Linshang Chemical
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2,4-Bis(Trifluoromethyl)Chlorobenzene
Linshang Chemical
|
HS Code |
687530 |
| Chemical Formula | C8H3ClF6 |
| Molecular Weight | 260.55 |
| Appearance | Colorless to light yellow liquid |
| Boiling Point | 165 - 167 °C |
| Density | 1.55 g/cm³ |
| Solubility | Insoluble in water, soluble in organic solvents |
| Flash Point | 57 °C |
| Refractive Index | 1.388 |
As an accredited 2,4-Bis(Trifluoromethyl)Chlorobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500 - gram bottle of 2,4 - bis(trifluoromethyl)chlorobenzene, well - sealed for storage. |
| Storage | 2,4 - bis(trifluoromethyl)chlorobenzene should be stored in a cool, well - ventilated area away from heat and ignition sources. Keep it in a tightly closed container made of compatible materials, like steel or certain plastics. Store it separately from oxidizing agents, reducing agents, and other reactive chemicals to prevent potential chemical reactions. |
| Shipping | 2,4 - bis(trifluoromethyl)chlorobenzene is shipped in tightly sealed, corrosion - resistant containers. Compliance with hazardous chemical shipping regulations is crucial, ensuring proper labeling and secure packaging to prevent spills during transit. |
Competitive 2,4-Bis(Trifluoromethyl)Chlorobenzene 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 2,4-Bis(Trifluoromethyl)Chlorobenzene in China?
As a trusted 2,4-Bis(Trifluoromethyl)Chlorobenzene 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 2,4-Bis(Trifluoromethyl)Chlorobenzene 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 2,4-bis (trifluoromethyl) chlorobenzene?
2% 2C4 -Bis (triethoxysilyl) silane, its main uses are as follows:
This substance has important applications in many fields. In the field of materials science, it is often used as a coupling agent. For example, in the preparation of composite materials, it can build a bridge between inorganic fillers and organic polymer matrices. Because it can chemically react with hydroxyl groups on the surface of inorganic materials at one end, and crosslink or chemically react with organic polymers at the other end, it can significantly improve the bonding force between the two, greatly improving the properties of composites, such as enhancing the mechanical properties of materials and improving water resistance.
In the coatings industry, 2% 2C4-bis (triethoxysilane) silane can optimize the adhesion between coatings and substrates. It can interact with the surface of the substrate to form a firm connection, and at the same time participate in the coating film formation process, enhancing the compactness and durability of the coating, making the coating more wear-resistant, chemical-resistant, and prolonging the service life of the coating.
It also plays a key role in electronic packaging materials. It can enhance the adhesion between the packaging material and the surface of electronic components, ensuring the reliable operation of electronic components in complex environments. And it can improve the moisture resistance, insulation and other properties of the packaging material to ensure the stability and reliability of electronic equipment.
In addition, in the modification of ceramics, glass and other materials, 2% 2C4-bis (triethoxysilyl) silane can also come in handy. By reacting with the surface of these materials, new properties can be given to the materials, such as improving the surface wettability of ceramics and improving the scratch resistance of glass. In short, with its unique chemical structure and reactivity, this substance has an indispensable position in many industrial and scientific research fields.
This substance has important applications in many fields. In the field of materials science, it is often used as a coupling agent. For example, in the preparation of composite materials, it can build a bridge between inorganic fillers and organic polymer matrices. Because it can chemically react with hydroxyl groups on the surface of inorganic materials at one end, and crosslink or chemically react with organic polymers at the other end, it can significantly improve the bonding force between the two, greatly improving the properties of composites, such as enhancing the mechanical properties of materials and improving water resistance.
In the coatings industry, 2% 2C4-bis (triethoxysilane) silane can optimize the adhesion between coatings and substrates. It can interact with the surface of the substrate to form a firm connection, and at the same time participate in the coating film formation process, enhancing the compactness and durability of the coating, making the coating more wear-resistant, chemical-resistant, and prolonging the service life of the coating.
It also plays a key role in electronic packaging materials. It can enhance the adhesion between the packaging material and the surface of electronic components, ensuring the reliable operation of electronic components in complex environments. And it can improve the moisture resistance, insulation and other properties of the packaging material to ensure the stability and reliability of electronic equipment.
In addition, in the modification of ceramics, glass and other materials, 2% 2C4-bis (triethoxysilyl) silane can also come in handy. By reacting with the surface of these materials, new properties can be given to the materials, such as improving the surface wettability of ceramics and improving the scratch resistance of glass. In short, with its unique chemical structure and reactivity, this substance has an indispensable position in many industrial and scientific research fields.
What are the physical properties of 2,4-bis (trifluoromethyl) chlorobenzene?
2% 2C4-bis (triethylamino) silicone oil is a kind of organosilicon compound. Its physical properties are quite unique and have applications in many fields.
Looking at its properties, it is usually a colorless to light yellow transparent liquid with uniform texture and good fluidity. The density of this substance is slightly smaller than that of water, about 0.95-1.05g/cm ³, and it can be well dispersed in liquid systems. Its boiling point is quite high, usually above 200 ° C, which makes it stable at higher temperatures, and it is not easy to evaporate and dissipate. It is quite advantageous in some processes that require high temperature treatment.
In terms of solubility, 2% 2C4-bis (triethylamino) silicone oil is soluble in most organic solvents, such as toluene, xylene, acetone, etc. However, it is insoluble in water. This property makes it able to play a special role at the oil-water interface and can be used as an excellent surfactant or emulsifier.
When it comes to viscosity, depending on its degree of polymerization and formulation, the viscosity range is wide, generally between 50-500mPa · s. Moderate viscosity gives it good wettability and spreadability. When the material is surface treated, it can be evenly covered to form a thin and dense protective film, enhancing the waterproof, anti-fouling and anti-corrosion properties of the material.
In addition, the substance has excellent chemical stability, is not easy to chemically react with common acid and alkali substances, and can maintain its own structure and properties under different pH environments. Its dielectric properties are also quite excellent, and it can be used as an insulating material in the field of electronics and electrical appliances, effectively improving the insulation performance and stability of products.
In summary, 2% 2C4 -bis (triethylamino) silicone oil is widely used in coatings, textiles, leather, electronics and other industries due to its unique physical properties, contributing greatly to the performance improvement of many materials and products.
Looking at its properties, it is usually a colorless to light yellow transparent liquid with uniform texture and good fluidity. The density of this substance is slightly smaller than that of water, about 0.95-1.05g/cm ³, and it can be well dispersed in liquid systems. Its boiling point is quite high, usually above 200 ° C, which makes it stable at higher temperatures, and it is not easy to evaporate and dissipate. It is quite advantageous in some processes that require high temperature treatment.
In terms of solubility, 2% 2C4-bis (triethylamino) silicone oil is soluble in most organic solvents, such as toluene, xylene, acetone, etc. However, it is insoluble in water. This property makes it able to play a special role at the oil-water interface and can be used as an excellent surfactant or emulsifier.
When it comes to viscosity, depending on its degree of polymerization and formulation, the viscosity range is wide, generally between 50-500mPa · s. Moderate viscosity gives it good wettability and spreadability. When the material is surface treated, it can be evenly covered to form a thin and dense protective film, enhancing the waterproof, anti-fouling and anti-corrosion properties of the material.
In addition, the substance has excellent chemical stability, is not easy to chemically react with common acid and alkali substances, and can maintain its own structure and properties under different pH environments. Its dielectric properties are also quite excellent, and it can be used as an insulating material in the field of electronics and electrical appliances, effectively improving the insulation performance and stability of products.
In summary, 2% 2C4 -bis (triethylamino) silicone oil is widely used in coatings, textiles, leather, electronics and other industries due to its unique physical properties, contributing greatly to the performance improvement of many materials and products.
What are the chemical properties of 2,4-bis (trifluoromethyl) chlorobenzene?
2% 2C4-Bis (triethylamino) naphthalene is an organic compound with unique chemical properties. This substance has certain stability and can maintain its own structural stability under normal conditions. In organic solvents, such as common ethanol and acetone, it has good solubility and can be uniformly dispersed, which makes it widely used in solution reactions.
From the perspective of reactivity, the amino group in this compound has a lone pair of electrons and is basic, which can neutralize with acids to generate corresponding salts. At the same time, the amino group has strong electron-giving ability, which can increase the density of the ring naphthalene electron cloud, causing the naphthalene ring to be more prone to electrophilic substitution reactions, such as halogenation and nitrification. For example, when encountering brominated reagents, bromine atoms are easily introduced at the active check point of the naphthalene ring.
Furthermore, its spatial structure also has a great influence on chemical properties. Two triethylamino groups are located at specific positions of the naphthalene ring, or act on intermolecular forces, which affect the physical properties such as the melting point and boiling point of compounds, and affect their interactions with other molecules. It is of great significance in the field of supramolecular chemistry such as identification and assembly.
In addition, 2% 2C4-bis (triethylamino) naphthalene exhibits certain photophysical and thermal stability under light and thermal environments. When properly illuminated, processes such as photoinduced electron transfer may occur, which has potential application value in the research of photoelectric device materials. When heated, within a certain temperature range, the structure and properties can be maintained stable, but if the temperature is too high, reactions such as decomposition may occur.
From the perspective of reactivity, the amino group in this compound has a lone pair of electrons and is basic, which can neutralize with acids to generate corresponding salts. At the same time, the amino group has strong electron-giving ability, which can increase the density of the ring naphthalene electron cloud, causing the naphthalene ring to be more prone to electrophilic substitution reactions, such as halogenation and nitrification. For example, when encountering brominated reagents, bromine atoms are easily introduced at the active check point of the naphthalene ring.
Furthermore, its spatial structure also has a great influence on chemical properties. Two triethylamino groups are located at specific positions of the naphthalene ring, or act on intermolecular forces, which affect the physical properties such as the melting point and boiling point of compounds, and affect their interactions with other molecules. It is of great significance in the field of supramolecular chemistry such as identification and assembly.
In addition, 2% 2C4-bis (triethylamino) naphthalene exhibits certain photophysical and thermal stability under light and thermal environments. When properly illuminated, processes such as photoinduced electron transfer may occur, which has potential application value in the research of photoelectric device materials. When heated, within a certain temperature range, the structure and properties can be maintained stable, but if the temperature is too high, reactions such as decomposition may occur.
What is the production method of 2,4-bis (trifluoromethyl) chlorobenzene?
The preparation of 2% 2C4-bis (triethylamino) naphthalene is a delicate chemical process. The method is as follows:
Prepare the naphthalene and its related derivatives as the initial materials, which is the foundation. Naphthalene, an aromatic hydrocarbon, has a unique chemical structure and activity.
Mix the naphthalene with an appropriate halogenated reagent, in a specific reaction vessel, and control it at an appropriate temperature and pressure. The halogenation reaction needs to be done with caution. If the cap temperature is too high, side reactions will occur, and if it is too low, the reaction will be delayed. After the halogenation reaction is properly completed, the halogenated naphthalene product can be obtained.
Then, triethylamine is taken as the key reagent and placed in the reaction system with the halogenated naphthalene product. Triethylamine has unique alkaline and nucleophilic properties and plays a key role in this reaction. During the reaction process, attention should be paid to the choice of reaction solvent, and the appropriate solvent can promote the smooth progress of the reaction. In this step, through nucleophilic substitution, the ethylamino group of triethylamine will gradually replace the halogen atom on the halogenated naphthalene.
After the reaction is completed, the product can be treated with exquisite separation and purification techniques. Extraction can be used first, according to the solubility of the product and impurities in different solvents. Then distillation is used to further purify the product by taking advantage of the different boiling points of each component. Supplemented by recrystallization, high purity 2% 2C4 -bis (triethylamino) naphthalene is obtained.
All reaction conditions, such as temperature, pressure, reactant ratio and reaction time, need to be precisely controlled. If there is a slight difference, the purity and yield of the product will be affected. In this way, a refined 2% 2C4-bis (triethylamino) naphthalene product can be obtained.
Prepare the naphthalene and its related derivatives as the initial materials, which is the foundation. Naphthalene, an aromatic hydrocarbon, has a unique chemical structure and activity.
Mix the naphthalene with an appropriate halogenated reagent, in a specific reaction vessel, and control it at an appropriate temperature and pressure. The halogenation reaction needs to be done with caution. If the cap temperature is too high, side reactions will occur, and if it is too low, the reaction will be delayed. After the halogenation reaction is properly completed, the halogenated naphthalene product can be obtained.
Then, triethylamine is taken as the key reagent and placed in the reaction system with the halogenated naphthalene product. Triethylamine has unique alkaline and nucleophilic properties and plays a key role in this reaction. During the reaction process, attention should be paid to the choice of reaction solvent, and the appropriate solvent can promote the smooth progress of the reaction. In this step, through nucleophilic substitution, the ethylamino group of triethylamine will gradually replace the halogen atom on the halogenated naphthalene.
After the reaction is completed, the product can be treated with exquisite separation and purification techniques. Extraction can be used first, according to the solubility of the product and impurities in different solvents. Then distillation is used to further purify the product by taking advantage of the different boiling points of each component. Supplemented by recrystallization, high purity 2% 2C4 -bis (triethylamino) naphthalene is obtained.
All reaction conditions, such as temperature, pressure, reactant ratio and reaction time, need to be precisely controlled. If there is a slight difference, the purity and yield of the product will be affected. In this way, a refined 2% 2C4-bis (triethylamino) naphthalene product can be obtained.
What are the precautions for storing and transporting 2,4-bis (trifluoromethyl) chlorobenzene?
2% 2C4-di (triethylamino) fluorescein. When storing and transporting this substance, many matters must be paid attention to.
Its chemical properties are relatively active. When storing, the temperature and humidity of the environment should be the first priority. It should be placed in a cool and dry place, and the temperature should be controlled at about 2-8 ° C. If the temperature is too high, it may cause its chemical structure to change and affect the quality; if the humidity is too high, it is prone to moisture and deterioration.
Furthermore, this substance is quite sensitive to light. Store it away from direct light. It is best to store it in a brown bottle or a light-shielded container to prevent decomposition or other chemical reactions caused by light.
When transporting, the packaging must be firm. Appropriate packaging materials should be selected to ensure that they are not damaged by vibration and collision during transportation. Because it is a chemical, some transportation scenarios may need to follow specific dangerous goods transportation rules and must not be negligent.
The handling process should also be careful. The operator must be professionally trained and familiar with the correct handling methods to avoid direct contact to prevent harm to the human body. And the place of transportation and storage should be kept away from fire sources, heat sources and strong oxidants to prevent dangerous accidents such as fire and explosion. In this way, the safety and quality of 2% 2C4-bis (triethylamino) fluorescein during storage and transportation should be guaranteed.
Its chemical properties are relatively active. When storing, the temperature and humidity of the environment should be the first priority. It should be placed in a cool and dry place, and the temperature should be controlled at about 2-8 ° C. If the temperature is too high, it may cause its chemical structure to change and affect the quality; if the humidity is too high, it is prone to moisture and deterioration.
Furthermore, this substance is quite sensitive to light. Store it away from direct light. It is best to store it in a brown bottle or a light-shielded container to prevent decomposition or other chemical reactions caused by light.
When transporting, the packaging must be firm. Appropriate packaging materials should be selected to ensure that they are not damaged by vibration and collision during transportation. Because it is a chemical, some transportation scenarios may need to follow specific dangerous goods transportation rules and must not be negligent.
The handling process should also be careful. The operator must be professionally trained and familiar with the correct handling methods to avoid direct contact to prevent harm to the human body. And the place of transportation and storage should be kept away from fire sources, heat sources and strong oxidants to prevent dangerous accidents such as fire and explosion. In this way, the safety and quality of 2% 2C4-bis (triethylamino) fluorescein during storage and transportation should be guaranteed.
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