Linshang Chemical
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Sym-Trichlorotrifluorobenzene
Linshang Chemical
|
HS Code |
563225 |
| Chemical Formula | C6Cl3F3 |
| Molecular Weight | 248.42 |
| Appearance | Colorless to light - yellow liquid |
| Odor | Characteristic odor |
| Boiling Point | 187 - 188 °C |
| Melting Point | 33 - 35 °C |
| Density | 1.626 g/cm³ (at 20 °C) |
| Solubility In Water | Insoluble |
| Vapor Pressure | Low vapor pressure |
| Flash Point | 88 °C |
As an accredited Sym-Trichlorotrifluorobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Sym - trichlorotrifluorobenzene: Packed in 50 - kg drums for secure storage and transport. |
| Storage | Sym - trichlorotrifluorobenzene should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in tightly closed containers made of materials compatible with the chemical, such as corrosion - resistant metal or specific plastics, to prevent leakage and maintain its chemical integrity. |
| Shipping | Sym - trichlorotrifluorobenzene is shipped in specialized, tightly - sealed containers compliant with chemical transportation regulations. These containers prevent leakage and ensure safe transit, safeguarding both handlers and the environment. |
Competitive Sym-Trichlorotrifluorobenzene 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 Sym-Trichlorotrifluorobenzene in China?
As a trusted Sym-Trichlorotrifluorobenzene 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.
As a leading Sym-Trichlorotrifluorobenzene 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 uses of Sym-trichlorotrifluorobenzene?
Sym-trichlorotrifluorobenzene is an important organic compound, which is widely used in many fields such as chemical industry and material science.
First, it is often used as a key intermediate in the field of fine chemical synthesis. Because of its unique molecular structure, it contains chlorine and fluorine atoms, and has high chemical stability and reactivity. Through various chemical reactions, such as nucleophilic substitution reactions, different functional groups can be introduced to synthesize many high value-added fine chemicals, such as medicines, pesticides, dyes, etc. For example, when creating new pesticides, its structural properties can be used to construct active ingredients with high insecticidal and bactericidal properties.
Second, in the field of materials science, due to the large electronegativity of fluorine and chlorine atoms, the polymer materials that Sym-trichlorotrifluorobenzene participates in the synthesis often have excellent properties. Properties such as high temperature resistance, chemical corrosion resistance, low dielectric constant, etc. It is often used in the preparation of high-performance engineering plastics, special coatings, etc. Taking special coatings as an example, after adding this compound, the coating's tolerance to harsh environments is greatly improved, and it can be widely used in aerospace, marine engineering and other fields that require strict material properties.
Third, it also plays an important role in the field of electronics industry. Because of its special electrical properties and chemical stability, it can be used to manufacture electronic component packaging materials, printed circuit board substrates, etc. Such materials can effectively protect electronic components, improve the stability and reliability of electronic products, and adapt to the needs of electronic products to miniaturization and high performance.
Sym - trichlorotrifluorobenzene plays an indispensable role in many key industrial fields with its unique structure and performance, and is of great significance to promoting technological progress and product upgrading in related industries.
First, it is often used as a key intermediate in the field of fine chemical synthesis. Because of its unique molecular structure, it contains chlorine and fluorine atoms, and has high chemical stability and reactivity. Through various chemical reactions, such as nucleophilic substitution reactions, different functional groups can be introduced to synthesize many high value-added fine chemicals, such as medicines, pesticides, dyes, etc. For example, when creating new pesticides, its structural properties can be used to construct active ingredients with high insecticidal and bactericidal properties.
Second, in the field of materials science, due to the large electronegativity of fluorine and chlorine atoms, the polymer materials that Sym-trichlorotrifluorobenzene participates in the synthesis often have excellent properties. Properties such as high temperature resistance, chemical corrosion resistance, low dielectric constant, etc. It is often used in the preparation of high-performance engineering plastics, special coatings, etc. Taking special coatings as an example, after adding this compound, the coating's tolerance to harsh environments is greatly improved, and it can be widely used in aerospace, marine engineering and other fields that require strict material properties.
Third, it also plays an important role in the field of electronics industry. Because of its special electrical properties and chemical stability, it can be used to manufacture electronic component packaging materials, printed circuit board substrates, etc. Such materials can effectively protect electronic components, improve the stability and reliability of electronic products, and adapt to the needs of electronic products to miniaturization and high performance.
Sym - trichlorotrifluorobenzene plays an indispensable role in many key industrial fields with its unique structure and performance, and is of great significance to promoting technological progress and product upgrading in related industries.
What are the physical properties of Sym-trichlorotrifluorobenzene?
Sym - trichlorotrifluorobenzene is one of the organic compounds. It has many physical properties and is described by you today.
First of all, its appearance, under room temperature and pressure, sym - trichlorotrifluorobenzene is often colorless to light yellow liquid, clear and transparent, without obvious turbidity or precipitation. Looking at it, its appearance is flat, but there is a universe inside.
When it comes to smell, this thing emits a special aromatic smell. Although it is not pungent, it cannot be smelled for a long time. This smell is unique and can be used to identify it.
As for the melting point and boiling point, the melting point is about -18 ° C, and the boiling point is between 187-188 ° C. The melting point is low, so it is liquid at room temperature; the boiling point is relatively high, making it stable in general environments and not easy to evaporate rapidly into gases.
In terms of density, its density is about 1.62 g/cm ³, which is heavier than water. If it is mixed with water, it will sink to the bottom of the water, and the two are distinct.
Solubility is also an important property. Sym-trichlorotrifluorobenzene is difficult to dissolve in water, but can be miscible with many organic solvents, such as ethanol, ether, acetone, etc. This property makes it widely used in organic synthesis and other fields.
The vapor pressure is very low, indicating that its volatilization rate is slow at room temperature. This property can reduce the loss and danger caused by volatilization during storage and use.
The refractive index is about 1.465, which reflects the degree of refraction of light passing through the substance and characterizes its physical properties.
All the above physical properties are inherent to sym-trichlorotrifluorobenzene, and have important reference value in many fields such as chemical industry and scientific research. It can be used by relevant practitioners to illustrate its performance and make good use of it.
First of all, its appearance, under room temperature and pressure, sym - trichlorotrifluorobenzene is often colorless to light yellow liquid, clear and transparent, without obvious turbidity or precipitation. Looking at it, its appearance is flat, but there is a universe inside.
When it comes to smell, this thing emits a special aromatic smell. Although it is not pungent, it cannot be smelled for a long time. This smell is unique and can be used to identify it.
As for the melting point and boiling point, the melting point is about -18 ° C, and the boiling point is between 187-188 ° C. The melting point is low, so it is liquid at room temperature; the boiling point is relatively high, making it stable in general environments and not easy to evaporate rapidly into gases.
In terms of density, its density is about 1.62 g/cm ³, which is heavier than water. If it is mixed with water, it will sink to the bottom of the water, and the two are distinct.
Solubility is also an important property. Sym-trichlorotrifluorobenzene is difficult to dissolve in water, but can be miscible with many organic solvents, such as ethanol, ether, acetone, etc. This property makes it widely used in organic synthesis and other fields.
The vapor pressure is very low, indicating that its volatilization rate is slow at room temperature. This property can reduce the loss and danger caused by volatilization during storage and use.
The refractive index is about 1.465, which reflects the degree of refraction of light passing through the substance and characterizes its physical properties.
All the above physical properties are inherent to sym-trichlorotrifluorobenzene, and have important reference value in many fields such as chemical industry and scientific research. It can be used by relevant practitioners to illustrate its performance and make good use of it.
What is the chemistry of Sym-trichlorotrifluorobenzene?
Sym-trichlorotrifluorobenzene is an organic compound with unique chemical properties. This substance has considerable chemical stability due to the structure of the benzene ring. The benzene ring is a conjugated system, and the electron cloud is delocalized, which stabilizes the molecular structure.
Its chlorine and fluorine atoms are substituted on the benzene ring. The chlorine atom has a certain electronegativity, and the fluorine atom is particularly electronegative. The existence of these halogen atoms causes the polarity of the molecule to change, which affects its physical and chemical properties.
In chemical reactions, sym-trichlorotrifluorobenzene can participate in nucleophilic substitution reactions. Although the electron cloud density of the benzene ring decreases due to the electron-absorbing effect of halogen atoms, under appropriate conditions, nucleophilic reagents can still attack the benzene ring and replace the For example, under conditions such as strong nucleophilic reagents and suitable solvents and temperatures, halogen atoms can be replaced by nucleophilic groups.
And because of its fluorine-containing atoms, fluorine atoms have a small radius and large electronegativity, which can enhance molecular stability and chemical inertness. This characteristic makes sym-trichlorotrifluorobenzene exhibit different behaviors from other similar benzene-based compounds in some special reactions or application scenarios. It can be used to prepare special functional materials, such as in the field of materials science, which participates in the construction of polymer materials with specific properties due to its unique chemical properties. In organic synthesis, as a key intermediate, it provides a basic structural unit for the synthesis of more complex organic compounds. Through various reactions, other functional groups are gradually introduced to achieve the synthesis of the target product.
Its chlorine and fluorine atoms are substituted on the benzene ring. The chlorine atom has a certain electronegativity, and the fluorine atom is particularly electronegative. The existence of these halogen atoms causes the polarity of the molecule to change, which affects its physical and chemical properties.
In chemical reactions, sym-trichlorotrifluorobenzene can participate in nucleophilic substitution reactions. Although the electron cloud density of the benzene ring decreases due to the electron-absorbing effect of halogen atoms, under appropriate conditions, nucleophilic reagents can still attack the benzene ring and replace the For example, under conditions such as strong nucleophilic reagents and suitable solvents and temperatures, halogen atoms can be replaced by nucleophilic groups.
And because of its fluorine-containing atoms, fluorine atoms have a small radius and large electronegativity, which can enhance molecular stability and chemical inertness. This characteristic makes sym-trichlorotrifluorobenzene exhibit different behaviors from other similar benzene-based compounds in some special reactions or application scenarios. It can be used to prepare special functional materials, such as in the field of materials science, which participates in the construction of polymer materials with specific properties due to its unique chemical properties. In organic synthesis, as a key intermediate, it provides a basic structural unit for the synthesis of more complex organic compounds. Through various reactions, other functional groups are gradually introduced to achieve the synthesis of the target product.
What is Sym-trichlorotrifluorobenzene production method?
The preparation method of Fusym-trichlorotrifluorobenzene, in the past, often used benzene as the starting material. First, benzene and chlorine are chlorinated under the action of a suitable catalyst, such as iron trichloride, to obtain chlorobenzene. This reaction requires attention to conditions such as temperature and the proportion of reactants. If the temperature is too high, it is easy to generate polychlorinated benzene.
After obtaining chlorobenzene, it is then reacted with anhydrous hydrofluoric acid and fluorinated catalysts, such as antimony pentachloride, at a specific pressure and temperature. This step aims to partially replace chlorine atoms with fluorine atoms to generate chlorine-containing and fluorine-containing benzene derivatives. This process requires high requirements for reaction equipment and needs to be able to withstand the corrosion of hydrofluoric acid.
Another way is to use trichlorobenzene as the starting material, so that it can be fluorinated with anhydrous hydrogen fluoride under specific conditions, with potassium fluoride as a co-catalyst. The key to this reaction is to control the degree of fluorination reaction to prevent excessive fluorination. The reaction temperature, pressure and the proportion of reactants need to be precisely regulated. For example, if the temperature is too high, although the reaction rate can be accelerated, it may also cause the selectivity of the product to decrease and unnecessary by-products to be formed.
In addition, sym-trichlorotrifluorobenzene is also obtained by multi-step reaction with other aromatic compounds as the starting materials. These methods are often complicated and require multiple steps of separation and purification, but they can be selected according to different raw material availability and reaction conditions. During the preparation process, the separation and purification of the product is also crucial, and distillation, extraction, recrystallization and other methods are often used to obtain high-purity sym-trichlorotrifluorobenzene.
After obtaining chlorobenzene, it is then reacted with anhydrous hydrofluoric acid and fluorinated catalysts, such as antimony pentachloride, at a specific pressure and temperature. This step aims to partially replace chlorine atoms with fluorine atoms to generate chlorine-containing and fluorine-containing benzene derivatives. This process requires high requirements for reaction equipment and needs to be able to withstand the corrosion of hydrofluoric acid.
Another way is to use trichlorobenzene as the starting material, so that it can be fluorinated with anhydrous hydrogen fluoride under specific conditions, with potassium fluoride as a co-catalyst. The key to this reaction is to control the degree of fluorination reaction to prevent excessive fluorination. The reaction temperature, pressure and the proportion of reactants need to be precisely regulated. For example, if the temperature is too high, although the reaction rate can be accelerated, it may also cause the selectivity of the product to decrease and unnecessary by-products to be formed.
In addition, sym-trichlorotrifluorobenzene is also obtained by multi-step reaction with other aromatic compounds as the starting materials. These methods are often complicated and require multiple steps of separation and purification, but they can be selected according to different raw material availability and reaction conditions. During the preparation process, the separation and purification of the product is also crucial, and distillation, extraction, recrystallization and other methods are often used to obtain high-purity sym-trichlorotrifluorobenzene.
Sym-trichlorotrifluorobenzene what are the precautions during use
Sym - trichlorotrifluorobenzene is an organic compound, and many matters need to be paid attention to during use.
First, it is related to safety protection. This substance is toxic and irritating, and contact can cause damage to the skin, eyes and respiratory tract. Therefore, users must wear suitable protective equipment, such as gloves, goggles and gas masks, to prevent direct contact and inhalation. The operation should be carried out in a well-ventilated place, preferably in a fume hood, to ensure that harmful gases are discharged in time, reduce the concentration in the air, and avoid harm to the human body.
Second, pay attention to storage conditions. Store it in a cool, dry and ventilated place, away from fire and heat sources. Because it is a flammable substance, it is easy to cause combustion and explosion in case of open fire and hot topic. At the same time, it should be stored separately from oxidizing agents, acids, alkalis, etc., to prevent mutual reaction and danger. The storage container must be well sealed to prevent leakage.
Third, pay attention to the operation specifications. When using, the dosage should be precisely controlled to avoid waste and environmental pollution. The use process should be careful to prevent spillage. If it is accidentally spilled, emergency treatment measures should be taken immediately. When a small amount of spillage, it can be absorbed by inert materials such as sand and vermiculite; if a large amount of spillage needs to be built embankment or dug for containment, and transferred to a special collection container with an explosion-proof pump, and then properly disposed of.
Fourth, pay attention to environmental protection issues. This substance and its waste cannot be discarded at will, and it needs to be disposed of in accordance with relevant environmental protection regulations. It is difficult to degrade in the environment and may cause long-term pollution to soil and water sources. When dealing with waste, appropriate methods such as incineration should be used, but the incineration process should be equipped with high-efficiency purification devices to remove harmful gases and reduce air pollution. In short, when using sym-trichlorotrifluorobenzene, safety, storage, operation and environmental protection should not be ignored, so as to ensure the safety and environmental protection of the use process.
First, it is related to safety protection. This substance is toxic and irritating, and contact can cause damage to the skin, eyes and respiratory tract. Therefore, users must wear suitable protective equipment, such as gloves, goggles and gas masks, to prevent direct contact and inhalation. The operation should be carried out in a well-ventilated place, preferably in a fume hood, to ensure that harmful gases are discharged in time, reduce the concentration in the air, and avoid harm to the human body.
Second, pay attention to storage conditions. Store it in a cool, dry and ventilated place, away from fire and heat sources. Because it is a flammable substance, it is easy to cause combustion and explosion in case of open fire and hot topic. At the same time, it should be stored separately from oxidizing agents, acids, alkalis, etc., to prevent mutual reaction and danger. The storage container must be well sealed to prevent leakage.
Third, pay attention to the operation specifications. When using, the dosage should be precisely controlled to avoid waste and environmental pollution. The use process should be careful to prevent spillage. If it is accidentally spilled, emergency treatment measures should be taken immediately. When a small amount of spillage, it can be absorbed by inert materials such as sand and vermiculite; if a large amount of spillage needs to be built embankment or dug for containment, and transferred to a special collection container with an explosion-proof pump, and then properly disposed of.
Fourth, pay attention to environmental protection issues. This substance and its waste cannot be discarded at will, and it needs to be disposed of in accordance with relevant environmental protection regulations. It is difficult to degrade in the environment and may cause long-term pollution to soil and water sources. When dealing with waste, appropriate methods such as incineration should be used, but the incineration process should be equipped with high-efficiency purification devices to remove harmful gases and reduce air pollution. In short, when using sym-trichlorotrifluorobenzene, safety, storage, operation and environmental protection should not be ignored, so as to ensure the safety and environmental protection of the use process.
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