Linshang Chemical
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5-Bromo-1-Chloro-2-Fluoro-3-(Trifluoromethyl)Benzene
Linshang Chemical
|
HS Code |
593454 |
| Chemical Formula | C7H3BrClF4 |
| Molecular Weight | 279.45 |
| Appearance | Typically a colorless to pale - yellow liquid (assumed, based on similar halogenated aromatic compounds) |
| Solubility In Water | Low solubility (aromatic halogenated compounds are generally hydrophobic) |
| Solubility In Organic Solvents | Soluble in common organic solvents like dichloromethane, chloroform, ethyl acetate |
| Vapor Pressure | Low vapor pressure (due to relatively high molecular weight and non - volatile nature of aromatic halogenated compounds) |
As an accredited 5-Bromo-1-Chloro-2-Fluoro-3-(Trifluoromethyl)Benzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 5 - bromo - 1 - chloro - 2 - fluoro - 3 - (trifluoromethyl)benzene in 100g glass bottles. |
| Storage | 5 - bromo - 1 - chloro - 2 - fluoro - 3 - (trifluoromethyl)benzene should be stored in a cool, dry, well - ventilated area, away from heat sources and open flames. It should be kept in a tightly sealed container, preferably made of corrosion - resistant materials like glass. Store it separately from oxidizing agents, reducing agents, and reactive chemicals to prevent potential reactions. |
| Shipping | 5 - bromo - 1 - chloro - 2 - fluoro - 3 - (trifluoromethyl)benzene is shipped in sealed, corrosion - resistant containers. It follows strict hazardous chemical shipping regulations to ensure safe transit, with proper labeling and documentation. |
Competitive 5-Bromo-1-Chloro-2-Fluoro-3-(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.
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Tel: +8615365006308
Email: info@alchemist-chem.com
Where to Buy 5-Bromo-1-Chloro-2-Fluoro-3-(Trifluoromethyl)Benzene in China?
As a trusted 5-Bromo-1-Chloro-2-Fluoro-3-(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 5-Bromo-1-Chloro-2-Fluoro-3-(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 5-bromo-1-chloro-2-fluoro-3- (trifluoromethyl) benzene?
5 - - 1 - - 2 - - 3 - (trimethylmethyl) silicon, this material is used for the first time.
First, in the field of chemical synthesis, it is often important in the field of chemical synthesis. If you want to create a specific silicon compound, (trimethylmethyl) silicon can be used as a starting material, and is generally reversed, such as nuclear substitution, addition, etc., to build a silicon molecule. This silicon compound has many uses in materials, such as high-quality materials, which can make mechanical parts smoother, less abrasive, and extend the use of equipment. It can also be used in the formulation of materials to improve the adhesion, wear resistance and chemical quality of materials, so that the surface of coated objects is more durable.
Second, in sub-processing, (trimethylmethyl) silicon also has a high-quality status. Semi-manufacturing process, or the surface of the silicon wafer. By fine control of the reverse parts, the surface of the (trimethylmethyl) silicon wafer is reversed, which can repair the surface properties of the silicon wafer, such as improving the surface energy and improving the characteristics of the silicon, etc., to improve the performance of the semi-device and ensure the efficient and stable operation of the silicon wafer.
Furthermore, in terms of research and development, (trimethylmethyl) silicon derivatives may be biologically active. Kejia can synthesize a series of new compounds based on (trimethyl) silicon, which is expected to produce molecules with high activity and high application value, providing possible directions for new research, benefiting all kinds of things, and assisting in the treatment of diseases.
As a result, (trimethyl) silicon plays an important role in many fields such as chemical industry, chemical industry, chemical industry, and chemical industry.
First, in the field of chemical synthesis, it is often important in the field of chemical synthesis. If you want to create a specific silicon compound, (trimethylmethyl) silicon can be used as a starting material, and is generally reversed, such as nuclear substitution, addition, etc., to build a silicon molecule. This silicon compound has many uses in materials, such as high-quality materials, which can make mechanical parts smoother, less abrasive, and extend the use of equipment. It can also be used in the formulation of materials to improve the adhesion, wear resistance and chemical quality of materials, so that the surface of coated objects is more durable.
Second, in sub-processing, (trimethylmethyl) silicon also has a high-quality status. Semi-manufacturing process, or the surface of the silicon wafer. By fine control of the reverse parts, the surface of the (trimethylmethyl) silicon wafer is reversed, which can repair the surface properties of the silicon wafer, such as improving the surface energy and improving the characteristics of the silicon, etc., to improve the performance of the semi-device and ensure the efficient and stable operation of the silicon wafer.
Furthermore, in terms of research and development, (trimethylmethyl) silicon derivatives may be biologically active. Kejia can synthesize a series of new compounds based on (trimethyl) silicon, which is expected to produce molecules with high activity and high application value, providing possible directions for new research, benefiting all kinds of things, and assisting in the treatment of diseases.
As a result, (trimethyl) silicon plays an important role in many fields such as chemical industry, chemical industry, chemical industry, and chemical industry.
What are the physical properties of 5-bromo-1-chloro-2-fluoro-3- (trifluoromethyl) benzene?
5-Hydroxy-1-aldehyde-2-ether-3- (triether methyl) naphthalene, is a kind of organic compound. Its physical properties are unique, as follows:
Looking at its properties, under normal conditions, it is either a crystalline solid or a viscous liquid, which varies according to the temperature and pressure of the surrounding environment. Its color is often close to colorless to light yellow, and when pure, the color is translucent. However, if it contains impurities, the color may change.
When it comes to the melting point, the melting point is about [X] ° C, which is measured under standard pressure. The melting point is established, and it can be seen that when the temperature rises to this value, the substance gradually melts from a solid state to a liquid state. The boiling point is about [X] ° C. At this temperature, the liquid quickly converts into a gaseous state, and the change of the state of matter depends entirely on the force of temperature.
Solubility is also an important property. In organic solvents such as ethanol and ether, this substance is soluble. The molecular structure of ethanol and ether is compatible with 5-hydroxyl-1-aldehyde-2-ether-3- (triether methyl) naphthalene, so it dissolves. However, in water, its solubility is not good, because the polarity of water is quite different from the structure of the compound, it is difficult to miscible with each other.
As for the density, it is about [X] g/cm ³, which is larger or smaller than the density of water, which depends on the compactness of its molecular accumulation and the size of its atomic weight. The density is given, and in the mixed system, its ups and downs can be known.
In addition, the compound may have certain volatility. Under normal temperature and pressure, although the volatilization rate may not be very fast, it will increase with temperature. Its odor may have a slight special smell, but the perception of the smell of your mileage may vary, and it is greatly affected by the concentration.
The above physical properties are of great significance in many fields such as chemical industry and medicine. In chemical synthesis, it can be purified and refined according to its melting point and boiling point; in pharmaceutical research and development, solubility, density and other properties are related to the design of drug dosage forms and metabolism in the body. All properties are the cornerstones of exploring this compound.
Looking at its properties, under normal conditions, it is either a crystalline solid or a viscous liquid, which varies according to the temperature and pressure of the surrounding environment. Its color is often close to colorless to light yellow, and when pure, the color is translucent. However, if it contains impurities, the color may change.
When it comes to the melting point, the melting point is about [X] ° C, which is measured under standard pressure. The melting point is established, and it can be seen that when the temperature rises to this value, the substance gradually melts from a solid state to a liquid state. The boiling point is about [X] ° C. At this temperature, the liquid quickly converts into a gaseous state, and the change of the state of matter depends entirely on the force of temperature.
Solubility is also an important property. In organic solvents such as ethanol and ether, this substance is soluble. The molecular structure of ethanol and ether is compatible with 5-hydroxyl-1-aldehyde-2-ether-3- (triether methyl) naphthalene, so it dissolves. However, in water, its solubility is not good, because the polarity of water is quite different from the structure of the compound, it is difficult to miscible with each other.
As for the density, it is about [X] g/cm ³, which is larger or smaller than the density of water, which depends on the compactness of its molecular accumulation and the size of its atomic weight. The density is given, and in the mixed system, its ups and downs can be known.
In addition, the compound may have certain volatility. Under normal temperature and pressure, although the volatilization rate may not be very fast, it will increase with temperature. Its odor may have a slight special smell, but the perception of the smell of your mileage may vary, and it is greatly affected by the concentration.
The above physical properties are of great significance in many fields such as chemical industry and medicine. In chemical synthesis, it can be purified and refined according to its melting point and boiling point; in pharmaceutical research and development, solubility, density and other properties are related to the design of drug dosage forms and metabolism in the body. All properties are the cornerstones of exploring this compound.
What are the synthesis methods of 5-bromo-1-chloro-2-fluoro-3- (trifluoromethyl) benzene?
To prepare 5-% -1-% chlorine-2-% chlorine-3- (trimethyl) ether, there are many methods, and the following is the usual method of preparation.
First, replace the raw material with the alcohol of the phase, and react in the environment. If you take an amount of alcohol, dissolve it in a suitable solution, such as acetone or acetonitrile, add alcohol, such as carbonate or oxide, and mix well. Then add 10 drops to control the reaction. Usually under the addition of water, the reaction can be obtained. The principle of this inverse is to promote the formation of alcohols from alcohols, which can replace the carbon atoms of the alcohol, generate nuclei to replace the inverse, and remove the pigments to form ethers.
Second, the Williamson synthesis method can be used. First, the compound containing the alkyl group is synthesized into alcohols or alcohols, such as gold or alcohol, to generate an alcohol-gold compound. Then the alkyl phase is reversed, and it is suitable for dissolving in ethyl ether or tetrafuran, under normal or additive conditions. This inverse process also involves nuclear substitution, and the alkoxy substitutes of the alkoxy group of the alkyl group attack the carbon atoms of the alkane atom to form ethers.
Third, if there is a synthetic alkenyl compound, it can be alkoxy mercury-mercury anti-mercury. The alkenyl containing mercury and alcohol are reversed under the appropriate component, and the mercury atom is added to the alkenyl, and the alkoxy group of the same alcohol is also added to the alcohol to form a medium. Add the original material, such as boron, so that the mercury is removed to obtain the ether of the mesh. This reaction has good properties and can be effectively synthesized for specific ethers.
For this reason, the above methods have their own disadvantages. In the synthesis of alcohol, it is necessary to use it according to factors such as the availability of raw materials, the controllability of the reaction parts, and the degree requirements of the mesh.
First, replace the raw material with the alcohol of the phase, and react in the environment. If you take an amount of alcohol, dissolve it in a suitable solution, such as acetone or acetonitrile, add alcohol, such as carbonate or oxide, and mix well. Then add 10 drops to control the reaction. Usually under the addition of water, the reaction can be obtained. The principle of this inverse is to promote the formation of alcohols from alcohols, which can replace the carbon atoms of the alcohol, generate nuclei to replace the inverse, and remove the pigments to form ethers.
Second, the Williamson synthesis method can be used. First, the compound containing the alkyl group is synthesized into alcohols or alcohols, such as gold or alcohol, to generate an alcohol-gold compound. Then the alkyl phase is reversed, and it is suitable for dissolving in ethyl ether or tetrafuran, under normal or additive conditions. This inverse process also involves nuclear substitution, and the alkoxy substitutes of the alkoxy group of the alkyl group attack the carbon atoms of the alkane atom to form ethers.
Third, if there is a synthetic alkenyl compound, it can be alkoxy mercury-mercury anti-mercury. The alkenyl containing mercury and alcohol are reversed under the appropriate component, and the mercury atom is added to the alkenyl, and the alkoxy group of the same alcohol is also added to the alcohol to form a medium. Add the original material, such as boron, so that the mercury is removed to obtain the ether of the mesh. This reaction has good properties and can be effectively synthesized for specific ethers.
For this reason, the above methods have their own disadvantages. In the synthesis of alcohol, it is necessary to use it according to factors such as the availability of raw materials, the controllability of the reaction parts, and the degree requirements of the mesh.
What are the precautions for storing and transporting 5-bromo-1-chloro-2-fluoro-3- (trifluoromethyl) benzene?
In the process of 5-1-Y-2-wood-3- (trixymethyl) ether storage, pay attention to the following general things:
First, if it is not stored, it should be cleared, dry and clear. This is because 5-Y-1-Y-2-wood-3- (trixymethyl) ether or damp, high shadow. If it is in the environment of damp, or causes it to be hydrolyzed, etc., it may also accelerate its decomposition, and even lead to safety problems. Therefore, if it is cleared and dry, it can be guaranteed.
Second, if the container is stored, the material must be obtained and sealed. Use materials that can resist the corrosion of this compound, such as specific plastics or gold materials, to prevent the leakage of materials caused by the container. Sealing can avoid the connection of components in the air, such as oxygen, water vapor, etc., and maintain their characterization.
Third, it is necessary to act according to the quality of hazardous chemicals. Because it may have a certain degree of danger, it must be safely applied in the phase, such as fire equipment, emergency treatment tools, etc. People are also subject to training, familiar with the characteristics of this material and emergency treatment methods.
Fourth, if there is no problem, it must be oxidized, original materials and other materials. 5-N-1-N-2-wood-3- (trimethylmethyl) ether or other toxic substances react and cause an accident. Therefore, it is divided into storage, which can effectively reduce the damage.
Fifth, do a good job. On the storage container, clear information such as the name, characteristics, and danger warnings of the object. In this way, in the event of an accident, the rescuer can quickly understand the situation and take corrective measures.
First, if it is not stored, it should be cleared, dry and clear. This is because 5-Y-1-Y-2-wood-3- (trixymethyl) ether or damp, high shadow. If it is in the environment of damp, or causes it to be hydrolyzed, etc., it may also accelerate its decomposition, and even lead to safety problems. Therefore, if it is cleared and dry, it can be guaranteed.
Second, if the container is stored, the material must be obtained and sealed. Use materials that can resist the corrosion of this compound, such as specific plastics or gold materials, to prevent the leakage of materials caused by the container. Sealing can avoid the connection of components in the air, such as oxygen, water vapor, etc., and maintain their characterization.
Third, it is necessary to act according to the quality of hazardous chemicals. Because it may have a certain degree of danger, it must be safely applied in the phase, such as fire equipment, emergency treatment tools, etc. People are also subject to training, familiar with the characteristics of this material and emergency treatment methods.
Fourth, if there is no problem, it must be oxidized, original materials and other materials. 5-N-1-N-2-wood-3- (trimethylmethyl) ether or other toxic substances react and cause an accident. Therefore, it is divided into storage, which can effectively reduce the damage.
Fifth, do a good job. On the storage container, clear information such as the name, characteristics, and danger warnings of the object. In this way, in the event of an accident, the rescuer can quickly understand the situation and take corrective measures.
What are the effects of 5-bromo-1-chloro-2-fluoro-3- (trifluoromethyl) benzene on the environment and human health?
Wen Zi inquired about the impact of pentachloro-1-alkane-2-ene-3- (trienomethyl) benzene on the environment and human health. This substance has a significant effect on the environment and human health.
First of all, its impact on the environment. If this substance is released into nature, it is difficult to decompose quickly by ordinary biological or chemical processes due to its chemical stability. Its residue in the soil, or cause gradual changes in soil properties, affect the structure and function of soil microbial community, destroy soil ecological balance, damage soil fertility, hinder the normal growth of plant roots and nutrient absorption, resulting in the inhibition of vegetation growth and the reduction of biodiversity. In the water environment, it will spread with the flow of water, polluting surface water and groundwater. Aquatic organisms have an enrichment effect on it, which is transmitted and amplified through the food chain, endangering aquatic organisms at all levels, destroying the structure and function of aquatic ecosystems, and affecting fishery resources.
Re-examine its impact on human health. After ingesting the human body through respiratory tract, skin contact or accidental ingestion, it can disrupt the endocrine system and affect the normal secretion and regulation of hormones. Causes endocrine imbalance in the human body, causing problems such as reproductive dysfunction and abnormal thyroid function. Long-term exposure to this substance may increase the risk of cancer, and has mutagenic effects. It can cause genetic mutations in human cells and abnormal cell proliferation into tumor cells. It can also damage the nervous system, causing headaches, dizziness, fatigue, memory loss and other symptoms. In severe cases, it affects the normal development and function of the nervous system, especially in children, or causes mental retardation and behavioral abnormalities.
In summary, pentachloro-1-alkane-2-ene-3- (trienomethyl) benzene is quite harmful to the environment and human health, and needs to be treated with caution and strengthened control to prevent it from causing irreversible damage to the ecological environment and human body.
First of all, its impact on the environment. If this substance is released into nature, it is difficult to decompose quickly by ordinary biological or chemical processes due to its chemical stability. Its residue in the soil, or cause gradual changes in soil properties, affect the structure and function of soil microbial community, destroy soil ecological balance, damage soil fertility, hinder the normal growth of plant roots and nutrient absorption, resulting in the inhibition of vegetation growth and the reduction of biodiversity. In the water environment, it will spread with the flow of water, polluting surface water and groundwater. Aquatic organisms have an enrichment effect on it, which is transmitted and amplified through the food chain, endangering aquatic organisms at all levels, destroying the structure and function of aquatic ecosystems, and affecting fishery resources.
Re-examine its impact on human health. After ingesting the human body through respiratory tract, skin contact or accidental ingestion, it can disrupt the endocrine system and affect the normal secretion and regulation of hormones. Causes endocrine imbalance in the human body, causing problems such as reproductive dysfunction and abnormal thyroid function. Long-term exposure to this substance may increase the risk of cancer, and has mutagenic effects. It can cause genetic mutations in human cells and abnormal cell proliferation into tumor cells. It can also damage the nervous system, causing headaches, dizziness, fatigue, memory loss and other symptoms. In severe cases, it affects the normal development and function of the nervous system, especially in children, or causes mental retardation and behavioral abnormalities.
In summary, pentachloro-1-alkane-2-ene-3- (trienomethyl) benzene is quite harmful to the environment and human health, and needs to be treated with caution and strengthened control to prevent it from causing irreversible damage to the ecological environment and human body.
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