What is the main use of tridecafluorooctyl-phosphonic acid sodium salt (1:1)?

Trifluorooctylphosphonic acid (1:1), the application is good, and it is useful in all kinds of domains.

First on the surface of the material, this compound cannot be used. With its coating on the surface of the material, it can form a special molecule and change the surface properties. Because of its fluorine-containing base, it has low surface energy, which can make the surface of the material hydrophobic and oleophobic. If applied to the material, it can make the material reject water and oil. When rain falls, it will not be soaked, and oil stains will adhere to it, which is easy to brush away, which greatly improves the durability and ease of use of the material. When applied to the construction material, it can be protected from rain and extended use.

Furthermore, it also has extraordinary performance in the sub-domain. In semi-manufacturing, it can be used on the surface of the crystal. Improve the adhesion performance of crystal lithography, make the lithography shape shift more refined, and improve the yield of integrated manufacturing. And because of its specialization, it can prevent the oxidation of the surface of gold, and cover the gold parts of the sub-components, which can ensure the stability of its performance, and reduce the damage caused by oxidation.

In addition, it can also be used in the field of chemical analysis. It can be used for the separation of molecules or extraction. Using its specialization, the specific molecules or compounds have the ability to combine. The extraction and enrichment of certain heavy gold molecules in water, or the extraction of the molecules of the mixture, can be used for the purpose of analyzing their characteristic components.

What are the physical properties of tridecafluorooctyl-phosphonic acid sodium salt (1:1)

In the case of trifluorooctane phosphonic acid (1:1), its physical properties are not worth exploring. This material is usually white to light-colored powder, which is uniform and uniform. Its solubility is not special, and it is soluble in water. This property makes it convenient to use in water-based systems, capable of uniform dispersion, and water-phase fusion. It provides a good environment for multi-reaction and engineering processes.

For melting, the melting of this compound is also an important physical factor. Its melting depends on factors such as molecular force and crystallization. For high melting, molecular force is often applied, and crystallization is solid. If the fusion of trifluorooctane phosphonic acid is specific, it can be influenced by the characteristics of its molecular interaction. In the fields of material synthesis, processing, etc., the knowledge of fusion can help control the workpiece.

Furthermore, its density cannot be ignored. The density reflects the amount of a substance at the location, and the density of the compound or the amount of its molecules and the density of the molecular arrangement are different. The determination of density is very important for storage, storage, and use. It can be used to rationally arrange containers, estimate dosage, etc.

In addition, the surface activity of this substance also affects its physical properties. Due to its fluoride content, surface activity or surface resistance, it can reduce surface stress and exhibit special adsorption and arrangement at the interface. It is used for emulsification, dispersion, and other processes, such as materials, inks, and washing.

tridecafluorooctyl-phosphonic acid sodium salt (1:1)

This is the product name "trifluorooctyl phosphonic acid (1:1) ", and its chemical properties are special. This substance is obtained from trifluorooctyl phosphonate in a specific ratio.

In terms of its physical properties, it is often solid, mostly white or almost white powder, and it is difficult to find the ground. It is fixed in normal conditions, and then encounters high end components, such as high temperature, oxidation, or biochemical.


and solubility, it has a certain solubility in water, and some of it can be formed into particles, and can be dispersed in water. However, due to the hydrophobicity of fluoroalkyl groups, the solubility is also limited. In the aqueous solution, if it is soluble, it also has a certain solubility, while in the non-soluble solution, the solubility is not good.

In terms of chemical activity, the phosphonic acid radical can be used in the field of catalysis and material synthesis. The hydrophobicity of trifluorooctyl makes the polymer have the properties of water and oil repellent, and can be used in surface treatment to form lyophobic on the surface of the material.

In addition, due to its polyfluorine atom, carbon-fluoride concentration, high chemical quality, chemical resistance and corrosion resistance, it can also maintain its own stability in harsh environments.

tridecafluorooctyl-phosphonic acid sodium salt (1:1) What are the precautions during use

Use trifluorooctyl phosphonic acid (1:1), and pay attention to all kinds of things in order to ensure safe and effective use of this product.

The first safety precaution. This compound may be irritating, and it may not cause damage or damage if it is exposed to the skin and eyes. During operation, it is necessary to prevent damage, such as gloves and eyes, and avoid direct contact. If it is accidentally connected, wash it with a lot of water immediately. If it is heavy, ask for treatment quickly.

Furthermore, pay attention to its chemical properties. Trifluorooctyl phosphonic acid is used under specific conditions, or it can be reacted to. When used, observe the reactive characteristics and components of the phase, and avoid the mixing and mixing of incompatible substances, so as not to cause dangerous reactions, such as burning and explosion.

The impact of the environment should not be ignored. If this thing flows into the environment, or causes adverse effects. Proper handling of the material during use, follow the relevant protection laws, and do not discharge arbitrarily, so as to reduce the harm to the environment.

The method of use also needs to be carefully controlled. Depending on the use and needs, follow the operation process and construction dosage, and must not be changed without authorization. Improper use, not only the effect of the period, but also more likely to derive more damage.

In addition, the storage of the material also needs to be repaired. < Br >

In addition, the storage of the material also needs to be repaired. < Br > In the dry, dry, good ventilation, fire source, oxidation, etc. If it is not suitable for storage, or the material is damaged, its performance and safety will be affected.

Therefore, the use of trifluorooctane phosphonic acid (1:1) requires thorough consideration in all aspects of safety, chemical characteristics, environmental conditions, usage methods, and storage, and must not be ignored.

What is the market price of tridecafluorooctyl-phosphonic acid sodium salt (1:1)?

The author of "Tiangong Kaiwu", written by Yingxing in the Ming and Song Dynasties, describes in detail all kinds of crafts and products. However, tridecafluorooctyl - phosphonic acid sodium salt (1:1) was not available at that time, so it is difficult to say the inter-market price according to its example.

At present, this tridecafluorooctyl - phosphonic acid sodium salt (1:1) is a chemical product, and its market price varies widely. First, the purity has a great impact. High purity is expensive. If the purity reaches a very high level, it can be used for special scientific research or high-end industrial processes. The price can be tens or even hundreds of yuan per gram. Second, supply and demand influence the price. If the market demand is strong and the supply is limited, if the demand for this product in emerging industries surges, the price will also rise; on the contrary, if the supply exceeds the demand, the price will drop. Third, the difference in manufacturers also leads to different prices. Well-known large factories, due to exquisite craftsmanship and stable quality, their product prices may be higher than small factories.

Generally speaking, in ordinary commercial transactions, small batch purchases, the price per gram may be between a few yuan and a few dozen yuan; if it is a large-scale industrial purchase, after negotiation, the price per gram may be up to one yuan or even lower, but this is only an approximate number. The actual price depends on the specific transaction situation and market fluctuations.