Erbium Fluoride

Duxiu Chemical

Specifications

HS Code	161724
Chemical Formula	ErF3
Molar Mass	195.925 g/mol
Appearance	white powder
Density	8.16 g/cm³
Melting Point	1376 °C
Boiling Point	2200 °C
Solubility In Water	insoluble
Crystal Structure	cubic
Color In Solution	none (as insoluble)
Magnetic Properties	paramagnetic
Refractive Index	about 1.65

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

Packing & Storage

Packing	Erbium Fluoride in 1 - kg bags, securely packaged for chemical use.
Storage	Erbium fluoride should be stored in a cool, dry place, away from sources of heat and direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption and contamination. Since it's a chemical, store it in a dedicated chemical storage area, segregated from incompatible substances like strong acids or bases to avoid potential reactions.
Shipping	Erbium fluoride is shipped in well - sealed containers to prevent moisture and contamination. Transport follows strict chemical safety regulations, with careful handling to avoid breakage, ensuring secure delivery to the destination.

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Competitive Erbium Fluoride prices that fit your budget—flexible terms and customized quotes for every order.

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General Information

Historical Development

The origin of Erbium Fluoride can be traced back far. In the past, the Fang family was exploring the properties of various substances, and gradually paid attention to it. At the beginning, the knowledge was still shallow, and only a few or two of its characteristics were known.
Catch it in later generations, and study it more deeply. The wise men thought hard, analyzed its structure, and explored the wonders of its reaction. As time goes by, the technology is new, and the preparation methods are also improved. At the beginning of preparation, it was difficult and small in quantity. After ingenious thinking, new techniques emerged, the output gradually increased, and the quality was also better.
Since it first appeared in the field of vision of everyone, so far, everyone's understanding and control of it is no longer comparable to what it used to be. In many fields, it has gradually been used for extraordinary purposes, starting from ignorance and initial observation. As for being widely known and able to make good use of it, this is the work of research and development through the ages, which has also achieved the development process of Erbium Fluoride.

Product Overview

"Overview of Erbium Fluoride Products"
Erbium fluoride is an important product of chemical research. Its color quality is specific, its properties are stable, and it is of extraordinary use in many fields of scientific research.
To observe its preparation, it requires delicate methods and control of various conditions to obtain good products. In the field of optics, it can assist the transmission and processing of optical signals, and the gain effect is remarkable. In materials science, adding material properties can make it suitable for special purposes.
Although it is a niche, its potential is huge. Researchers need to study its characteristics and explore new paths, so that erbium fluoride can develop its strengths in more fields, contribute to scientific progress and technological innovation, and promote the continuous sublimation of the realm of chemical research.

Physical & Chemical Properties

"Studying the Physical Properties and Chemical Properties of Erbium Fluoride"
Erbium fluoride, which is a substance, has specific physical properties and chemical properties. From the physical point of view, its crystal structure is regular, resulting in a specific appearance. It shines under light and has unique optical properties. And its density, hardness and other physical properties also have fixed numbers, which are suitable for the construction of various materials.
In terms of chemical properties, erbium fluoride has considerable stability in common chemical environments. When it encounters strong acids and bases, it also reacts. In the redox system, it can change with the valence state of erbium and participate in chemical changes. It can often form new substances and develop unique chemical properties when combined with others. These physical and chemical properties make erbium fluoride useful in materials science, optics, and other fields, and it is worth exploring in depth to make the best use of it.

Technical Specifications & Labeling

There are erbium fluoride products today, which are related to their technical specifications and labels (commodity parameters), and should be detailed. Erbium fluoride, its quality needs to be pure, and impurities are rare. Looking at its shape, when it is uniform and consistent, the particle size is appropriate, and the size is not a millimeter. Its color should also be pure, without noise.
On the label, it must be written by its name "Erbium Fluoride", and the proportion of ingredients should be listed in detail, accurate to the millimeter. And record its production time and batch for traceability. In its technical specifications, the reaction temperature and time are fixed, and the operation follows the rules and must not be wrong, so as to ensure that the quality of the product is constant and in line with the standards used to meet the needs of all parties.

Preparation Method

The method of making bait is related to the material and process, as well as the reaction steps and catalytic mechanism. To make Erbium Fluoride, the material selection is the key. Prepare erbium compounds first, such as erbium oxide, which is pure. Then take fluorine-containing raw materials, such as hydrofluoric acid, which have high activity.
In the process of making, first put erbium oxide in a special vessel and slowly inject hydrofluoric acid. This reaction needs to be controlled at temperature without overstimulation. As the reaction proceeds, pay attention to its changes and stir in a timely manner to promote its uniformity.
The reaction step should be slow, and the two meet at the beginning, and gradually change in combination. When it is stable, it is purified many times to remove its impurities.
In the catalytic mechanism, a suitable catalyst can be selected to reduce the energy barrier of the reaction and speed up its process. In this way, Erbium Fluoride of high quality can be prepared.

Chemical Reactions & Modifications

If Erbium Fluoride is used, it is also a matter of transformation. Its transformation and anti-modification are important to those who care about it. The reaction of this compound, or the combination of other things, or self-decomposition, are all based on transformation.
If you want to change its properties, you often use methods to do it. Or the degree of resistance, so that it can be used in different situations; or the force, to detect its reaction. Or add other catalysis, to promote its reaction speed, to change its generation of physical properties.
It is like this, it can be seen that Erbium Fluoride in a certain environment, the reaction is normal, and the physical properties are also low. Or hardness increase, or color change, this is the work of anti-modification. Those who study it can hope to obtain more wonders, so as to meet the needs of others and benefit the world.

Synonyms & Product Names

Today there is a product called Erbium Fluoride. Its aliases are also common, such as erbium fluoride. This product is very important in our chemical research.
Erbium Fluoride has unique chemical properties and is often used in many fields. In the field of optical materials, it can help optimize optical properties and make devices achieve better results. In scientific research experiments, it is also a commonly used reagent, making great contributions to exploring new reactions and new materials.
Its trade name is on the market, or varies depending on the manufacturer and use. However, its essence is the compound of erbium fluoride. Our chemical researchers should carefully investigate its characteristics and make good use of it to promote the development and progress of the chemical field.

Safety & Operational Standards

Erbium Fluoride is one of the chemical products, and its safety and operation standards are of paramount importance.
For storage, choose a dry, cool and well-ventilated place. Keep away from fire and heat sources to prevent accidents. Cover this product or risk reacting with heat or open flames, causing danger. And should be stored separately from oxidants, acids, etc., must not be mixed storage, due to interaction or severe reaction, endangering safety.
When operating, make sure that the operator is familiar with relevant safety knowledge and operation procedures. Wear appropriate protective equipment, such as protective glasses, to protect your eyes from dust and smoke; wear protective gloves to prevent skin contact. If operating in a confined space, ensure good ventilation to avoid the accumulation of harmful gases.
When using, the action should be slow and stable, and do not let this product splash out. If it is accidentally splashed on the skin, rinse with plenty of water as soon as possible. If you feel unwell, seek medical treatment immediately. If it splashes into the eye, you need to rinse with plenty of water immediately and send it to the hospital urgently.
Furthermore, if there is an Erbium Fluoride leak, quickly isolate the leak area and restrict personnel from entering and leaving. Emergency personnel should wear professional protective equipment and do not directly contact the leak. Small leaks can be collected with a clean shovel in a dry, clean, covered container. If a large amount of leakage occurs, it is necessary to build a dike or dig a pit to contain it, adsorb or absorb it with appropriate materials, and then dispose of it in accordance with relevant regulations.
In short, during the entire treatment process of Erbium Fluoride, safety is the top priority and operation is in accordance with regulations, so as to ensure the safety of personnel and the environment.

Application Area

Erbium fluoride is widely used in today's world. In the field of optics, it can be used as a gain medium for optical fiber amplifiers, making the transmission of optical signals farther and clearer, and the way of communication depends on it. In the technology of lasers, it can help generate lasers of specific wavelengths, which can be used for medical treatment and treatment of patients, such as removing tumors; in scientific research, it can explore the secrets of matter. In the ceramic industry, the ceramic is strong and beautiful, wear-resistant and durable, decorated in the room, adding brilliance and color. And in the manufacture of glass, it can change the optical properties of glass, making special optical glass, and adding color to objects. It is used in various fields, and it is an indispensable material in this world.

Research & Development

I am committed to the research of erbium fluoride. Erbium fluoride has unique physical and chemical properties and is widely used in optoelectronics and laser fields.
Begin to explore its preparation method. After repeated trials, an optimized formula can be obtained to prepare high-purity, homogeneously dispersed erbium fluoride. This preparation method is stable and efficient, and lays the foundation for subsequent research.
Then, study its optical properties. It occurs in the near-infrared region and has the sign of specific luminescence. This feature makes erbium fluoride have great potential in optical fiber communication, infrared detection, etc.
At present, it is still being studied unremitting. Hope to borrow new technology and new principles, expand its application domain, and promote its industrial progress. Ji erbium fluoride shines brightly in the future of science and technology, adding a strong force to the development of all industries.

Toxicity Research

Modern chemistry is advanced, and the study of toxicants is of paramount importance. Today there is Erbium Fluoride, and the study of its toxicity is related to people's livelihood, health and industrial practice.
In the test, Erbium Fluoride is slightly toxic. In the industrial preparation, if the protection is not good, people touch it or suck it, it may hurt the respiratory system, cause cough and shortness of breath. And long-term exposure to it, or invade the body's organs, damage the liver and kidney function.
However, in the process of scientific research, it is also an indispensable material. Therefore, to study its toxicity, it is necessary to weigh the pros and cons. Strict regulations to protect people, make good use of it and avoid its harm, with a long period, for the use of the world, do not let poison wantonly, the right way.

Future Prospects

The way of science and technology is changing with each passing day. I am always thinking about the future development of Erbium Fluoride. Erbium Fluoride is unique and can be used in optics and electronics.
Looking at the world today, optical technology is advancing day by day, Erbium Fluoride may help the rapid growth of optical communication, making information transmission instantaneous. And in the field of laser materials, it may be able to increase efficiency, create a stronger laser source, and be used in medical treatment and scientific research to solve many problems.
In the field of electronics, it is also expected to improve semiconductor performance, make chips compact and efficient, and drive smart devices to a new path. On the road to the future, Erbium Fluoride may be like a star, shining in the sky of science and technology, opening up infinite possibilities, leading our generation of scientific researchers to unremitting exploration to reach new realms.

Where to Buy Erbium Fluoride in China?

As a trusted Erbium Fluoride 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 Erbium Fluoride 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 application fields of Erbium Fluoride

Erbium fluoride (Erbium Fluoride) is useful in various fields.
First, in the field of optics, it is particularly critical. Cover erbium fluoride has specific optical properties and can be used to prepare optical fibers. These optical fibers shine in optical communication. Because it can effectively amplify optical signals, the signal attenuation of long-distance optical communication is small, thus ensuring high-speed and stable transmission of information. For example, when optical fibers containing erbium fluoride were not used in optical communication in the past, the signal was weak and difficult to distinguish due to long-distance transmission, but now it can be accessed smoothly.
Second, in laser technology, it is also indispensable. Erbium fluoride can be used as a laser gain medium. Lasers made with it as a medium can produce lasers of specific wavelengths. This laser can be used in the field of material processing to accurately cut and weld various materials. For example, in ancient times, artisans processed utensils, relying on manual work, and the fineness was difficult to achieve. Today, with the assistance of erbium fluoride lasers, its accuracy is far beyond the past. And in the medical field, this specific wavelength laser can be used for surgery, because it has little damage to tissues, it can help physicians perform more delicate surgeries.
Third, in the field of ceramic materials, erbium fluoride is also wonderfully useful. Adding it to ceramics can improve the properties of ceramics. The hardness and wear resistance of ceramics can be improved. In the past, ceramics were fragile, but now after the improvement of erbium fluoride, they can be more durable in many aspects such as building decoration and mechanical parts. For example, building exterior wall tiles, after this improvement, it is not easy to wear and discolor over time.
Fourth, in the field of scientific research, erbium fluoride is an important object for studying the structure and properties of materials. Scientists use its characteristics to explore new physical and chemical phenomena, and then promote the development of materials science and many other disciplines. Just like ancient scholars studying classics and constantly digging new meanings from them, today's researchers' research on erbium fluoride also contributes to scientific progress.

What are the physical properties of Erbium Fluoride?

Erbium fluoride is a substance formed by the combination of erbium and fluoride. Its physical properties are unique and valuable to explore.
First of all, its appearance, erbium fluoride is often in the state of powder, fine and uniform, with white or light color, pure and simple. This powder form makes it easier to disperse and mix in many chemical reactions and material preparation, which is conducive to the full progress of the reaction.
As for its melting point, erbium fluoride has a high melting point. This property allows it to maintain a stable solid structure in high temperature environments. When placed in a furnace, it needs to reach a specific high temperature before it melts into a liquid state. Such a high melting point makes erbium fluoride suitable for the manufacture of materials that need to withstand high temperatures, such as some special refractory materials, which can maintain their own form and properties under fire.
Furthermore, its density is also an important physical property. The density of erbium fluoride is moderate, neither too heavy nor frivolous. This moderate density allows it to be used in materials with both weight and stability. For example, in aerospace materials, the material needs to have good strength and stability, but not too heavy. The density characteristics of erbium fluoride may provide opportunities for its application in this field.
In addition, the solubility of erbium fluoride also has characteristics. In common solvents, its solubility is limited, and it can only be slowly dissolved in specific strong acidic or strong alkaline solutions. This solubility makes it a stable substance in some chemical separation and purification processes, and it does not easily react with surrounding solvents, thus ensuring the smooth progress of related chemical operations.
In summary, the physical properties of erbium fluoride, from appearance, melting point, density to solubility, each have their own unique characteristics, laying a solid foundation for its application in materials science, chemical engineering and many other fields.

Is Erbium Fluoride Chemically Stable?

Erbium fluoride is one of the chemical substances, and the chemical stability of this compound needs to be studied in detail.
In the field of chemistry, the stability of substances is related to many factors. Erbium is one of the lanthanide elements and has a unique electronic structure. In fluorides, fluorine is highly electronegative, and when combined with erbium, the resulting erbium fluoride has its own characteristics.
Under normal conditions, erbium fluoride can maintain a certain degree of stability in common environments. Because the chemical bond formed between fluoride ions and erbium ions has a certain strength, it can resist the disturbance of common external factors. However, if the environment is full of variables, its stability will also change.
If placed in a high temperature environment, the thermal energy will increase the movement of atoms or ions, resulting in a change in the energy state of chemical bonds. When the thermal energy exceeds a certain threshold, the chemical bond may be destroyed, and the structure of erbium fluoride will be difficult to maintain stability or cause chemical reactions such as decomposition.
If there are specific chemical reagents in the environment, they will occasionally react with erbium fluoride. For example, strong oxidizing or reducing substances, or react with erbium ions or fluoride ions in erbium fluoride, thereby affecting its stability.
Re-discuss humidity. In high humidity environments, moisture may interact with erbium fluoride. Although fluoride is generally difficult to hydrolyze, under some special conditions, moisture may participate in the reaction, which affects its stability.
Overall, the chemical stability of erbium fluoride is not absolute, and it can be relatively stable under normal environmental conditions. However, once environmental factors such as temperature, chemical reagents, humidity, etc. change significantly, its stability may also change accordingly. It cannot be generalized that it is stable or unstable. It should be carefully determined according to specific environmental conditions.

What is the production process of Erbium Fluoride?

The production process of the products involved in erbium (Erbium) and fluoride (Fluoride) is quite exquisite.
To make erbium fluoride, the first raw material is selected. The erbium source is mostly high-purity erbium metal or its compounds, such as erbium oxide. This is because the purity of the raw material is related to the quality of the product. The fluorine source is often hydrofluoric acid or other fluorine-containing salts, and its activity and reaction characteristics have a great influence on the process process.
In the reaction step, the wet reaction is often started. The erbium source is slowly incorporated into an appropriate amount of solvent, such as acid, to fully dissolve it and form a uniform liquid phase. Then, under strict temperature control and stirring, the fluorine source is added dropwise. This process requires fine regulation of the reaction temperature and fluorine source addition rate to prevent overreaction or product impurity. If the temperature is too high, side reactions may breed; if the rate is too fast, it is easy to make the local concentration too high and affect the crystalline morphology of the product.
After the reaction is completed, the resulting mixture needs to be separated and purified. Filtration is commonly used to remove its insoluble impurities. Then precipitation or crystallization is used to precipitate erbium fluoride from the solution. During precipitation, a specific precipitant can be added to help it crystallize. The crystallization process also needs to be controlled by temperature and time to obtain the product with ideal crystal structure and particle size.
Finally, the product is dried. Low-temperature vacuum drying can remove residual solvent and moisture to ensure the purity and stability of the product. This whole process is interconnected, and each link needs to be precisely controlled to obtain high-quality erbium fluoride products.

What is the price range of Erbium Fluoride in the market?

Erbium fluoride is in the market, and its price is variable, which is due to many reasons. First, the purity of the quality is related to the price. If the quality is high and pure, and there are few impurities, the price will be high; if the quality is inferior, the price will drop. Second, the quantity is also related to the price. The market demand is large, but the supply is small, the price will rise; if the supply exceeds the demand, the price will fall. Third, the difficulty of making also has an impact. The process is difficult, labor and materials are required, and the price will be high; if it is easy to make, the cost will drop, and the price will also decrease.
In the past, pure erbium fluoride was sold for tens of gold per gram, while the price of miscellaneous goods was only a few gold. However, the market situation changes, or because of new technologies, the supply increases and the price falls; or because of the sudden increase in demand, the supply is difficult to respond to the demand, and the price rises again.
Roughly speaking, the price of erbium fluoride can be as low as gold per gram, and as high as tens of gold. The width depends on various market conditions.