Lithium Fluoride Anhydrous

Duxiu Chemical

Specifications

HS Code	643863
Chemical Formula	LiF
Molar Mass	25.939 g/mol
Appearance	white cubic crystals
Density	2.64 g/cm³
Melting Point	845 °C
Boiling Point	1676 °C
Solubility In Water	0.27 g/100 mL (25 °C)
Solubility In Other Solvents	insoluble in ethanol, slightly soluble in acid
Crystal Structure	cubic
Electrical Conductivity	poor conductor in solid state, conducts when molten or in solution
Thermal Conductivity	0.126 W/(m·K) (at 25 °C)

As an accredited Lithium Fluoride Anhydrous factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100 - gram bottle of anhydrous lithium fluoride, securely packaged for safe transport.
Storage	Lithium fluoride anhydrous should be stored in a cool, dry place. Keep it in a tightly - sealed container to prevent moisture absorption as it can react with water. Store away from incompatible substances like strong acids. Ensure the storage area has good ventilation to avoid the build - up of potentially harmful fumes in case of any leakage.
Shipping	Lithium Fluoride Anhydrous is shipped in tightly - sealed, corrosion - resistant containers. Due to its chemical nature, it's transported following strict hazardous materials regulations to ensure safety during transit.

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General Information

Historical Development

"On the Historical Development of Lithium Fluoride Anhydrous"
Lithium fluoride is anhydrous and belongs to the genus of chemical materials. Its history can be traced back to the past. Ancient scholars have gradually explored the properties and changes of matter. At first, everyone did not know about the anhydrous nature of lithium fluoride.
The science is gradually emerging, and researchers pay attention to it. The sages used different methods to try to analyze its nature and study the technique of making it. At the beginning, it was difficult to make, but the purity was not good. However, the public was unremitting, and after several years, the craftsmanship was gradually achieved. The purity is rising, and the use is also wide.
From the little known in the past, it is now widely used in electronics, optics and other fields. The development of lithium fluoride anhydrous materials is really a quest for scientific research. This is the work of predecessors, and future generations should continue to explore more wonders to benefit the world.

Product Overview

"Lithium Fluoride Anhydrous"
Now there is something called Lithium Fluoride Anhydrous, that is, lithium fluoride anhydrous. This is a chemically made product. Its properties are pure and free of impurities, and it has a specific quality. Lithium fluoride is anhydrous, white in color and pure in quality, and has no water disturbance. It is often the key thing in chemical reactions.
Its shape is either in the form of a powder, which is fine and uniform; or it is in a crystalline state, and it is transparent. In the field of scientific research, it is often used as a raw material to synthesize other substances, or in specific experiments, to detect the signs of its reactions and explore the secrets of chemistry. It also has functions in industry, helping many manufacturing processes to go forward. Therefore, lithium fluoride has a significant position in chemical research and industrial practice.

Physical & Chemical Properties

"On the Physical and Chemical Properties of Lithium Fluoride Anhydrous Substances"
Lithium Fluoride Anhydrous is an important substance for chemical research. Its physical properties are white and pure in color, like fine powder, uniform particles, and slightly glossy under light. Its density is moderate and delicate to the touch.
In terms of its chemical properties, it has high stability. At room temperature, it rarely reacts with common substances. When exposed to strong acids, although there is no drastic change, it can gradually respond slightly, demonstrating its unique chemical activity. In high temperature environment, its structure is slightly moved, but it is not easy to decompose, which shows the toughness of its chemical properties. The study of the physical and chemical properties of this substance is of great significance in the fields of chemical industry and materials, and can provide a key basis for industrial production and scientific research and development.

Technical Specifications & Labeling

"Technical Specifications and Labeling of Lithium Fluoride Anhydrous (Product Parameters) "
Lithium Fluoride Anhydrous is an important substance for chemical research. Its technical specifications are related to purity, which must reach a very high level, and the impurity content must be minimal. The particle size distribution is also the key, and it should be uniform and suitable to meet the needs of various applications.
On the logo, the product name is clearly marked, supplemented by a chemical formula, which makes it clear to people at a glance. As for the product parameters, the content is accurate to a specific value, and the water content is strictly controlled within the limit. Packaging specifications are also fixed to ensure the safety of transportation and storage. This is the essence of Lithium Fluoride Anhydrous technical specifications and labels, and is indispensable for research and application.

Preparation Method

To produce anhydrous lithium fluoride, the raw materials and production process are quite critical. Take lithium carbonate and hydrofluoric acid as raw materials, and mix the two in an appropriate ratio. The reaction steps are as follows: First, lithium carbonate is dissolved in hydrofluoric acid, and the reaction occurs: $Li_ {2} CO_ {3} + 2HF\ longrightarrow 2LiF + H_ {2} O + CO_ {2}\ uparrow $. After the reaction is completed, the resulting solution is evaporated and concentrated, and the lithium fluoride crystals are precipitated. After that, the lithium fluoride crystals are filtered to obtain lithium fluoride crystals. After drying, the residual water in the crystals is removed to obtain anhydrous lithium fluoride products. In order to ensure the purity of the product, a purification mechanism can be set up, such as recrystallization, to remove impurities and achieve high-quality anhydrous lithium fluoride preparation

Chemical Reactions & Modifications

"Lithium Fluoride Anhydrous". Its transformation should be modified, and there is much to be studied.
Lithium is active, while fluorine is strongly oxidizing. The two are combined into lithium fluoride anhydrous, and their transformation should be different. Under high temperatures, when it encounters metals or non-metals, it often changes violently, or combines, or replaces, depending on the environment and the properties of other things.
As for modification, it can be supplemented with other agents to change the structure of its lattice, or add heterogeneous atoms to adjust its physical and chemical properties. In this way, its conductivity and thermal stability can be changed. It can be used as a material for lithium batteries to increase their efficiency and prolong their lifespan; or it can be used for the production of special glass to strengthen their toughness and make them transparent.
When studying this compound, we should study the mechanism of chemical reaction in detail to clarify the way of modification, so that it can be used in a wide area and promote the industry of science and technology.

Synonyms & Product Names

"On the same name and trade name of" Lithium Fluoride Anhydrous "
In this life, there are many chemical products with many names. Among them," Lithium Fluoride Anhydrous ", that is, lithium fluoride anhydrous, is quite important in chemical research and various applications.
Its namesake, or" anhydrous lithium fluoride ", is called" anhydrous lithium fluoride ", which is based on its composition and properties, lithium fluoride to remove water, hence the name. As for the trade name, it has different uses depending on the manufacturer, or "high-purity lithium fluoride (anhydrous) ", which aims to demonstrate its high purity and is suitable for high-end research, electronic component manufacturing and other high-purity materials; or "industrial-grade anhydrous lithium fluoride", to show that it is used in industrial production and meets the specifications required by industry. Although the same name and the trade name are slightly different, they both refer to this lithium fluoride anhydrous product. To clarify its nature and observe its use is indispensable for chemical research and application.

Safety & Operational Standards

"On the Safety and Operation Specifications of Anhydrous Lithium Fluoride"
Anhydrous lithium fluoride is also an important chemical product. Its unique nature is related to safety and operation regulations, and cannot be ignored.
In terms of safety, anhydrous lithium fluoride has certain dangers. When it comes into contact with water or moisture, hydrogen fluoride gas can be generated, which is pungent and corrosive, injuring the eyes, throat and lungs. Therefore, when storing, it is necessary to choose a dry, well-ventilated place, and tightly sealed to avoid contact with water and moisture. If it is accidentally touched, if the skin is stained, rinse it with a large amount of water immediately, followed by a dilute sodium bicarbonate solution; if it enters the eyes, it is especially necessary to rinse it with water and seek medical attention quickly.
As for the operation specifications, the operator must wear protective equipment, such as goggles, corrosion-resistant gloves, protective clothing, etc., to prevent contact or inhalation. Operate in the fume hood to quickly discharge harmful gases and prevent them from accumulating in the room. When weighing and transferring, the method should be stable and accurate to avoid powder flying. Use the finished utensils and clean them to prevent contamination or corrosion from the rest.
Furthermore, in the place of experiment or production, emergency equipment such as eye washers, spray devices, etc. are necessary for emergencies. Everyone knows its nature and abides by safety and operation regulations, so that the use of anhydrous lithium fluoride is beneficial but harmless, and it is also helpful for chemical research and production.

Application Area

Lithium Fluoride Anhydrous is a unique chemical substance. Its application field is quite wide. In the field of optics, because of its excellent optical properties, it is often used in the manufacture of special optical lenses, which can accurately refract and transmit light, helping to improve the resolution of optical instruments. In the world of metallurgy, it can be used as a flux to reduce the melting point of metals, make metals easier to melt and purify, and improve the quality of metal products. In the battery industry, it has also emerged, making great contributions to the optimization of battery performance, which can enhance the conductivity and stability of batteries and prolong the service life of batteries. From this perspective, Lithium Fluoride Anhydrous plays an indispensable role in many key fields, and is an important substance that promotes the progress of related industries.

Research & Development

Yu Taste is dedicated to the research of lithium fluoride anhydrous material. It is pure in nature and has a wide range of uses, and it is important in various fields. At the beginning, I studied its manufacturing process, painstakingly searched for the best method, and hoped to obtain high-quality products. After many tests, I have observed the change of raw material ratio, temperature and heat, and improved the method in the process.
Then study the characteristics of this product, study its physical and chemical characteristics in detail, and know its state in different situations. And seek its expansion and explore its new uses. Looking at the progress of current technology, I think it can develop new chapters in the fields of lithium batteries and optics.
I will continue to explore, hoping to promote the wider use and higher quality of lithium fluoride anhydrous materials. In the process of research and development, I will move forward step by step, expecting to make a difference and add brilliance to the industry.

Toxicity Research

Lithium Fluoride Anhydrous is also a chemical substance. I study the toxicity of this substance, and I seek to understand it. Its shape and color are all important for research. Observe its solubility in water, and it depends on the environment of different degrees.
It is like this, and it probes into the shadow of living things. Small things are affected by it, and the body can or can be transformed. Its toxic effect can be replaced by dry or harmful to the internal organs. However, the strong toxicity also depends on the quantity. The amount is too small, or too large; if the amount is too large, it will be harmful.
And this object is in the environment, and it cannot be ignored. It is scattered around, or enters the water and soil, and the biological inheritance is interlocked. Therefore, the toxicity of Lithium Fluoride Anhydrous is of paramount importance to people's livelihood and environment.

Future Prospects

In today's world, technology is changing with each passing day, and everything is changing. Lithium Fluoride Anhydrous is being used more and more widely in today's chemical fields.
Looking at its future, the potential is endless. In the way of new energy, it may be the key to the battery, helping it to be more efficient and have a longer battery life, making it convenient to travel and clean energy, which is hoped for by the world. In the realm of optics, it can be used for delicate devices such as lenses, making things clearer and more realistic. It is widely used in all kinds of observation devices.
Furthermore, in the research and development of medicine, it may be able to find new ways to help find new ways and cure diseases. Although the road ahead may be difficult, but the progress of science and technology will be able to overcome it. Therefore, I believe in its future, it will shine brightly, contribute to the progress of the world, create a new situation, and achieve extraordinary achievements.

Where to Buy Lithium Fluoride Anhydrous in China?

As a trusted Lithium Fluoride Anhydrous manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading Lithium Fluoride Anhydrous supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What are the main uses of Lithium Fluoride Anhydrous?

Lithium (Lithium) and anhydrous lithium fluoride (Lithium Fluoride Anhydrous) are widely used. Lithium is lightweight and chemically active, making it widely used. In the metallurgical field, it is often a deoxidizer and desulfurizer, which can improve alloy properties. For example, adding lithium to aluminum alloys can increase its strength and hardness. It is indispensable in the manufacture of aerospace equipment, because aerospace equipment requires lightweight and high-strength materials. In the battery industry, lithium is a key material. Lithium-ion batteries have high energy density and long cycle life. They are widely used in portable electronic devices and electric vehicles, promoting the development of mobile electronics and new energy vehicles.
Anhydrous lithium fluoride has high chemical stability and thermal stability. In the ceramic industry, it can be used as a flux to reduce the firing temperature of ceramics, change their physical and chemical properties, and make the ceramic texture more uniform and shiny. In glass manufacturing, it can adjust the thermal expansion coefficient and chemical stability of the glass, and is used to make special optical glasses, such as telescopes and microscope lenses, to improve optical properties. In the metallurgical industry, anhydrous lithium fluoride is used as a flux for aluminum smelting to reduce the melting point of aluminum oxide, reduce smelting energy consumption, and improve aluminum purity. In addition, in the nuclear industry, because of its small neutron absorption cross-section, it can be used as a coolant and moderator for nuclear reactors to ensure stable operation of the reactor.

What are the Physical and Chemical Properties of Lithium Fluoride Anhydrous

The physical and chemical properties of lithium (Lithium) and anhydrous lithium fluoride (Lithium Fluoride Anhydrous) are as follows:
Lithium is a light metal with a soft texture and a silver-white color. Its density is very small, about 0.5 times that of water, which allows it to float on the water surface. The melting point of lithium is quite low, only 183.5 degrees Celsius, and the boiling point is 1347 degrees Celsius. The chemical properties are extremely active, and it is easily combined with oxygen and nitrogen in the air, so it is often stored in paraffin oil or Vaseline. When exposed to water, it reacts violently, releasing hydrogen and generating lithium hydroxide at the same time.
Anhydrous lithium fluoride, white crystalline powder, odorless. It has a density of 2.6356 grams per cubic centimeter, a high melting point of 843 degrees Celsius, and a boiling point of 1,680 degrees Celsius. It is insoluble in water, and it is insoluble in alcohols and ethers. It is only slightly soluble in acids. It is chemically stable and difficult to decompose at high temperatures. It has good chemical stability in many organic solvents.
Both have unique physical and chemical properties. Lithium is chemically active, while anhydrous lithium fluoride exists in a stable state and exhibits its properties in different fields.

What is the Production Method of Lithium Fluoride Anhydrous?

There are two ways to make lithium and lithium fluoride anhydrous. First, lithium carbonate and hydrofluoric acid are prepared. First, lithium carbonate is placed in a corrosion-resistant device, and hydrofluoric acid is slowly injected. It should also be, such as lithium carbonate ($Li_ {2} CO_ {3} $) and hydrofluoric acid ($HF $), lithium fluoride ($LiF $), water ($H_ {2} O $) and carbon dioxide ($CO_ {2} $). Its formula is: $Li_ {2} CO_ {3} + 2HF\ longrightarrow 2LiF + H_ {2} O + CO_ {2}\ uparrow $. In addition to water and carbon dioxide, the remaining liquid is evaporated, crystallized, and dried to obtain lithium fluoride without water.
Second, lithium hydroxide and hydrofluoric acid are used as materials. Take lithium hydroxide ($LiOH $) and dissolve it into a liquid, put it in a reactor, and gradually add hydrofluoric acid. The two phases are combined, lithium fluoride and water, and the formula is: $LiOH + HF\ longrightarrow LiF + H_ {2} O $. When it is done, remove the water, evaporate, crystallize, and dry to obtain lithium fluoride without water.
Both methods rely on hydrofluoric acid, but hydrofluoric acid is strong and toxic. Therefore, when making, strict regulations should be followed, protective equipment should be prepared, and the operation process should be carefully controlled to ensure safety. And the temperature and speed of evaporation and crystallization need to be carefully controlled to obtain high-purity lithium fluoride anhydrous, which meets the needs of all industries.

What should be paid attention to when storing and transporting Lithium Fluoride Anhydrous?

Lithium fluoride and lithium fluoride are anhydrous, and everyone should pay attention to them during storage and transportation.
The drying of the first environment. Lithium fluoride is anhydrous, and it is afraid of moisture. If it encounters water vapor, it is easy to deliquescent, causing its quality to change. Therefore, it must be stored in a dry place, and when transporting, it should also be protected from external moisture. In the cabinet, a desiccant can be placed to ensure its dry environment.
Control of temperature. Lithium is active, and the reaction will be intensified when heated. Under high temperatures, it may be dangerous. Lithium fluoride is anhydrous, although relatively stable, but the temperature changes drastically, or its structure and properties may be affected. Therefore, during storage and transportation, the temperature should be maintained at a suitable range to avoid extreme heat and cold.
Furthermore, to prevent it from coming into contact with other things. Lithium can react with many substances, such as oxygen, carbon dioxide, etc. Although lithium fluoride is more inert without water, it should also be avoided from co-storage and co-transportation with strong acids and alkalis to prevent chemical reactions and damage its quality.
Also pay attention to the solidification of the packaging. Lithium and lithium fluoride are anhydrous and need to be stored in a solid container. The packaging should not be leaked to prevent the material from spilling out and causing safety problems. And on the packaging, its characteristics and precautions should be stated so that everyone who handles it can know.
During transportation, the driving should be stable to avoid violent vibrations and collisions. Vibration collisions may cause damage to the packaging, or cause internal reactions. All these are all things that should be carefully paid attention to when storing and transporting lithium and lithium fluoride without water.

What is the market price of Lithium Fluoride Anhydrous?

Lithium (Lithium) and anhydrous lithium fluoride (Lithium Fluoride Anhydrous) are in the market, and their prices vary according to quality, quantity, source and market conditions. In the past, the price of lithium fluctuated and fluctuated. At the beginning, its production was thin and its use was low, and the price was still flat. Catch the rise of lithium batteries, its demand has increased sharply, and its price has also soared. Anhydrous lithium fluoride is an important material for lithium batteries, and its price also varies with the lithium market.
Looking at the market, if the quality is high and the quantity is huge, the price may be excellent. In block trade, suppliers often give a discount in quantity, and the price may be slightly reduced. However, if the quality is inferior and the amount is large, the price will not be high. And the origin is far and near, which is related to the freight, and also affects the price.
In addition, changes in market conditions also affect its price. The lithium battery industry is booming, and demand exceeds supply, and the prices of lithium and anhydrous lithium fluoride are both rising; if the market is cold and the supply exceeds demand, the price will decline. Therefore, in order to know the exact price, we must carefully consider all the reasons. The state of the market is changing rapidly, and the price is difficult to determine a constant.