC/LZC

Model:

LIC/LZC

Ionic Conductivity:

1.2–2.5 MS/cm

Electrochemical Window:

1.5–4.3 V

Density:

2.8 G/cm³

Moisture Sensitivity:

High

Processing:

Ball-mill For 10h (Zr-based) Or Sol-gel Synthesis For Ta/Nb Systems.

Storage:

Argon-filled Glovebox (O₂/H₂O <0.1 Ppm) For LIC; Dry Air (<30% RH) For LZC.

Temperature:

25°C

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

LZC halide solid electrolyte

LIC halide solid electrolyte

1.5v solid state battery materials

Product Description

LIC/LZC/niobium-based/tantalum-based Halide Solid Electrolytes For All-solid-state Battery Materials Research And Experiments

Material Overview

Key Material Systems

LIC (Li₃InCl₆)
- Conductivity: 1.2–2.5 mS/cm at 25°C
- Stability: Stable with NCM811 cathodes (4.3 V)
- Handling: Moisture-sensitive; requires glovebox processing
LZC (Li₂ZrCl₆)
- Conductivity: 0.4–1.67 mS/cm (doping-dependent)
- Cost: <$11.6/kg (lowest among halides)
- Air Stability: Tolerates 5% humidity
Nb/Ta-Based Halides
- Formula: Li₂₊ₓZr₁₋ₓMₓCl₆ (M = Nb, Ta; x ≤ 0.2)
- Conductivity: Up to 3.07 mS/cm (Ta/Nb co-doping)
- Voltage Stability: >4.6 V with LNMO cathodes

Performance Highlights

Property	LIC	LZC	Nb/Ta Halides
Ionic Conductivity	1.2–2.5 mS/cm	0.4–1.67 mS/cm	1.5–3.07 mS/cm
Electrochemical Window	1.5–4.3 V	1.8–4.5 V	1.7–4.6 V
Density	2.8 g/cm³	2.77 g/cm³	2.9–3.1 g/cm³
Moisture Sensitivity	High	Moderate	Low (fluorinated)

Research Applications

Interface Engineering: Compatible with LiCoO₂, NCM811, and LNMO cathodes.
Mechanical Properties: Soft enough for cold pressing (300MPa) to achieve 94% theoretical density.
Doping Strategies:
- LZC: Dy³⁺/Ta⁵⁺ co-doping boosts conductivity to 1.67 mS/cm.
- LIC: Zr⁴⁺ substitution enhances moisture resistance.

Handling Guidelines

Storage: Argon-filled glovebox (O₂/H₂O <0.1 ppm) for LIC; dry air (<30% RH) for LZC.
Processing: Ball-mill for 10h (Zr-based) or sol-gel synthesis for Ta/Nb systems.
Safety: Decomposes in humid air (H₂S/HCl risk); use fume hoods for large-scale prep.

Note: Custom formulations (e.g., Li₂.₄Zr₀.₈Ta₀.₂Cl₆) available for high-voltage ASSB research.

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

LZC halide solid electrolyte

LIC halide solid electrolyte

1.5v solid state battery materials

Material Overview​​

Key Material Systems​​

Performance Highlights​​

Research Applications​​

Handling Guidelines​​

Solid State Battery Materials,

solid state sodium battery,

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

Material Overview

Key Material Systems

Performance Highlights

Research Applications

Handling Guidelines

Material Overview

Key Material Systems

Performance Highlights

Research Applications

Handling Guidelines