Sodium Antimony Hexafluoride

Duxiu Chemical

Specifications

HS Code	719429
Chemical Formula	NaSbF6
Molecular Weight	274.74 g/mol
Appearance	White solid
Solubility In Water	Soluble
Melting Point	About 245 - 248 °C
Density	3.56 g/cm³
Crystal Structure	Typically in an ionic crystal lattice
Acidity Basicity	Neutral salt
Thermal Stability	Stable under normal conditions
Hazard	May be harmful if swallowed, inhaled or in contact with skin

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

Packing & Storage

Packing	1 kg of Sodium Antimony Hexafluoride packaged in a sealed, corrosion - resistant container.
Storage	Sodium Antimony Hexafluoride should be stored in a cool, dry, well - ventilated area, away from sources of heat and ignition. It should be kept in a tightly - sealed, corrosion - resistant container, preferably made of materials like high - density polyethylene or fluoropolymer. Store it separately from incompatible substances such as strong acids, bases, and reducing agents to prevent reactions.
Shipping	Sodium Antimony Hexafluoride is shipped in specialized, tightly - sealed containers. Due to its chemical nature, it requires careful handling during transit to prevent spills, with compliance to strict hazardous materials shipping regulations.

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General Information

Historical Development

Sodium Antimony Hexafluoride is a chemical substance. Its origin is quite early. At the beginning, the sages studied the field of chemistry diligently and only then could they observe it. In the past, limited to skills and cognition, the exploration of this object was still shallow. However, with the passage of time and the advance of science and technology, people have studied its nature and production method more and more deeply.
In the early days, only a few or two characteristics were known, and after countless ingenious experiments, its complexity gradually became clear. The production method also evolved from crude at the beginning to fine. In various fields of industry, its use has also become more and more widespread, and it has begun to be known by the minority. Today, it is emphasized by many industries. From ignorance to clarity, the development of Sodium Antimony Hexafluoride is also the continuous progress of chemical research.

Product Overview

"Sodium Antimony Hexafluoride Product Overview"
Sodium Antimony Hexafluoride is one of the most important chemical products. Its unique properties are colorless to slightly yellow liquid, with strong corrosive and chemical activity.
This product is widely used in the industrial field. In the electronics industry, it is often used as an etchant to assist in the manufacture of precision electronic components, which can be precisely etched to achieve high precision. In the preparation of battery materials, it also plays a key role in optimizing battery performance and improving the energy density and stability of batteries.
However, its use should also be used with caution. Due to its strong corrosiveness, it must be armed with professional protective equipment and follow strict procedures during operation. And it must be stored in a specific environment to prevent safety hazards and environmental pollution caused by leakage.
In summary, although Sodium Antimony Hexafluoride has made outstanding contributions to industrial development, safe use and proper management are of paramount importance.

Physical & Chemical Properties

Sodium Antimony Hexafluoride is a unique chemical product. Its physical and chemical properties can be investigated. Looking at its morphology, it often shows a specific state, or is crystalline, uniform and stable. Regarding its physical properties, the melting point and boiling point have specific values, which are related to the strength of the intermolecular force. Its density is also a key physical property, indicating the density of its substances.
In terms of chemical properties, Sodium Antimony Hexafluoride exhibits unique chemical activity in a specific reaction system. It can chemically react with various substances, or participate in the change of synthesis and decomposition, which is due to the valence state of the elements and the structure of the electron cloud. In many chemical processes, Sodium Antimony Hexafluoride is often the main cause of change, and its unique chemical properties affect the process of reaction and the formation of products.

Technical Specifications & Labeling

"Technical Specifications and Labeling (Product Parameters) of Sodium Antimony Hexafluoride"
This is an important chemical product of sodium antimony hexafluoride. Its technical specifications are related to the preparation method. Precise steps, appropriate temperature and pressure must be taken to make the raw materials react according to a specific ratio to obtain a pure product.
As for the label, the name of the product should be "Sodium Antimony Hexafluoride" on the label, and the product parameters should be listed in detail. If the purity is one, it must reach a very high standard, and the impurity content must be strictly controlled at a very small level. This is to enable users to determine the characteristics and quality of the product. In industrial applications, scientific research and exploration, etc., this specification and logo can be used to achieve smooth development, avoid the risk of misuse, and ensure the safety and efficiency of production.

Preparation Method

Sodium Antimony Hexafluoride is made today, and its raw materials and production process are the key. Take high-purity sodium fluoride (NaF) and antimony pentachloride (SbCl) as raw materials. First dissolve sodium fluoride in an appropriate amount of solvent to obtain a clear solution. Antimony pentachloride is also properly handled and set aside.
During the reaction, control the temperature to a suitable degree, slowly inject the sodium fluoride-containing liquid into antimony pentachloride, stir well, so that the two can fully react. The reaction steps are rigorous and must not be wrong. After the reaction is completed, the impurities are removed by separation and purification to obtain pure Sodium Antimony Hexafluoride.
In this process, the catalytic mechanism cannot be ignored. Select the appropriate catalyst to promote the reaction speed and extract the rate of the product. In this way, high-quality Sodium Antimony Hexafluoride products can be prepared.

Chemical Reactions & Modifications

Sodium Antimony Hexafluoride is a chemical substance. Its chemical reaction is related to many wonderful changes. The reaction of this substance is often studied by chemists. Its reaction state, whether intense or peaceful, varies according to the surrounding conditions.
On its chemical modification, it is particularly important. Through various means, it can be made to have different characteristics. Or change its stability, or change its activity, to suit different needs. Chemists in the laboratory often use exquisite methods to handle this substance, observe the change of its reaction, and then seek the way of modification. The chemical reaction and modification of Sodium Antimony Hexafluoride is one of the key to chemical research and can provide a strong foundation for the development of many fields.

Synonyms & Product Names

Sodium Antimony Hexafluoride (Sodium Antimony Hexafluoride) is also a chemical product. The name of the product with the same name varies depending on the region or tradition. As for the trade name, it also varies according to the business operation and use direction of the merchant.
Considering the past, this product first appeared, but everyone named it, but it was not unified. Or according to its chemical properties, it is called by a similar name; or according to the method of preparation, it is another nickname. And in the market, merchants created the name of the product in order to recognize its characteristics.
Nowadays, although science is becoming more and more prosperous, naming is becoming more and more standardized, but the same name and trade name in the past still exist in the literature and word-of-mouth, and it is also one of the spots in chemical research.

Safety & Operational Standards

"Sodium Antimony Hexafluoride Safety and Operation Specifications"
The husband of Sodium Antimony Hexafluoride is a special chemical product. Regarding its safety and operation specifications, do not be careless.
The first word is safety. This product has specific chemical properties and may react violently in contact with water or moisture, so it must be stored in a dry, cool and well-ventilated place, away from fire and heat sources, to prevent it from being decomposed by heat and generating dangerous gases. When taking it, you must wear appropriate protective equipment, such as protective clothing, gloves, goggles, etc., to avoid contact with the skin and eyes. If you accidentally touch it, rinse it with plenty of water and seek medical treatment.
Times and operating specifications. There should be professional ventilation equipment in the operation room to allow air circulation and avoid the accumulation of harmful gases. When weighing and transferring this product, the action should be slow and stable. When using the finished appliance, be sure to clean it in time to prevent the residue from affecting the next use. In the experiment or production process, strictly follow the established steps and must not be changed without authorization. If there is waste generated, it should be properly disposed of in accordance with environmental protection regulations, and should not be discarded at will to avoid polluting the environment.
All work involving Sodium Antimony Hexafluoride should be based on safety and strictly abide by the operating norms, so as to ensure the safety of personnel and promote the smooth work.

Application Area

Sodium Antimony Hexafluoride is also a stunner in the field of transformation. Its use is involved in all domains.
In the field of production, it can be solved and improved. Its performance, so that the pool can be better, put flat, and the life is also extended. Because it can help the child's performance, it can ensure the benefit of the reverse.
In the field of semi-production, it can be used for engraving. With its unique properties, it can refine the micro-performance of half-production, so that the efficiency of the chip is improved, the size is small, and the integration is promoted.
In the realm of catalysis, it can be used to promote high-efficiency catalysis, accelerate reaction speed, reduce its activation energy, make the road of synthesis easier, and increase the efficiency. This is the use of Sodium Antimony Hexafluoride, which is also the tool of chemical engineering.

Research & Development

In modern times, chemistry has flourished, and the research on various compounds has not stopped. Today, there is Sodium Antimony Hexafluoride, which has been studied very diligently by the academic community.
Study its properties, and through various experiments, know its reaction in a specific environment, and know the law of its chemical activity. And study its preparation method, improve the old technique, so that the yield gradually increases and the quality is purified.
Looking at its development, it is widely used. In the field of electronics, it is a key material, helping to improve the performance of devices. Everyone is looking forward to its future, hoping to solve more problems and expand its use. We must work together to make the road of research on this compound wider and wider, and contribute to the progress of the world.

Toxicity Research

The study of poisons is related to the safety of people's livelihood. Today's research on Sodium Antimony Hexafluoride, the study of its toxicity is of paramount importance.
If this thing is accidentally touched, or entered into the body, it may cause serious harm. Looking at its physical properties, in various media, its diffusion state and reaction mode are all related to the appearance of toxicity. It dissolves in water and dissipates ions, or reacts with others, and its toxicity or change cannot be ignored.
And in the environment of this thing, the surrounding organisms are threatened by it. Plants and trees grow, or leaves wither and stems wither; insects and birds touch it, and it is feared that the vitality will be unsustainable. Therefore, studying its toxicity, examining its impact on the ecology in detail, exploring protection strategies and digestion methods, so as to ensure the safety of all living beings and the environment in peace. The importance of this research cannot be underestimated.

Future Prospects

Although Sodium Antimony Hexafluoride is not widely used today, its future prospects can be looked forward to.
It covers its differences in nature, and it has hidden capabilities in various chemical fields. It is expected that in the future, the more advanced science and technology, the deeper the research, the more delicate it will be. Or in the system of new materials, it can emerge, making the material more tough and light, adding its help to equipment and aerospace.
Or in the way of energy, it shines brightly. The improvement of battery efficiency makes the battery last longer and charge quickly, bringing convenience to portable devices and motorists.
Although there may be thorns in the road ahead, with a heart of research and unremitting exploration, its future will surely be like the dawn clouds, shining brightly, in various fields, showing extraordinary effects, adding luster to the well-being of the world, and achieving an unprecedented splendor.

Where to Buy Sodium Antimony Hexafluoride in China?

As a trusted Sodium Antimony Hexafluoride 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 Sodium Antimony Hexafluoride supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What is the main application field of Sodium Antimony Hexafluoride?

Sodium antimony hexafluoride (Sodium antimony hexafluoride) is useful in various industrial and scientific fields.
In the field of battery technology, this compound is of great significance. In the development of high-performance batteries, it can be a component of electrolytes. With its characteristics, it can help ions to migrate efficiently inside the battery, improve the charging and discharging efficiency and cycle life of the battery. For example, in some new energy storage systems, sodium antimony hexafluoride can optimize the electrochemical environment inside the battery, making the electron conduction smoother, thereby improving the overall performance of the battery, and contribute a lot to the development of high-performance batteries required for portable electronic devices, electric vehicles, etc.
In the field of materials science, it also has its uses. It can be used as an adjuvant for the synthesis of special materials, participating in the preparation of specific crystal structures or functional materials. With its unique chemical properties, it can affect the growth process and final microstructure of materials, giving materials such as special electrical, optical or mechanical properties. For example, when synthesizing some functional materials for optoelectronic devices, sodium antimony hexafluoride can regulate the crystalline morphology and lattice structure of materials, optimize the response characteristics of materials to light and electricity, and has potential applications in the field of semiconductor materials and optoelectronic device manufacturing.
Furthermore, in basic experiments of chemical research, sodium antimony hexafluoride can be used as a catalyst or reactant for specific reactions. Due to its chemical activity and unique coordination ability, it can initiate or accelerate the process of certain chemical reactions, providing new reaction paths and possibilities for chemical branches such as organic synthesis and inorganic synthesis, and assisting chemists in exploring the synthesis and properties of new compounds.

What are the Physical Properties of Sodium Antimony Hexafluoride

Sodium antimony hexafluoride (Sodium Antimony Hexafluoride), this is a unique chemical substance with many unique physical properties.
Its morphology is often solid, and its appearance may be white powder or crystalline. It is delicate and regular, and it can be seen that its microstructure is orderly. Its stability is quite considerable. Under many conventional environments, it can maintain the integrity of its own chemical structure, and it is not easy to react with common substances around it. It is like a stable guardian who sticks to itself.
Furthermore, the solubility of sodium antimony hexafluoride is also an important characteristic of it. In specific solvents, such as some polar organic solvents, it can exhibit good solubility and can be uniformly dispersed in the solvent to form a uniform and stable system, as if integrated into it, achieving a delicate balance with the solvent.
Its conductivity is also unique. Under certain conditions, it can exhibit a certain degree of conductivity, and electrons can move to a limited extent between their lattice structures or ions. This property makes it possible to play an important role in specific electrical application scenarios, such as in the exploration of some new electrolyte materials.
In addition, the melting point and boiling point of sodium antimony hexafluoride are also key physical parameters. The melting point indicates the energy conditions required to transform from a solid to a liquid state, while the boiling point reveals the critical temperature at which it transitions from a liquid to a gas state. These parameters provide an important basis for the treatment and application of this substance in different temperature environments, which helps to accurately control and design related processes.

Is Sodium Antimony Hexafluoride Chemically Stable?

The chemical stability of sodium (Sodium) and antimony hexafluoride (Antimony Hexafluoride) is related to many chemical principles and conditions.
Sodium is active, and under common conditions, it is prone to losing electrons and shows strong reduction. It reacts rapidly in contact with water, releasing hydrogen and generating sodium hydroxide. And hexafluoroantimonate, in which antimony exists in the hexafluoride coordination environment with a high valence state, hexafluoroantimonate ions have certain stability. Due to the strong electronegativity of fluorine, the density distribution of electron clouds around the central antimony atom is special.
When sodium coexists with hexafluoroantimonate, if the environment is anhydrous and mild, the structure of hexafluoroantimonate may be maintained to a certain extent, because its coordination structure is relatively stable. However, if there are active reagents or changes in conditions, the strong reduction of sodium may lead to changes in the valence state of antimony in hexafluoroantimonate.
In an anhydrous organic solvent system, sodium may reduce part of the antimony in hexafluoroantimonate, resulting in a decrease in its valence state and a change in structure. If the system stores water, sodium reacts with water first, and the generated sodium hydroxide or interacts with hexafluoroantimonate, and reactions such as hydrolysis or precipitation may occur, which greatly affect its stability. Therefore, the chemical stability of sodium and hexafluoroantimonate cannot be generalized. It is necessary to study the environment, the proportion of reactants, and external conditions in detail. Many complex chemical processes are intertwined to affect their stability.

What is the production process of Sodium Antimony Hexafluoride?

To prepare sodium-antimony-hexafluoride, the process needs to be carefully carried out according to the ancient method.
First of all, all raw materials should be prepared, and pure sodium, antimony powder and hexafluoride should be refined, and each product needs to reach a very high purity. This is the foundation for ensuring the quality of the product.
In the special workshop, first create a quiet environment without water and oxygen in the workshop to prevent impurities from interfering and reacting. Use a refractory crucible as a device, put an appropriate amount of antimony powder in it, and slowly heat up. When the antimony powder melts into a liquid, it shines like flowing gold, and the temperature control must be accurate and not slightly deviated.
Then, while the antimony liquid is hot, the carefully cut pure sodium is put into it with a very slow trend. In an instant, there seems to be a flicker of fire, and the sodium and antimony are fused, and the reaction is violent. This process requires the craftsman to keep an eye on it, and use subtle methods to stabilize the reaction rate, so as not to let it get out of control.
When the sodium-antimony alloy takes shape, it is cooled down and cooled to make its texture stable. Then, it is moved to another airtight reactor, and hexafluoride is slowly injected. The hexafluoride agent is like a dream fog, slowly diffusing around the alloy. In the meantime, the temperature and pressure need to be carefully adjusted to make the alloy and hexafluoride fit perfectly and react delicately.
After the reaction is completed, the resulting product needs to be refined many times. The impurities are filtered out with a special filter screen, and then sublimated and recrystallized to gradually purify sodium-antimony-hexafluoride. In the end, the obtained product is crystal clear, like Tiancheng, and it is a qualified product, which can be used in various special domains.

What are the precautions for Sodium Antimony Hexafluoride in storage and transportation?

Sodium antimony hexafluoride is a chemical substance, and many matters must be paid attention to during storage and transportation.
First, because of its chemical activity, the storage place must be dry and cool. Cover a humid environment, or cause it to react with water, cause material deterioration, or create an unsafe condition. A cool environment can prevent its chemical properties from changing due to excessive temperature, or cause unstable states.
Second, the container must be well sealed. This is to prevent contact with components in the air, such as oxygen, carbon dioxide, etc. If it comes into contact, or triggers a chemical reaction, it will damage the purity of the material, and the seal can also prevent its volatilization, causing pollution to the surrounding environment, and preventing its harmful effects on the human body.
Furthermore, when transporting, it must be operated in accordance with relevant regulations and standards. The means of transportation used should be equipped with protective facilities to prevent damage to the container due to vibration and collision. And the transporter should be familiar with the characteristics of the substance and emergency treatment methods. In case of leakage, it can be properly disposed of in a timely manner.
In addition, there should be obvious warning signs at the place of storage and transportation. Make it known to everyone that it is a chemically active substance and treat it with caution to prevent inadvertent contact and harm to personal safety and the environment. At the same time, the equipment and tools in contact with it should also be regularly inspected and maintained to ensure that there are no latent risks such as leakage, so as to ensure the safety of storage and transportation.