Indium(Iii) Fluoride

Duxiu Chemical

Specifications

HS Code	316410
Chemical Formula	InF3
Molar Mass	171.81 g/mol
Appearance	white solid
Density	4.78 g/cm³
Melting Point	1172 °C
Boiling Point	1700 °C
Solubility In Water	insoluble
Crystal Structure	cubic
Electrical Conductivity	poor
Thermal Conductivity	low

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

Packing & Storage

Packing	Indium(III) Fluoride packaged in 1 - kg containers for secure storage and transport.
Storage	Indium(III) Fluoride should be stored in a cool, dry place, away from sources of heat and moisture. Keep it in a tightly - sealed container to prevent contact with air and humidity, which could potentially lead to degradation or reactivity. Store it separately from incompatible substances like strong acids and bases to avoid chemical reactions.
Shipping	Indium(III) Fluoride is shipped in well - sealed, corrosion - resistant containers. It adheres to strict hazardous material shipping regulations, ensuring proper handling to prevent any risk during transit due to its chemical nature.

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Competitive Indium(Iii) Fluoride prices that fit your budget—flexible terms and customized quotes for every order.

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Tel: +8615371019725

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General Information

Historical Development

All things in the world have their origin and change. India III Fluoride follows this path.
In the past, the research of chemistry was still shallow, and there was little understanding of it. However, over time, the researcher's heart became stronger and stronger, and the exploration did not stop. From the beginning to the beginning of its discovery, to the gradual understanding of its nature, it has gone through many twists and turns.
In the early days, it was limited to skills, and it was difficult to obtain pure India III Fluoride. However, the researchers worked tirelessly, improved their techniques, and finally refined them. Its use in scientific research has gradually expanded, and it has emerged in many fields. From little known to growing fame, the development of India III Fluoride depends on the diligence of researchers and the work of time. Today, its contribution to the advancement of science and technology is quite large, and the future is also bright.

Product Overview

"Overview of Indium III Fluoride Products"
Indium III Fluoride, or indium fluoride (ⅲ), is a compound that has attracted much attention in the field of chemical research. Its appearance is often white powder, its properties are stable, and it shows unique functions in many chemical reactions and industrial production processes.
From the perspective of chemical composition, this substance is composed of indium (In) element and fluorine (F) element in a specific ratio. With its unique chemical structure, Indium III Fluoride has emerged in the fields of optical materials, electronic component manufacturing, etc. For example, in the preparation of optical glass, the addition of this compound in an appropriate amount can effectively improve the optical properties of the glass, making it have better light transmittance and refractive index.
In the field of electronics industry, India III Fluoride also plays a key role. It can be used as a key additive for semiconductor materials to help improve the electrical performance of semiconductors, thereby optimizing the working efficiency and stability of electronic components. Because of this, it occupies an increasingly important position in the modern technology industry, providing a solid material foundation for the development of many cutting-edge technologies.

Physical & Chemical Properties

Today there is India III Fluoride, and its physical and chemical properties are worth exploring. In terms of physical properties, its color state or a specific appearance, its texture is also unique, and the melting point and other key parameters related to its physical state transformation are the focus of research. As for chemical properties, its activity in various chemical reactions and the interaction with different substances are particularly important. It may be able to replace with a certain type of reagent, or participate in chemical reactions under specific conditions. Exploring the physical and chemical properties of this substance is of great significance in many fields such as materials science, and can lay the foundation for related research and applications.

Technical Specifications & Labeling

"On the Process Specification and Identification of Indium (ⅲ) Fluoride (Product Parameters) "
The indium (ⅲ) fluoride has attracted much attention in today's chemical research. Its process specification is related to the quality of the product. Where this product is made, it is necessary to strictly follow the rules. When selecting raw materials, it is necessary to be pure, and the impurities must be fine. The method of synthesis, when accurate, temperature control and speed regulation, are all important. The reaction device also needs to be adapted to ensure a smooth process.
As for the marking end, the product parameters should be detailed and not hidden. For example, the purity geometry must be shown by an exact number, and no difference should be tolerated. The particle size should also be clear, which is related to the effectiveness of its application. On the packaging, the logo must be displayed, so that the user can see it at a glance, so that there is no mistake. According to this process specification and logo, the quality of indium (ⅲ) fluoride can be expected to be of high quality, and it can do its best at all costs.

Preparation Method

The method of making India III Fluoride products is as follows:
Raw materials and production process, take the pure product of indium (India), and fluorine-containing raw materials, such as hydrofluoric acid. Indium is placed in various special devices, and hydrofluoric acid is slowly injected into it. During the reaction steps, indium encounters hydrofluoric acid, which is a chemical reaction. Indium atoms combine with fluoride ions to form the initial product of Indium III Fluoride.
After the reaction is completed, subsequent treatment, the primary product is purified through a process to remove impurities. Or use filtration to remove insoluble substances; or use distillation to improve its purity. Purification equipment and mechanism, when fine and dense, so that India III Fluoride can reach a very high purity standard, can be well prepared. In this way, the India III Fluoride product has been achieved.

Chemical Reactions & Modifications

Now there is India III Fluoride. In the field of chemistry, its reaction and modification are worth exploring. India III Fluoride is formed by the combination of indium (India) and fluorine (Fluoride). Its chemical properties are related to many reactions.
Looking at its reaction, it encounters with active metals or undergoes a replacement change. Due to the specific activity of indium, fluoride ions also have characteristics. When encountering active metals, indium may be replaced. This is a common chemical change.
As for modification, specific methods can be used. At high temperatures and with catalysts, it may change its crystal structure, thereby changing its physical and chemical properties. In this way, it can either increase its stability or change its solubility, which has many benefits in practical applications. Exploring its reaction and modification can contribute to the development of chemistry and the progress of materials.

Synonyms & Product Names

India III Fluoride is also a chemical compound. It also has the same name. Or trifluoride, which is formed by its chemical compound. There are also fluoride (III), which is also named according to the chemical compound of its elements.
This India III Fluoride is also an important product in the world. It is used in many fields, such as the manufacture of children, and can be used as an addition of specific materials to help improve its performance. And its strength, characteristics, etc., are all important to those who care about it. India III Fluoride from different manufacturers has this basic name, but there are minor differences in product quality and use. The same as its name, it helps people in communication and research, and can clarify what is referred to, so as to promote the research and application of chemical products.

Safety & Operational Standards

"Code of Safety and Operation of Indium (III) Fluoride"
The use of indium (III) fluoride is also a commonly used product in chemical research. If you want to make good use of this product, you must specify the rules of safety and operation to ensure that everything goes smoothly and there is no danger.
Its special nature, when storing, you must choose a cool, dry and well-ventilated place. Avoid water and fire, and do not place it with reactive materials to prevent unexpected changes. If stored in an improper place, the temperature and humidity will be out of balance, or cause qualitative change, which will damage its effectiveness, or cause harm.
When using it, you must wear protective gear. Gloves, goggles, and protective clothing are all indispensable. This is to protect yourself from its harm. The operation is suitable in the ventilation cabinet, so that the exhaust gas can be discharged quickly, so as to avoid inhalation and damage to health. Weighing and measuring must be accurate and not careless. A little difference, or cause the reaction to go awry, and the experiment is fruitless.
The reaction process, strictly abide by the procedures. Familiar with its response to other things, and apply it in sequence. What comes first and what comes later, there is a fixed number. If the order is disordered, or a violent reaction occurs, the instrument will be damaged and the person will be endangered. The reaction temperature and duration should also be paid attention to. If it is too warm, it will be fast, and if it is not used, it will be slow, which is not appropriate.
After use, properly dispose of the residue. Do not dispose of it at will, and store it in categories according to regulations and hand it This is an environmental protection plan, and it also avoids polluting the environment and harming future generations.
In short, the safety and operation of indium (III) fluoride must be attended to in all details. In this way, the experiment can be guaranteed to be safe and successful, and the chemical research can move forward steadily without any worries.

Application Area

Indium (III) fluoride is widely used. In the field of electronics, it can be a key material for semiconductor manufacturing. Such as making integrated circuits, it can help improve its performance, make the operation faster and lower energy consumption. In the field of optics, it is used in the system of special optical glass to increase its light transmittance and stability, and is suitable for high-end optical instruments. It is also used in the research and development of new energy batteries, or as an electrode material additive to improve the charging and discharging performance of batteries and extend their service life. Gu Yun: "Make the best use of everything, and you can show your value." Indium (III) fluoride, with its unique properties, emits light and heat in various fields, adding to the progress of science and technology. It is an indispensable material.

Research & Development

Those who have tasted the world's chemical research materials have studied this material in India III Fluoride. Its unique nature and wide range of uses. With the heart of research, we observe its physical properties and analyze its chemical quality.
At the beginning, we will review the preparation method in detail, and strive to improve the process to increase its yield and maintain its purity. Then explore its application in various fields, such as the field of electronics, with its characteristics, it can help improve the performance of devices; in the study of materials, it can also be the basis for the research and development of new materials.
We are determined to make the application of India III Fluoride more extensive through in-depth research, promote the development of this field, and contribute to the progress of science and technology, so that it will shine in the future and become a treasure of the industry's attention.

Toxicity Research

Since modern times, in the field of chemistry, the toxicity study of India III Fluoride has gradually become more and more important in the academic community. Our generation has been studying chemical products, and we are well aware of the importance of this substance toxicity investigation.
India III Fluoride, although its properties are not completely clear, according to existing research, may contain potential dangers. Under the experimental environment, it has some effects on various organisms. Looking at its microscopic changes, it can lead to differences in cell structure and metabolic pathways. Although there is no conclusive evidence to clarify its exact toxicity to human health, experiments show that it should not be ignored.
It also considers its environmental impact. When India III Fluoride enters the nature, or migrates and transforms between water and soil, it is involved in the ecological cycle. Its potential harm is related to the survival and ecological balance of all things. Therefore, the study of toxicity is not only to clarify its harm to individuals, but also to protect the ecological security and ensure the peace of future generations. We must study diligently, hoping to obtain the truth, so as to avoid the risk of unknown.

Future Prospects

Looking at the world today, there are many people who are researching and seeking chemical materials. Although India III Fluoride is not widely known, its future prospects are really meaningful.
This material is unique, and it may open up new paths in the field of scientific research. Although it is not used today, science and technology are advancing day by day, or in material science, etc., it will emerge. With time, with the deepening of research, its characteristics or good use, whether it is the essence of electronic devices or the increase of catalytic efficiency, are unknown.
Let's study India III Fluoride, if you walk on the path, it is dark at the beginning, but you insist on exploring, there will be a sudden day of enlightenment. In the future, it may add new green to the forest of chemistry, serve as the foundation for various applications, develop a different style, explore new worlds in unknown places, and lead the trend of scientific research to become the bright future.

Where to Buy Indium(Iii) Fluoride in China?

As a trusted Indium(Iii) 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 Indium(Iii) 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 indium (III) fluoride

Long (III) liquefied substances have a wide range of main application fields. In the field of equipment construction, long (III) liquefied substances can be used as lubricants to make the equipment run smoothly, reduce its wear and tear, and increase its lifespan. The ancient construction of giant ships and exquisite machines all relied on this to ensure their work efficiency.
It is also very useful in the treatment of diseases. It has the ability to cool and detoxify, clear the veins and remove silt. It is often introduced into medicine and helps the power of various medicines to reach the sick. In the past, plagues were rampant, and doctors used it to match various medicines to save the people from sinking diseases.
Furthermore, in the industry of casting alchemy stones, long (III) liquefied substances can help melt ore, making it uniform and pure in quality. The ancient sword was used by craftsmen to make the blade sharp and tough, making it a weapon of the world.
It is also indispensable in the daily life of people. When making candles, adding them can make the candle burn and shine for a long time; when making incense, adding them can make the aroma mellow and lasting.
In the art of printing and dyeing, it can help the color material to be evenly distributed, making the fabric bright and lasting. The silk weaving embroidery of the ancient times all used its power to make a gorgeous color.
All of this shows that Class (III) liquefied substances have important applications in many fields such as equipment, disease treatment, casting, people's livelihood, printing and dyeing, and have contributed greatly to the work, medicine, and people.

What are the physical properties of indium (III) fluoride?

Long (III) liquefied substances have unique physical properties. This liquefied substance is mostly smooth, like the agility of water, but its viscosity is slightly higher than that of ordinary water, and it seems to have a slight sense of stagnation when touched, but it does not hinder its flow. Looking at its color, it is mostly clear, like crystal clear jade liquid, but there are also slightly light colors, or slightly yellow, or slightly green, all of which are clear.
Smell it, its smell is special, not pungent and strong, nor light and tasteless, but has a subtle fragrance, this fragrance is elegant and long, like the orchid in the mountains, inadvertently refreshing. Its density is slightly heavier than water, placed in water, and it sinks slowly. However, due to its good fluidity, it does not fall rapidly when sinking, but seems to fall leisurely.
As for its solubility, in common organic solvents, it is quite able to blend. When the two meet, they are integrated in an instant, and it is difficult to distinguish each other. And the boiling point and melting point of this liquefied substance are different from those of normal matter. The boiling point is moderate, neither highly volatile nor requires extremely high temperatures to vaporize; the melting point is slightly lower, and it is a flowing liquid at room temperature. Its thermal conductivity is good, and when touched by the hand, the chill is slowly transmitted to the palm, and the heat dissipation is also relatively uniform, without sudden cooling and sudden heating. The physical properties of this type (III) liquefaction are indeed a wonderful thing between heaven and earth, and deserve careful investigation.

What are the preparation methods of indium (III) fluoride?

There are several ways to make long (III) liquefied substances. First, the method of cooling and refrigeration. To make a substance gradually cool, the kinetic energy of its molecules gradually decreases, attracting each other and aggregating, and then forming a liquid state. Ancient wisdom, although I did not know the principle of molecules, I also knew that cold can condense. If water freezes into ice in winter, on the contrary, it turns into water when it is slightly warmer, which is a sign that the state of matter changes with temperature. By cooling, many liquefied substances can be made. If water vapor is cold and dew, this is an example of cooling and liquefaction in nature.
Second, the method of pressurization. Pressure on the object causes the molecular spacing to shrink, which can also achieve the effect of liquefaction. When the pressure is increased to a certain extent, even if the temperature does not drop, things can change from gaseous to liquid. Although this principle has not been stated in ancient times, there are traces in practice. If gas is placed in a closed device, force is applied to compress, or changes in gas can be seen.
Third, the method of mixing. Mixing something with others may promote its liquefaction. If a specific agent is added to some gas, the combination of the two can change its physical properties and make it easy to form a liquid state. This change requires detailed observation of physical properties and the interaction of the two.
Fourth, the method of catalysis. With the power of a catalyst, the rate and path of a chemical reaction can be changed, or the material can be liquefied. The catalyst does not participate in the final reaction product, but can make the originally difficult to liquefy things reach a liquefied state with its help. Although the ancient method may not have such a fine catalytic understanding, it may also have a similar effect due to natural changes.
All these production methods need to carefully observe various factors such as physical properties, temperature, pressure, etc., and cooperate with each other to achieve the purpose of lengthening (III) liquefied products.

What is the price range of indium (III) fluoride in the market?

The price range of Chang (III) liquefied substances in the market is difficult to determine. The price varies with time, place, quality, and supply and demand.
Looking at the past years, when the market conditions are stable, the price of Chang (III) liquefied substances may be between fifty and hundred dollars per catty. At that time, the production area is abundant, and the demand of users is not hot, so the price is still stable but not high.
However, if the weather is not good, the harvest in the production area is sharply reduced, or the world's use of this material increases sharply, the price will be like a canopy, and the fluctuation is unpredictable. There was a year when epidemics were rampant, and doctors all sought long (III) liquefied substances for medicine. For a while, the market was exhausted, and the price soared to hundreds of dollars per catty. Businesspeople were hoarding goods, and the people were miserable.
There are foreign merchants from afar who came to the city with their specialties, competing with local products, and the price of long (III) liquefied substances was also disturbed by it. Or because of the high quality and low price of the product, it attracted people to compete for it, causing the local long (III) liquefied price to fall; or because of its rarity and rarity, it is common to contrast with local products, and the price is difficult to rise.
Furthermore, the change of the decree has a huge impact on prices. If the government taxes heavily on this property, merchants must increase the price in the city in order to protect their profits; if the government advocates it, or subsidizes it, the price may be slightly reduced to benefit the people.
is the price of long (III) liquefied matter in the city, which is often volatile and cannot be hidden in a single word. It is necessary to look at all the situations before we can know its approximation.

What should be paid attention to in the storage and transportation of indium (III) fluoride?

For long (III) liquefied substances, the following numbers should be paid attention to when storing and transporting them.
First, it is related to the storage place. It is necessary to choose a cool and well ventilated place. Because long (III) liquefied substances are volatile, if they are in a warm and blocked place, their gas will easily accumulate, and they will accumulate for a long time, and they will be afraid of unexpected changes. They must also be kept away from fire and heat sources. These substances will ignite in case of fire, and the pressure will rise sharply in case of heat, or cause the container to rupture, causing a disaster. Furthermore, the storage place should be dry and protected from water and moisture. Cover such liquefied substances or mix with water to generate chemical reactions, which will damage their quality and increase their danger.
Second, about the choice of containers. Special and pressure-resistant devices must be used. The long (III) liquefied substance is easily gaseous at room temperature and pressure, and must be stored in the container at high pressure, so the pressure resistance of the device is very important. The material of the device must also be adapted, and it should not chemically react with it, so as to avoid leakage caused by erosion. And safety valves, pressure gauges, etc. should be installed on the device to measure its pressure, prevent the pressure from exceeding normal, and also relieve its pressure in emergency to avoid explosion.
Third, when transporting, when driving steadily and slowly. The bumping of the road and sudden stop can damage the container and cause the leakage of liquefied materials. The transport vehicle should also be equipped with fire and explosion-proof equipment, and the corresponding emergency equipment and materials must be prepared with the vehicle. If there is a leak, it can be disposed of quickly. The escort must be familiar with the nature of such liquefied substances, know the emergency methods, and be able to handle it properly in case of change.
Fourth, whether it is storage or transportation, it should strictly abide by the regulations. The regulations set by the government have been practiced and considered to ensure safety. Practitioners should not take chances, and must follow the regulations. In this way, they can ensure the safety of storage and transportation of Class (III) liquefied substances, avoid disasters, and protect the integrity of people and wealth.