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.

(Solid cell materials Lithium indium chloride halide solid electrolyte powder Li3InCl6 for lab research)

Specifications of Solid cell materials Lithium indium chloride halide solid electrolyte powder Li3InCl6 for lab research

This is lithium indium chloride halide powder. Its chemical name is Li3InCl6. It works as a solid electrolyte. Researchers use it in labs. It helps develop solid-state batteries. These batteries are safer than liquid ones. They might store more energy too.

Li3InCl6 powder has good lithium ion flow. This flow is called ionic conductivity. Its conductivity is high for a solid material. This is important for battery performance. Batteries need ions to move easily. The powder is stable. It handles air moisture reasonably well. This makes it easier to work with. Some other solid electrolytes are very sensitive. Li3InCl6 is less sensitive. Researchers appreciate this.

The powder comes in a fine form. It has a specific particle size range. You can see the exact size details in our specs. We control the purity tightly. High purity is critical for research. Impurities can ruin experiments. You need consistent material. We ensure this.

Handling requires care. Store the powder in sealed containers. Keep it dry. Use it inside a dry atmosphere glove box. This protects it from moisture. Moisture can affect its properties. Always follow lab safety rules. Wear proper protective gear.

Scientists study this material. They explore its structure. They test its performance in batteries. They want to understand it better. They seek improvements. Our Li3InCl6 powder supports this work. It is a key research material for solid-state energy storage.

(Solid cell materials Lithium indium chloride halide solid electrolyte powder Li3InCl6 for lab research)

Applications of Solid cell materials Lithium indium chloride halide solid electrolyte powder Li3InCl6 for lab research

This solid electrolyte powder is Li3InCl6. It is lithium indium chloride halide. Researchers use it. They explore solid-state batteries. This material helps them. It is important for lab work.

Scientists make solid electrolytes with it. They study its properties. They want better batteries. Li3InCl6 has good ionic conductivity. This means ions move well inside it. Researchers measure this conductivity. They test different temperatures.

People assemble battery cells with this powder. They use it as the electrolyte layer. They put it between electrodes. They check how the battery performs. They look at charge and discharge rates. They see how stable it is.

This powder is stable against moisture. Handling it is easier in air. This is good for lab safety. It reduces special handling needs. Scientists like this feature. It makes experiments simpler.

Researchers mix Li3InCl6 with electrode materials. They check compatibility. They see if reactions happen. They study the interface closely. They use X-ray diffraction. They use electron microscopy too.

People also test its electrochemical stability. They see the voltage range it works in. They find out where it breaks down. This is vital information. It helps design better batteries.

Scientists try different synthesis methods. They change temperatures. They change times. They see how this changes the powder. They want the best crystal structure. They want high purity.

This material is for experimental use. It is not for commercial batteries yet. Labs buy small quantities. They perform fundamental research. They share their results. This advances battery science.

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 Solid cell materials Lithium indium chloride halide solid electrolyte powder Li3InCl6 for lab research

This powder is lithium indium chloride halide. Its chemical formula is Li₃InCl₆. Researchers use it as a solid electrolyte material. It carries lithium ions inside solid-state batteries. People study it to improve battery performance.

Why choose this material? It has a high ionic conductivity. This means lithium ions move through it well. Good conductivity is crucial for fast-charging batteries. It is also stable against lithium metal. This stability helps prevent unwanted reactions. It performs well at room temperature. Many other solid electrolytes need high heat.

How should we handle this powder? Store it in a dry environment. Moisture can damage it. Use it inside an argon-filled glove box. This keeps oxygen and water away. Seal containers tightly after use. Proper handling protects the material.

Is this powder safe? Handle it carefully. Wear gloves and safety glasses. Avoid breathing in the dust. Work inside a fume hood. Follow all lab safety rules. This material is generally stable but requires respect.

What research uses this powder? Scientists test it in solid-state battery prototypes. They explore its interfaces with electrodes. Researchers study ways to improve its conductivity further. Others look at its long-term cycling behavior. It helps develop safer lithium batteries.

(Solid cell materials Lithium indium chloride halide solid electrolyte powder Li3InCl6 for lab research)