Linshang Chemical
PRODUCTS
(Trichloromethyl)Pentafluorobenzene
Linshang Chemical
|
HS Code |
278581 |
| Chemical Formula | C7Cl3F5 |
| Appearance | Colorless liquid |
| Boiling Point | 166 - 167 °C |
| Density | 1.68 g/cm³ |
| Vapor Pressure | Low, specific value may vary with temperature |
| Solubility | Insoluble in water, soluble in many organic solvents |
| Refractive Index | 1.444 |
As an accredited (Trichloromethyl)Pentafluorobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500 - gram bottle of (trichloromethyl)pentafluorobenzene, securely sealed. |
| Storage | (Trichloromethyl)pentafluorobenzene should be stored in a cool, dry, well - ventilated area away from heat sources and ignition sources. It should be kept in a tightly - sealed container to prevent vapor leakage. Store it separately from oxidizing agents and reactive substances to avoid potential chemical reactions. Adhere to local safety regulations for chemical storage. |
| Shipping | (Trichloromethyl)pentafluorobenzene is shipped in specialized, well - sealed containers. Strict adherence to hazardous chemical shipping regulations is ensured to prevent leakage and maintain safety during transit. |
Competitive (Trichloromethyl)Pentafluorobenzene prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615365006308 or mail to info@alchemist-chem.com.
We will respond to you as soon as possible.
Tel: +8615365006308
Email: info@alchemist-chem.com
Where to Buy (Trichloromethyl)Pentafluorobenzene in China?
As a trusted (Trichloromethyl)Pentafluorobenzene manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
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Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.
As a leading (Trichloromethyl)Pentafluorobenzene 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 use of (trichloromethyl) pentafluorobenzene?
(Trichloromethyl) pentafluorobenzene has a wide range of main uses. In the chemical industry, it is often used as an intermediary in organic synthesis. Due to its unique chemical structure, this substance can participate in many chemical reactions and assist chemists in the preparation of various special organic compounds.
In the field of materials science, or as a raw material for the synthesis of new polymer materials. With its fluorine-containing and chlorine-containing group characteristics, the prepared polymer materials may have excellent chemical stability, thermal stability and weather resistance, and are promising in high-end fields such as aerospace and electronics.
In pharmaceutical chemistry, it also has potential applications. Its structure can be modified and modified to meet the needs of specific drug targets, lay the foundation for the development of new drugs, or provide new opportunities for the treatment of certain diseases.
Furthermore, in the preparation of surfactants, (trichloromethyl) pentafluorobenzene may contribute unique properties, making surfactants have better wettability, dispersion, etc., playing a key role in coatings, inks and other industries. In short, it is of great value in many fields and promotes technological innovation and development in various industries.
In the field of materials science, or as a raw material for the synthesis of new polymer materials. With its fluorine-containing and chlorine-containing group characteristics, the prepared polymer materials may have excellent chemical stability, thermal stability and weather resistance, and are promising in high-end fields such as aerospace and electronics.
In pharmaceutical chemistry, it also has potential applications. Its structure can be modified and modified to meet the needs of specific drug targets, lay the foundation for the development of new drugs, or provide new opportunities for the treatment of certain diseases.
Furthermore, in the preparation of surfactants, (trichloromethyl) pentafluorobenzene may contribute unique properties, making surfactants have better wettability, dispersion, etc., playing a key role in coatings, inks and other industries. In short, it is of great value in many fields and promotes technological innovation and development in various industries.
What are the physical properties of (trichloromethyl) pentafluorobenzene
(Trichloromethyl) pentafluorobenzene is also an organic compound. Its physical properties are as follows.
First of all, its appearance, under normal conditions, is mostly colorless to light yellow liquid, clear and with a specific luster. It looks like a smart liquid flow, flickering slightly under light.
When it comes to boiling point, it is about 154-156 ° C. At this temperature, the substance gradually converts from liquid to gaseous state, and the molecules break free from each other and escape into space. Just like on a cold winter day, ice melts when it is warm, and then melts into water vapor. The characteristics of boiling point are particularly critical in the process of separation and purification.
In terms of melting point, it is about -35 ° C. When the ambient temperature drops to this temperature, the thermal movement of the material molecules slows down, and they are arranged in an orderly manner, condensing from liquid to solid, like an active dancer who stops at the command, in a regular array.
The density is about 1.74 g/cm ³, which is heavier than water. If it is placed in a container with water, it is like a stable stone, which sinks to the bottom of the water. This density characteristic has a great impact on the mixing and stratification processes of chemical operations.
In terms of solubility, (trichloromethyl) pentafluorobenzene is insoluble in water, but soluble in many organic solvents, such as ether and acetone. Just like the incompatibility of oil and water, it can be mutually soluble with similar organic solvents. This property is widely used in organic synthesis, extraction and other fields.
Its vapor pressure also has a specific value at a certain temperature, which is related to the difficulty of volatilization. The existence of vapor pressure makes it possible for some molecules of this substance to escape from the liquid surface and diffuse in the surrounding space under certain conditions, just like the aroma emitted from a sachet, leisurely diffusing.
Such physical properties lay the foundation for the application of many fields such as chemicals and materials, and provide a basis for the design and operation of related processes. It is an element that cannot be ignored.
First of all, its appearance, under normal conditions, is mostly colorless to light yellow liquid, clear and with a specific luster. It looks like a smart liquid flow, flickering slightly under light.
When it comes to boiling point, it is about 154-156 ° C. At this temperature, the substance gradually converts from liquid to gaseous state, and the molecules break free from each other and escape into space. Just like on a cold winter day, ice melts when it is warm, and then melts into water vapor. The characteristics of boiling point are particularly critical in the process of separation and purification.
In terms of melting point, it is about -35 ° C. When the ambient temperature drops to this temperature, the thermal movement of the material molecules slows down, and they are arranged in an orderly manner, condensing from liquid to solid, like an active dancer who stops at the command, in a regular array.
The density is about 1.74 g/cm ³, which is heavier than water. If it is placed in a container with water, it is like a stable stone, which sinks to the bottom of the water. This density characteristic has a great impact on the mixing and stratification processes of chemical operations.
In terms of solubility, (trichloromethyl) pentafluorobenzene is insoluble in water, but soluble in many organic solvents, such as ether and acetone. Just like the incompatibility of oil and water, it can be mutually soluble with similar organic solvents. This property is widely used in organic synthesis, extraction and other fields.
Its vapor pressure also has a specific value at a certain temperature, which is related to the difficulty of volatilization. The existence of vapor pressure makes it possible for some molecules of this substance to escape from the liquid surface and diffuse in the surrounding space under certain conditions, just like the aroma emitted from a sachet, leisurely diffusing.
Such physical properties lay the foundation for the application of many fields such as chemicals and materials, and provide a basis for the design and operation of related processes. It is an element that cannot be ignored.
What are the chemical properties of (trichloromethyl) pentafluorobenzene
The chemical properties of (trichloromethyl) pentafluorobenzene are quite specific. This substance contains the structure of trichloromethyl and pentafluorobenzene, so it presents unique properties.
Looking at its reactivity, because the pentafluorobenzene ring has strong electron absorption, the electron cloud density of the benzene ring is reduced, and the electrophilic substitution reaction is difficult to occur. In contrast, the nucleophilic substitution reaction is relatively easy to carry out. In trichloromethyl, the induction effect of the chlorine atom makes the electron cloud of the group biased towards chlorine, making the carbon atom partially positively charged and vulnerable to the attack of nucleophilic reagents.
In terms of stability, due to the high electronegativity of the fluorine atom and the large bond However, the C-Cl bond of the trichloromethyl part is relatively active and can react under specific conditions, such as hydrolysis and elimination.
Its physical properties are also considerable. Due to its high molecular polarity, it has a certain solubility in organic solvents. And because it contains fluorine atoms, it has a certain lipid solubility, and may have special applications in some fields.
In chemical reactions, (trichloromethyl) pentafluorobenzene can be used as an intermediate to participate in the construction of more complex organic molecular structures. Its unique chemical properties provide organic synthesis chemists with new strategies and approaches, which can help create novel compounds to meet the needs of materials science, medicinal chemistry and other fields.
Looking at its reactivity, because the pentafluorobenzene ring has strong electron absorption, the electron cloud density of the benzene ring is reduced, and the electrophilic substitution reaction is difficult to occur. In contrast, the nucleophilic substitution reaction is relatively easy to carry out. In trichloromethyl, the induction effect of the chlorine atom makes the electron cloud of the group biased towards chlorine, making the carbon atom partially positively charged and vulnerable to the attack of nucleophilic reagents.
In terms of stability, due to the high electronegativity of the fluorine atom and the large bond However, the C-Cl bond of the trichloromethyl part is relatively active and can react under specific conditions, such as hydrolysis and elimination.
Its physical properties are also considerable. Due to its high molecular polarity, it has a certain solubility in organic solvents. And because it contains fluorine atoms, it has a certain lipid solubility, and may have special applications in some fields.
In chemical reactions, (trichloromethyl) pentafluorobenzene can be used as an intermediate to participate in the construction of more complex organic molecular structures. Its unique chemical properties provide organic synthesis chemists with new strategies and approaches, which can help create novel compounds to meet the needs of materials science, medicinal chemistry and other fields.
What is the production method of (trichloromethyl) pentafluorobenzene
For (trichloromethyl) pentafluorobenzene, the preparation method is as follows.
Usually pentafluorobenzene is used as the starting material and is prepared through a specific reaction path. One method is to make pentafluorobenzene interact with trichloromethylation reagents. Appropriate catalysts can be used to chemically react the two under suitable reaction conditions. In this reaction condition, temperature, pressure and reaction time need to be finely regulated. Generally speaking, the temperature may be controlled in a certain range, such as between tens of degrees Celsius and more than 100 degrees Celsius, and the pressure is also maintained in an appropriate range, or it is normal pressure to several atmospheres.
The trichloromethylation reagents used in
are common ones such as trichloromethyl halides. Taking the halide as an example, under the action of the catalyst, the halogen atom reacts with a specific position on the benzene ring of pentafluorobenzene, thereby introducing trichloromethyl to obtain (trichloromethyl) pentafluorobenzene.
Or it can be obtained by combining other reaction steps. First, some groups of pentafluorobenzene are modified to activate the benzene ring to enhance its reactivity, and then react with the trichloromethyl source. In this way, the yield and purity of the product may be improved. And during the reaction process, it is necessary to pay attention to factors such as the pH of the reaction system, because these factors will also affect the process of the reaction and the formation of the product. The product obtained by the reaction needs to be separated and purified to obtain high-purity (trichloromethyl) pentafluorobenzene. The separation method can be selected by common means such as distillation and extraction, depending on the physical and chemical properties of the product and the impurity.
Usually pentafluorobenzene is used as the starting material and is prepared through a specific reaction path. One method is to make pentafluorobenzene interact with trichloromethylation reagents. Appropriate catalysts can be used to chemically react the two under suitable reaction conditions. In this reaction condition, temperature, pressure and reaction time need to be finely regulated. Generally speaking, the temperature may be controlled in a certain range, such as between tens of degrees Celsius and more than 100 degrees Celsius, and the pressure is also maintained in an appropriate range, or it is normal pressure to several atmospheres.
The trichloromethylation reagents used in
are common ones such as trichloromethyl halides. Taking the halide as an example, under the action of the catalyst, the halogen atom reacts with a specific position on the benzene ring of pentafluorobenzene, thereby introducing trichloromethyl to obtain (trichloromethyl) pentafluorobenzene.
Or it can be obtained by combining other reaction steps. First, some groups of pentafluorobenzene are modified to activate the benzene ring to enhance its reactivity, and then react with the trichloromethyl source. In this way, the yield and purity of the product may be improved. And during the reaction process, it is necessary to pay attention to factors such as the pH of the reaction system, because these factors will also affect the process of the reaction and the formation of the product. The product obtained by the reaction needs to be separated and purified to obtain high-purity (trichloromethyl) pentafluorobenzene. The separation method can be selected by common means such as distillation and extraction, depending on the physical and chemical properties of the product and the impurity.
What are the precautions for (trichloromethyl) pentafluorobenzene during use?
When using (trichloromethyl) pentafluorobenzene, be careful about several things. First, this substance is poisonous, and it can harm the body by touching it, smelling it, or eating it. Therefore, when operating, it is necessary to wear protective equipment, such as gloves, masks, goggles, etc., to protect the skin, eyes, and breath from being invaded. Second, (trichloromethyl) pentafluorobenzene has a low ignition point, and it is easy to ignite and explode in case of open flames and hot topics. In places where it is stored and used, it is necessary to ban fires and smoke smoking, and to prepare fire extinguishing devices. Third, its reactivity is high, and it can react violently with many substances. When using it, be sure to know its reactivity with other substances, and avoid mixing with contraindicated substances to prevent accidents. Fourth, if this substance leaks outside, it should be dealt with as soon as possible. Small leaks can be absorbed by sand, vermiculite, etc.; large leaks need to be contained and contained, and then treated harmlessly. In short, with (trichloromethyl) pentafluorobenzene, safety procedures must be followed to ensure personal and environmental safety.
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