Linshang Chemical
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1-Bromo-4-Chloro-2-(Trifluoromethyl)Benzene
Linshang Chemical
|
HS Code |
271881 |
| Chemical Formula | C7H3BrClF3 |
| Molar Mass | 261.45 g/mol |
| Appearance | colorless to light yellow liquid |
| Boiling Point | 187 - 189 °C |
| Density | 1.71 g/cm³ |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in common organic solvents like dichloromethane, ethyl acetate |
| Flash Point | 79 °C |
| Refractive Index | 1.474 |
As an accredited 1-Bromo-4-Chloro-2-(Trifluoromethyl)Benzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 - bromo - 4 - chloro - 2 - (trifluoromethyl)benzene in 500 - mL glass bottle, quantity: 1 unit. |
| Storage | 1 - Bromo - 4 - chloro - 2 - (trifluoromethyl)benzene should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in a tightly - sealed container made of suitable materials like glass or certain plastics to prevent leakage. This helps maintain its chemical integrity and ensures safety. |
| Shipping | 1 - bromo - 4 - chloro - 2 - (trifluoromethyl)benzene is shipped in well - sealed, corrosion - resistant containers. It follows strict hazardous chemical shipping regulations, ensuring proper labeling and handling to prevent spills during transit. |
Competitive 1-Bromo-4-Chloro-2-(Trifluoromethyl)Benzene 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 1-Bromo-4-Chloro-2-(Trifluoromethyl)Benzene in China?
As a trusted 1-Bromo-4-Chloro-2-(Trifluoromethyl)Benzene 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 1-Bromo-4-Chloro-2-(Trifluoromethyl)Benzene 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 1-bromo-4-chloro-2- (trifluoromethyl) benzene?
1-% hydrocarbon-4-alkane-2- (triethylmethyl) naphthalene is a kind of organic compound. Its main use is quite wide and it is involved in many fields.
In the chemical industry, this compound is often used as a raw material to prepare other organic chemicals. Due to its unique structure, it can be converted into substances with special properties through various chemical reactions. For example, through a specific catalytic reaction, it can be transformed into a monomer for the manufacture of high-performance plastics. This plastic has excellent mechanical properties and heat resistance, and can be widely used in automotive manufacturing, electronic equipment and other industries to make products more durable and have excellent performance.
Furthermore, in the field of materials science, 1-% hydrocarbon-4-alkane-2- (triethylmethyl) naphthalene also has important value. It can be used as an additive to integrate into polymer materials to improve the physical properties of materials. For example, it enhances the flexibility and plasticity of materials, making them easier to process and form, while enhancing the stability of materials and prolonging their service life. It has application potential in packaging materials, building materials, etc.
In addition, in the study of organic synthetic chemistry, this compound is often a key intermediate. Chemists can functionalize it and introduce different functional groups to build complex and diverse organic molecules, providing an important material basis for the development of new drugs and the creation of new functional materials. For many bioactive compounds, the synthesis path involves using this as the starting material, and through a series of delicate reaction steps, the target product is finally obtained, which brings new opportunities for the development of the pharmaceutical field.
In the chemical industry, this compound is often used as a raw material to prepare other organic chemicals. Due to its unique structure, it can be converted into substances with special properties through various chemical reactions. For example, through a specific catalytic reaction, it can be transformed into a monomer for the manufacture of high-performance plastics. This plastic has excellent mechanical properties and heat resistance, and can be widely used in automotive manufacturing, electronic equipment and other industries to make products more durable and have excellent performance.
Furthermore, in the field of materials science, 1-% hydrocarbon-4-alkane-2- (triethylmethyl) naphthalene also has important value. It can be used as an additive to integrate into polymer materials to improve the physical properties of materials. For example, it enhances the flexibility and plasticity of materials, making them easier to process and form, while enhancing the stability of materials and prolonging their service life. It has application potential in packaging materials, building materials, etc.
In addition, in the study of organic synthetic chemistry, this compound is often a key intermediate. Chemists can functionalize it and introduce different functional groups to build complex and diverse organic molecules, providing an important material basis for the development of new drugs and the creation of new functional materials. For many bioactive compounds, the synthesis path involves using this as the starting material, and through a series of delicate reaction steps, the target product is finally obtained, which brings new opportunities for the development of the pharmaceutical field.
What are the physical properties of 1-bromo-4-chloro-2- (trifluoromethyl) benzene?
The physical properties of 1-% chloro-4-fluoro-2- (triethylmethyl) benzene are as follows:
This compound is mostly liquid at room temperature. It is clear and transparent in appearance, has no special color, and is like water when it is pure. Smell it, it has a special aromatic smell, but it is not a rich and tangy fragrance. It is a unique and slightly irritating light fragrance of organic compounds. Smell it for a long time or make the sense of smell uncomfortable.
In terms of its boiling point, it is about within a certain temperature range. Due to the intermolecular force and structure, its boiling point makes the substance gradually change from liquid to gaseous at the corresponding temperature. This property is crucial in the control of separation, purification and related chemical reactions. If you want to separate it from the mixture, you need to precisely control the temperature to reach the boiling point, and then achieve gasification separation.
Its melting point also has a specific value. When the temperature drops below the melting point, the substance solidifies from a liquid state to a solid state. In a solid state, the molecules are arranged more orderly and tightly. The melting point is closely related to the connection and interaction of atoms in the molecular structure. This property has a great impact on the storage and transportation of substances. If the ambient temperature is lower than the melting point, the substance is in a solid state, which is convenient for storage and transportation; conversely, if it is higher than the melting point, the fluidity and storage conditions of its liquid state need to be considered.
In terms of density, it has a specific ratio compared to water. Either heavier than water or lighter than water, this property determines its state when mixed with water. If it is lighter than water, it will float on the water surface after mixing with water; if it is heavier than water, it will sink to the bottom of the water. This property can be used for preliminary separation and judgment when it comes to chemical reactions or mixture treatment of aqueous phases.
In terms of solubility, in organic solvents, such as ethanol, ether, etc., it often exhibits good solubility. Due to the principle of similarity and phase dissolution, its organic structure is similar to the molecular structure of organic solvents, and intermolecular forces can cause the two to mix and dissolve. In water, its solubility is poor, because its molecular polarity is quite different from that of water molecules, it is difficult to form an effective interaction and dissolve. This solubility characteristic is of great significance for selecting suitable solvents for reaction and extraction in chemical experiments and industrial production.
This compound is mostly liquid at room temperature. It is clear and transparent in appearance, has no special color, and is like water when it is pure. Smell it, it has a special aromatic smell, but it is not a rich and tangy fragrance. It is a unique and slightly irritating light fragrance of organic compounds. Smell it for a long time or make the sense of smell uncomfortable.
In terms of its boiling point, it is about within a certain temperature range. Due to the intermolecular force and structure, its boiling point makes the substance gradually change from liquid to gaseous at the corresponding temperature. This property is crucial in the control of separation, purification and related chemical reactions. If you want to separate it from the mixture, you need to precisely control the temperature to reach the boiling point, and then achieve gasification separation.
Its melting point also has a specific value. When the temperature drops below the melting point, the substance solidifies from a liquid state to a solid state. In a solid state, the molecules are arranged more orderly and tightly. The melting point is closely related to the connection and interaction of atoms in the molecular structure. This property has a great impact on the storage and transportation of substances. If the ambient temperature is lower than the melting point, the substance is in a solid state, which is convenient for storage and transportation; conversely, if it is higher than the melting point, the fluidity and storage conditions of its liquid state need to be considered.
In terms of density, it has a specific ratio compared to water. Either heavier than water or lighter than water, this property determines its state when mixed with water. If it is lighter than water, it will float on the water surface after mixing with water; if it is heavier than water, it will sink to the bottom of the water. This property can be used for preliminary separation and judgment when it comes to chemical reactions or mixture treatment of aqueous phases.
In terms of solubility, in organic solvents, such as ethanol, ether, etc., it often exhibits good solubility. Due to the principle of similarity and phase dissolution, its organic structure is similar to the molecular structure of organic solvents, and intermolecular forces can cause the two to mix and dissolve. In water, its solubility is poor, because its molecular polarity is quite different from that of water molecules, it is difficult to form an effective interaction and dissolve. This solubility characteristic is of great significance for selecting suitable solvents for reaction and extraction in chemical experiments and industrial production.
Is 1-Bromo-4-chloro-2- (trifluoromethyl) benzene chemically stable?
The chemical properties of 1-% mercury-4-% bromo-2- (triethylmethyl) naphthalene are stable?
Mercury is also a toxic metal, and it often shows unique properties in many compounds. In this compound of 1-% mercury-4-% bromo-2- (triethylmethyl) naphthalene, the presence of mercury may lead to special chemical activities. Mercury easily bonds with other atoms, and changes in its valence state can cause chemical properties of compounds to differ.
Bromine, a halogen element, has active chemical properties. In this compound, bromine atoms can participate in many reactions, such as nucleophilic substitution. Its high electronegativity can affect the electron cloud distribution of molecules, make the compound locally polar, and then affect its reactivity and solubility.
And 2- (triethylmethyl) naphthalene part, naphthalene is an aromatic hydrocarbon, with a conjugated electronic system, showing certain stability and aromaticity. The connection of triethylmethyl, or the electron cloud density of the naphthalene ring, affects the check point and activity of its electrophilic substitution reaction.
However, many factors need to be considered for its stability. From the perspective of bond energy, it is difficult to crack compounds with fixed bond energies such as mercury-carbon bonds and bromine-carbon bonds under certain conditions. If the bond energy is high, it is relatively stable; otherwise, it is easy to decompose. And external conditions such as temperature, pH, light, etc., have a great influence on its stability. Under high temperature or specific pH, mercury or bromine atoms may be removed, causing structural changes in the compound. When illuminated, if the molecule absorbs appropriate energy, or induces luminescent chemical reactions, the properties of the compound are changed.
In summary, the chemical properties of 1-% mercury-4-% bromo-2- (triethylmethyl) naphthalene are not absolutely stable, and are co-produced by internal structure and external conditions.
Mercury is also a toxic metal, and it often shows unique properties in many compounds. In this compound of 1-% mercury-4-% bromo-2- (triethylmethyl) naphthalene, the presence of mercury may lead to special chemical activities. Mercury easily bonds with other atoms, and changes in its valence state can cause chemical properties of compounds to differ.
Bromine, a halogen element, has active chemical properties. In this compound, bromine atoms can participate in many reactions, such as nucleophilic substitution. Its high electronegativity can affect the electron cloud distribution of molecules, make the compound locally polar, and then affect its reactivity and solubility.
And 2- (triethylmethyl) naphthalene part, naphthalene is an aromatic hydrocarbon, with a conjugated electronic system, showing certain stability and aromaticity. The connection of triethylmethyl, or the electron cloud density of the naphthalene ring, affects the check point and activity of its electrophilic substitution reaction.
However, many factors need to be considered for its stability. From the perspective of bond energy, it is difficult to crack compounds with fixed bond energies such as mercury-carbon bonds and bromine-carbon bonds under certain conditions. If the bond energy is high, it is relatively stable; otherwise, it is easy to decompose. And external conditions such as temperature, pH, light, etc., have a great influence on its stability. Under high temperature or specific pH, mercury or bromine atoms may be removed, causing structural changes in the compound. When illuminated, if the molecule absorbs appropriate energy, or induces luminescent chemical reactions, the properties of the compound are changed.
In summary, the chemical properties of 1-% mercury-4-% bromo-2- (triethylmethyl) naphthalene are not absolutely stable, and are co-produced by internal structure and external conditions.
What are the preparation methods of 1-bromo-4-chloro-2- (trifluoromethyl) benzene?
The processing method of 1-% -4-water-2- (trimethyl) silicon can be carried out according to the following steps:
The first amount of silicon source is obtained. This silicon source needs to be of high quality and quality in order to ensure good results. The silicon source is placed in a delicate crucible, and the crucible material should be refractory and resistant to fire, in order to prevent the reaction. Next, a delicate addition is arranged around the crucible, and the layer is slowly raised in a controllable degree. When the silicon source is transferred to a specific melting layer, its flow is like liquid gold, and this layer needs to be controlled without any deviation.
That is, with a delicate measuring instrument, the mixture of 1-% -4-% water should be measured. The proportion of the mixed liquid must be refined, and the difference is less than a thousand miles. The mixed liquid is injected into the molten silicon source, and the speed of injection must be uniform and fixed, just like the spring rain, the flow of water. When injecting the water, pay close attention to the reverse of the crucible, the bubble is surging, and the color is illusory. This is the wonderful scene of the reaction.
And then, add 2- (trimethyl). This input, like the eyes of the eye, leads to the transformation of the strong. The crucible is boiling and turning, and the light is shining. This way, with exquisite mixing tools, the reaction is fully blended and the reaction is complete. The strength and rate of mixing need to be carefully controlled, and it is not enough to be completed.
If it is reversed, wait for the crucible to be cold. The speed of cooling should also be paid attention to, and it should not be rushed, so as not to cause the generated material to be damaged due to uneven force. In the cold, collect the crucible material and use it as a lifting tool to remove the material and improve the quality. With this careful operation, a high degree of 1-% -4-% water-2- (trimethyl) silicon can be obtained. Every step requires exquisite skill and heart to achieve this exquisite work.
The first amount of silicon source is obtained. This silicon source needs to be of high quality and quality in order to ensure good results. The silicon source is placed in a delicate crucible, and the crucible material should be refractory and resistant to fire, in order to prevent the reaction. Next, a delicate addition is arranged around the crucible, and the layer is slowly raised in a controllable degree. When the silicon source is transferred to a specific melting layer, its flow is like liquid gold, and this layer needs to be controlled without any deviation.
That is, with a delicate measuring instrument, the mixture of 1-% -4-% water should be measured. The proportion of the mixed liquid must be refined, and the difference is less than a thousand miles. The mixed liquid is injected into the molten silicon source, and the speed of injection must be uniform and fixed, just like the spring rain, the flow of water. When injecting the water, pay close attention to the reverse of the crucible, the bubble is surging, and the color is illusory. This is the wonderful scene of the reaction.
And then, add 2- (trimethyl). This input, like the eyes of the eye, leads to the transformation of the strong. The crucible is boiling and turning, and the light is shining. This way, with exquisite mixing tools, the reaction is fully blended and the reaction is complete. The strength and rate of mixing need to be carefully controlled, and it is not enough to be completed.
If it is reversed, wait for the crucible to be cold. The speed of cooling should also be paid attention to, and it should not be rushed, so as not to cause the generated material to be damaged due to uneven force. In the cold, collect the crucible material and use it as a lifting tool to remove the material and improve the quality. With this careful operation, a high degree of 1-% -4-% water-2- (trimethyl) silicon can be obtained. Every step requires exquisite skill and heart to achieve this exquisite work.
What should be paid attention to when storing and transporting 1-bromo-4-chloro-2- (trifluoromethyl) benzene?
When storing and transporting 1-% hydrocarbon-4-alkane-2- (triethylmethyl) naphthalene, it is necessary to pay attention to many matters.
When storing, the first choice of environment. It is advisable to choose a cool and ventilated place, away from fire and heat sources, to prevent it from being dangerous due to heat. Most of these substances are flammable, and in case of open flame or hot topic, there is a risk of fire or even explosion. In addition, they should be stored separately from oxidizing agents and acids, and must not be mixed. Because of the violent chemical reaction with each other, it will cause unexpected accidents. The electrical facilities in the storage place should also meet the requirements of explosion protection to prevent electrical sparks from causing accidents. And it is necessary to have suitable materials to contain the leakage. Once the leakage occurs, it can be dealt with in time to prevent its spread from causing greater harm.
As for the transportation, it should not be ignored. The transportation vehicle must ensure that the vehicle is in good condition and equipped with corresponding fire equipment and leakage emergency treatment equipment. During driving, drivers must abide by traffic rules, drive slowly, and avoid intense operations such as sudden braking and sharp turns to prevent damage and leakage of goods. At the same time, the transportation process should be kept away from sensitive areas such as densely populated areas and water sources to reduce the impact on the public and the environment in the event of an accident. Escort personnel also need to have professional knowledge, familiar with the characteristics of the transported goods and emergency treatment methods, and remain vigilant throughout the transportation process. If there is any abnormality, they will be properly disposed of immediately. Therefore, it is necessary to ensure the safety of 1-% hydrocarbon-4-alkane-2- (triethylmethyl) naphthalene during storage and transportation.
When storing, the first choice of environment. It is advisable to choose a cool and ventilated place, away from fire and heat sources, to prevent it from being dangerous due to heat. Most of these substances are flammable, and in case of open flame or hot topic, there is a risk of fire or even explosion. In addition, they should be stored separately from oxidizing agents and acids, and must not be mixed. Because of the violent chemical reaction with each other, it will cause unexpected accidents. The electrical facilities in the storage place should also meet the requirements of explosion protection to prevent electrical sparks from causing accidents. And it is necessary to have suitable materials to contain the leakage. Once the leakage occurs, it can be dealt with in time to prevent its spread from causing greater harm.
As for the transportation, it should not be ignored. The transportation vehicle must ensure that the vehicle is in good condition and equipped with corresponding fire equipment and leakage emergency treatment equipment. During driving, drivers must abide by traffic rules, drive slowly, and avoid intense operations such as sudden braking and sharp turns to prevent damage and leakage of goods. At the same time, the transportation process should be kept away from sensitive areas such as densely populated areas and water sources to reduce the impact on the public and the environment in the event of an accident. Escort personnel also need to have professional knowledge, familiar with the characteristics of the transported goods and emergency treatment methods, and remain vigilant throughout the transportation process. If there is any abnormality, they will be properly disposed of immediately. Therefore, it is necessary to ensure the safety of 1-% hydrocarbon-4-alkane-2- (triethylmethyl) naphthalene during storage and transportation.
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