What is the main use of 3-Cyano-4-fluorobenzotrifluoride~ alpha, alpha, alpha, 6-Tetrafluoro-m-tolunitrile

3-Cyano-4-fluoro-trifluorotoluene (3-Cyano-4-fluorobenzotrifluoride), also known as α, α, α, 6-tetrafluoro-m-toluonitrile （α,α,α, 6-Tetrafluoro-m-tolunitrile), is widely used.

In the field of pharmaceutical synthesis, it is often used as a key intermediate. The unique structure of cyano, fluorine atom and trifluoromethyl in the molecule endows it with various chemical reactivity and special physiological activity. From this, many compounds with specific pharmacological activities can be derived, such as some new antibacterial and antiviral drugs, which may be able to precisely combine with specific targets of pathogens, interfere with the metabolic process of pathogens or inhibit their reproduction, and open up a new path for pharmaceutical research and development.

also plays an important role in the creation of pesticides. Due to its structural characteristics, it can participate in the synthesis of pesticides with high efficiency, low toxicity and environmentally friendly characteristics. For example, some insecticides containing this structure have high selective toxicity to specific pests, can accurately act on the nervous system or physiological metabolism of pests, kill pests efficiently, and are less toxic to non-target organisms, which helps to maintain ecological balance.

In the field of materials science, it also shows potential application value. It can be used as a raw material for the synthesis of special functional materials. For example, the introduction of this structure in the synthesis of polymer materials may endow the material with properties such as excellent chemical stability and weather resistance. Due to the presence of cyanyl and fluorine atoms, the intermolecular force can be enhanced, the mechanical properties and chemical stability of the material can be improved, and the material is suitable for harsher environments.

In summary, 3-cyano-4-fluorotrifluorotoluene has become an indispensable and important compound in the fields of medicine, pesticides and materials science. With its unique structure and properties, it is of great significance to promote technological development and innovation in various fields.

What are the physical properties of 3-Cyano-4-fluorobenzotrifluoride~ alpha, alpha, alpha, 6-Tetrafluoro-m-tolunitrile

3-Cyano-4-fluorotrifluorotoluene （α,α,α, 6-tetrafluoro-m-toluonitrile) is an organic chemical. Its physical properties are of great interest and are closely related to many practical applications.

Looking at its properties, at room temperature and pressure, this substance usually appears as a colorless to pale yellow liquid. This form gives it good fluidity in specific reaction systems. In some homogeneous reactions, it can promote full contact of the reactants and improve the reaction efficiency.

The melting point is about -20 ° C. Such a low melting point means that in a relatively mild low temperature environment, it will transform from solid to liquid. This property is crucial in chemical processes or experimental operations that require control of the state of matter. It allows substances to achieve phase transitions at lower temperatures, facilitating the achievement of specific reaction conditions.

In terms of boiling point, it is about 170-172 ° C. This boiling point indicates that moderate heating is required before it can be vaporized. In chemical unit operations such as distillation and separation, this boiling point data is a key basis for accurately separating the substance from other mixtures. By precisely controlling the temperature and taking advantage of the difference in boiling point, efficient purification and separation of substances can be achieved.

As for the density, it is about 1.45 - 1.47 g/cm ³. This density characteristic determines its stratification when mixed with other liquids. If mixed with liquids with less density than it, it will be in the lower layer; conversely, it will be in the upper layer. In operations such as liquid-liquid extraction, it can be effectively separated according to this characteristic.

In terms of solubility, it is slightly soluble in water. This property is mainly due to the hydrophobicity of fluorine atoms and cyano groups contained in its molecular structure. However, it is soluble in common organic solvents such as dichloromethane, chloroform, toluene, etc. This solubility in organic solvents provides a broad space for its use in the field of organic synthesis. In many organic reactions, suitable organic solvents can be used to dissolve it to create a suitable reaction environment and promote the smooth progress of the reaction.

Is 3-Cyano-4-fluorobenzotrifluoride~ alpha, alpha, alpha, 6-Tetrafluoro-m-tolunitrile chemically stable?

3-Cyano-4-fluoro-trifluorotoluene (3-Cyano-4-fluorobenzotrifluoride), also known as α, α, α, 6-tetrafluoro-m-tolunitrile （α,α,α, 6-Tetrafluoro-m-tolunitrile), the chemical properties of this compound are relatively stable.

Looking at its structure, cyano (-CN) coexists with trifluoromethyl (-CF) and fluorine atoms (-F) on the benzene ring. Cyanyl groups have certain chemical activities and can participate in many reactions, such as hydrolysis, which can be converted into carboxyl groups (-COOH) under specific conditions; they can also participate in nucleophilic addition reactions and interact with reagents containing active hydrogen. Trifluoromethyl, due to its strong electron-absorbing properties, can significantly affect the electron cloud density of the benzene ring, making the electrophilic substitution reaction on the benzene ring more difficult, and improving the chemical stability of the whole molecule. Fluorine atoms, due to their high electronegativity, can enhance the stability of molecules when connected to the benzene ring, and affect the physical and chemical properties of molecules, such as boiling point, melting point, polarity, etc.

Under normal conditions, at room temperature and pressure, the compound has a certain solubility in common organic solvents such as dichloromethane, chloroform, toluene, etc. When stored, if it is in a dry, cool and well-ventilated place, away from fire sources and oxidants, its chemical properties can remain stable for a long time. However, once it encounters extreme conditions such as strong oxidants, strong acids or strong bases, its structure may be damaged, triggering chemical reactions and causing chemical properties to change. In summary, 3-cyano-4-fluorotrifluorotoluene is chemically stable under conventional conditions, but it can still exhibit corresponding reactivity under special conditions.

What is the production process of 3-Cyano-4-fluorobenzotrifluoride~ alpha, alpha, alpha, 6-Tetrafluoro-m-tolunitrile

The production process of 3-cyano-4-fluorotrifluorotoluene (also known as α, α, α, 6-tetrafluoro-m-toluonitrile), although the ancient book "Tiangong Kaiwu" does not directly describe this product, the reason is understandable. Now it is described in ancient French, I hope it will be helpful.

To make this product, the choice of raw materials is very important. Commonly used, when fluorine-containing, cyano-based compounds are used. If fluorine-containing aromatic hydrocarbons are used as the starting point, the target can be achieved through multi-step conversion.

At the beginning, an aromatic hydrocarbon substrate is placed in the kettle, supplemented by an appropriate catalyst, and fluorine gas or fluorine-containing reagents are introduced to carry out the fluorination reaction. This step requires temperature control and pressure control to observe the rate and progress of the reaction. Fluorine gas is strong, so when operating, you must be careful to prevent its leakage.

Then, the cyanide group is introduced. Cyanide reagents, such as potassium cyanide and sodium cyanide, are often used in specific solvents to react with the fluorinated material. This process also requires fine regulation of conditions to ensure the accuracy of the introduction of cyanide groups and prevent side reactions.

After the reaction is completed, the product may contain impurities and must be separated and purified. Distillation can be used to divide the impurities and products according to the different boiling points of each substance. Extraction can also be used to select the appropriate extractant to improve its purity.

The whole process, every step is about success or failure, from the quality of the raw materials, to the conditions of the reaction, to the fineness of the purification, cannot be ignored. Craftsmen must be dedicated and skilled to produce pure 3-cyano-4-fluorotrifluorotoluene to meet the needs of all parties.

What is the price range of 3-Cyano-4-fluorobenzotrifluoride~ alpha, alpha, alpha, 6-Tetrafluoro-m-tolunitrile in the market?

I have not heard the exact price range of "3 - Cyano - 4 - fluorobenzotrifluoride" that is, “α,α,α, 6 - Tetrafluoro - m - tolunitrile "in the market. The price of this product often varies depending on the change of time, different places, supply and demand conditions, high and low quality and the size of the transaction.

If you want to know the details, you should visit the market of chemical raw materials, relevant traders, or consult a professional chemical product price information platform. It may be able to provide you with a more accurate price range based on the current situation. In the past, the price of chemical industry fluctuated greatly from time to time, and the market was complex and changeable, so it was difficult to judge today's price based on the state of the past. If you want to conduct business or use this product for personal research, you can get the actual price as a comprehensive policy.