LiBF4 (lithium Tetrafluoroborate)丨CAS 14283-07-9

LiBF4 (lithium Tetrafluoroborate)丨CAS 14283-07-9
Product Introduction:
Catalog No.: SS120476
CAS No.: 14283-07-9
Purity/Grade: 99.9%min
Product Name: Lithium tetrafluoroborate (LiBF4)
Molecular Formula: LiBF4
Molecular Weight: 93.74
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Technical Parameters
Description

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Specifications of Lithium tetrafluoroborate丨CAS 14283-07-9

 

Property

Specification

Appearance

White powder, with no mechanical impurities

Assay

99.9% min

Moisture

200.0 ppm max

Free acid (in HF)

200.0 ppm max

Sulphate (SO42-)

10.0 ppm max

Chloridion (Cl-)

5.0 ppm max

Na

10.0 ppm max

Fe

1.0 ppm max

K

10.0 ppm max

Ca

10.0 ppm max

Pb

1.0 ppm max

Cu

10.0 ppm max

Mg

1.0 ppm max

Zn

1.0 ppm max

Cr

1.0 ppm max

Ni

1.0 ppm max

Cd

1.0 ppm max

 

Transport Information of Lithium tetrafluoroborate丨CAS 14283-07-9

 

Parameter

Specification

UN Number

3260

Class

 

Packing Group

 

H.S. Code

2826909090303

Stability & Reactivity

Stable

Storage

Store in a closed, dry, ventilated place

Condition to Avoid

Moisture

Package

 
Introduction of Lithium Tetrafluoroborate (LiBF4)丨CAS 14283-07-9

 

Lithium tetrafluoroborate (LiBF4) 丨CAS 14283-07-9 is a widely recognized inorganic salt with exceptional properties that make it a critical component in several advanced technologies. Its high thermal stability, excellent solubility in organic solvents, and ionic conductivity have positioned it as a preferred choice in many industrial and scientific applications. Below, we outline the applications, benefits, and considerations for using LiBF4.

 

Applications of Lithium Tetrafluoroborate丨CAS 14283-07-9

 

1.Electrolytes in Batteries:
- Lithium-Ion Batteries: LiBF4 is extensively used as an electrolyte salt in lithium-ion batteries, particularly in high-performance applications. It provides excellent thermal stability and enhances battery efficiency by improving ionic conductivity and reducing electrode degradation.
- Electrochemical Devices: Its compatibility with various organic solvents and stable electrochemical performance makes it a suitable choice for other energy storage devices.

2.Electroplating and Metal Treatment:
- Surface Coatings: LiBF4 is employed in electroplating processes for metals, providing smooth and corrosion-resistant finishes.
- Metal Processing: It aids in the surface treatment of metals to enhance their mechanical properties and durability.

3.Organic Synthesis:
- Catalyst and Reagent: In organic chemistry, LiBF4 丨CAS 14283-07-9 serves as a versatile catalyst and reagent, particularly in reactions that require stable and selective fluorination or as a mild Lewis acid.

4.Polymer and Composite Materials:
- Additive in Polymers: It is used as an additive in specialty polymers and composites to improve material properties such as conductivity and thermal resistance.

5.Laboratory and Analytical Uses:
- Chromatography and Research Applications: LiBF4 is utilized in various analytical techniques and research studies for its stability and precise reactivity.

 

Benefits of Lithium Tetrafluoroborate丨CAS 14283-07-9

 

1.High Thermal Stability:
- Heat Resistance: LiBF4 demonstrates remarkable thermal stability, making it ideal for applications that operate under high-temperature conditions.

2.Enhanced Electrochemical Performance:
- Battery Efficiency: Its ability to maintain ionic conductivity over a wide temperature range and resist decomposition extends the lifespan and efficiency of lithium-ion batteries.
3.Excellent Solubility:
- Versatility in Solvents: LiBF4 dissolves readily in organic solvents like ethylene carbonate and propylene carbonate, ensuring its adaptability to diverse chemical systems.

4.Chemical Compatibility:
- Inert and Non-Corrosive: It exhibits low reactivity with most electrode materials and housing components, minimizing risks of side reactions and enhancing safety.

5.Environmentally Safer Option:
- Reduced Decomposition Products: Compared to some other lithium salts, LiBF4 produces fewer harmful byproducts, making it a more environmentally responsible choice.

 

Precautions and Considerations for Using Lithium Tetrafluoroborate (LiBF4)丨CAS 14283-07-9

 

1.Moisture Sensitivity:
- LiBF4 is hygroscopic and reacts with moisture to release hydrogen fluoride (HF), a hazardous compound. Proper storage in airtight containers and dry environments is essential.
2.Handling and Storage:
- Use protective equipment, including gloves and goggles, to avoid direct contact. Ensure storage in a cool, dry place away from incompatible materials.
3.Cost and Availability:
- While highly effective, LiBF4 may be costlier compared to other lithium salts, which could influence its use in cost-sensitive applications.

 

Conclusion:
Lithium tetrafluoroborate丨CAS 14283-07-9 is a versatile and reliable compound with a broad spectrum of applications in advanced technologies such as lithium-ion batteries, electroplating, and organic synthesis. Its unique properties, including high thermal stability, solubility, and enhanced electrochemical performance, make it indispensable for industries focused on energy storage, materials science, and chemical processing. However, its handling requires careful precautions to mitigate risks associated with moisture sensitivity and safety concerns. LiBF4 continues to be a valuable material driving innovation in sustainable and efficient industrial processes.

 

 

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