Overview of Lithium Silicate

Lithium silicate is a compound used primarily in construction and industrial applications for its unique properties. It is often applied as a hardening and densifying agent for concrete surfaces, enhancing durability and resistance to wear and chemicals.

Features of Lithium Silicate

Hardening and Densifying: Enhances the surface hardness and density of concrete, improving wear resistance.

Chemical Resistance: Provides superior resistance to chemical attacks, making treated surfaces more durable.

Efflorescence Control: Reduces the occurrence of efflorescence on concrete surfaces.

Quick Reaction Time: Reacts quickly with concrete components, speeding up the curing process.

Low Viscosity: Easily penetrates concrete surfaces, ensuring deep sealing and protection.

(New lithium salt electrolyte material CAS 171611-11-3 99.9% Lithium Bis(fluorosulfonyl)imide LIFSI)

Specifications of New lithium salt electrolyte material CAS 171611-11-3 99.9% Lithium Bis(fluorosulfonyl)imide LIFSI

This lithium salt electrolyte material is Lithium Bis(fluorosulfonyl)imide. People know it as LiFSI. Its CAS number is 171611-11-3. The purity level is high. It is 99.9%. This material is important for advanced batteries. People use it in lithium-ion batteries. It works better than older salts. Older salts like LiPF6 have problems. LiFSI helps solve these problems.

LiFSI has good solubility. It dissolves well in many solvents. This makes battery electrolytes easier to prepare. The salt is very stable. It handles high voltages well. Batteries with LiFSI can work at higher voltages. This improves battery energy density. Energy density means how much power a battery holds. Higher density is better.

LiFSI is also stable at high temperatures. Batteries get hot during use. This salt does not break down easily. It helps batteries last longer. Battery life improves. Performance stays good over time. LiFSI helps with low temperatures too. Batteries work better in the cold. This is important for electric cars.

The salt forms a good SEI layer. SEI means Solid Electrolyte Interphase. This layer protects the battery. It lets lithium ions move smoothly. LiFSI creates a stable SEI. This reduces side reactions. Fewer side reactions mean less gas. Batteries stay safer. They are more reliable.

LiFSI is less sensitive to water. Water damages some lithium salts. This salt is tougher. Manufacturing becomes easier. Handling is simpler. Costs might be lower. The material is compatible with new battery designs. People use it in high-performance batteries. It supports fast charging. It helps batteries charge quickly. Power output is strong. LiFSI is a key material for the future. Battery technology needs advanced electrolytes. This salt delivers important benefits.

(New lithium salt electrolyte material CAS 171611-11-3 99.9% Lithium Bis(fluorosulfonyl)imide LIFSI)

Applications of New lithium salt electrolyte material CAS 171611-11-3 99.9% Lithium Bis(fluorosulfonyl)imide LIFSI

This material is Lithium Bis(fluorosulfonyl)imide, called LiFSI. Its CAS number is 171611-11-3. We supply it at 99.9% purity. This high purity is essential for top performance. LiFSI is a newer kind of lithium salt. It is used to make electrolytes for advanced batteries. These batteries need better electrolytes. LiFSI offers several key advantages over older salts.

LiFSI helps batteries work better in very hot or very cold weather. Batteries using LiFSI often show improved stability. This stability means longer battery life. The material conducts electricity well. Good conductivity helps batteries charge faster. Batteries also deliver power more effectively. LiFSI electrolytes tend to resist degradation better. This reduces battery performance loss over time.

These properties make LiFSI important for modern lithium-ion batteries. It is especially useful for batteries needing high energy density. Electric vehicle batteries benefit greatly. LiFSI helps EVs get longer driving range. It supports quicker charging times too. The material is also valuable for energy storage systems. These systems store power from solar panels or wind turbines. Reliable, long-lasting batteries are critical here.

LiFSI is finding use in next-generation battery technologies. Researchers are exploring lithium metal batteries. These promise even higher energy density. LiFSI electrolytes show good compatibility with lithium metal. This compatibility helps prevent safety issues. The material also performs well in demanding applications. Its thermal stability is a major plus. Safety is always a primary concern for batteries.

Company Introduction

Welcome to Iberocruceros, a leading supplier in the international market for high-quality potassium silicate, sodium silicate, and lithium silicate.

Our products are meticulously crafted to meet the diverse needs of various industries, including construction, agriculture, and manufacturing. With state-of-the-art production facilities and a commitment to excellence, we ensure superior product quality and customer satisfaction.

We pride ourselves on our innovative solutions, competitive pricing, and reliable delivery services. Partner with us for your silicate needs and experience the difference that expertise and dedication can make. Let’s build a sustainable future together.

If you have any questions, please feel free to contact us(nanotrun@yahoo.com).

Payment Methods

T/T, Western Union, Paypal, Credit Card etc.

Shipment Methods

By air, by sea, by express, as customers request.

5 FAQs of New lithium salt electrolyte material CAS 171611-11-3 99.9% Lithium Bis(fluorosulfonyl)imide LIFSI

Lithium Bis(fluorosulfonyl)imide, or LiFSI, is a special lithium salt. Its CAS number is 171611-11-3. We offer it at 99.9% purity. This material is used in advanced battery electrolytes.

What is LiFSI?
LiFSI is a lithium salt. It is used in batteries. It helps conduct electricity inside the battery. It is an alternative to older salts like LiPF6.

Why use LiFSI instead of other salts?
LiFSI has better conductivity. It works well at higher temperatures. It also works well at lower temperatures. LiFSI is more stable. This stability helps batteries last longer. It helps batteries perform better. It is less corrosive to battery parts.

Where is LiFSI used?
LiFSI is used in lithium-ion batteries. It is especially good for electric vehicle batteries. It is good for energy storage batteries. It works in high-voltage batteries. It works in batteries needing long life.

Why is 99.9% purity important?
High purity is critical. Impurities can harm battery performance. Impurities can shorten battery life. Impurities can cause safety problems. Our 99.9% pure LiFSI ensures top performance. It ensures reliability.

Is LiFSI safe?
LiFSI requires careful handling. Use proper protective equipment. Follow safety guidelines. Store it correctly. Handle it in a controlled environment. Its stability helps safety during battery use.

(New lithium salt electrolyte material CAS 171611-11-3 99.9% Lithium Bis(fluorosulfonyl)imide LIFSI)