Linshang Chemical
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Benzene, 2-(Chloromethyl)-4-Fluoro-1-(Trifluoromethyl)-
Linshang Chemical
|
HS Code |
611284 |
| Chemical Formula | C8H5ClF4 |
| Molar Mass | 226.57 g/mol |
| Solubility In Water | Low solubility (organic compound, non - polar nature) |
| Solubility In Organic Solvents | Soluble in common organic solvents like dichloromethane, chloroform, etc. |
| Stability | Stable under normal conditions but may react with strong oxidizing agents |
| Toxicity | Potentially toxic, harmful if inhaled, ingested or in contact with skin |
As an accredited Benzene, 2-(Chloromethyl)-4-Fluoro-1-(Trifluoromethyl)- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of 2-(chloromethyl)-4-fluoro-1-(trifluoromethyl)benzene in sealed chemical - grade bottles. |
| Storage | Store “Benzene, 2-(chloromethyl)-4-fluoro-1-(trifluoromethyl)-” in a cool, dry, well - ventilated area, away from heat sources and ignition sources. It should be kept in a tightly - sealed container, preferably made of materials resistant to its corrosive nature. Segregate it from incompatible substances like oxidizing agents and bases to prevent reactions. |
| Shipping | The chemical "Benzene, 2-(chloromethyl)-4-fluoro-1-(trifluoromethyl)-" should be shipped in accordance with strict hazardous materials regulations. Use appropriate, sealed containers to prevent leakage during transit. |
Competitive Benzene, 2-(Chloromethyl)-4-Fluoro-1-(Trifluoromethyl)- 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
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As a leading Benzene, 2-(Chloromethyl)-4-Fluoro-1-(Trifluoromethyl)- 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 this product 2- (chloromethyl) -4-fluoro-1- (trifluoromethyl) benzene?
2 - (methoxy) -4 -chloro-1 - (trifluoromethyl) pyridine, although it does not have its name in "Tiangong Kaiwu", it is deduced from the common sense of ancient technology, or has its own use.
Looking at various ancient books, ancient chemical processes are mostly related to daily use and people's livelihood. The groups containing chlorine, fluorine and other elements in this substance were difficult to be precisely prepared in ancient times, but they contained compounds with similar structures, or had other functions.
In the age of agriculture, it was important to prevent insects and protect crops. Although there is no modern fine chemical synthesis medicine, the ancients also used natural materials to make insect repellents. If compared with this substance, its structure is special, or it has the effect of repellent and insecticide. In ancient times, sulfur, arsenic and other poisons were used to repel insects. This 2- (methoxy) -4-chloro-1- (trifluoromethyl) pyridine, fluorine and chlorine atoms have strong electronegativity, or can avoid pests, or poison them, and can protect seedlings, fruits and vegetables.
In addition, the ancient dyeing process strives for excellence. Fabric coloring requires the help of good agents. The structure of this substance may interact with dye molecules to help it better adhere to the fabric, so that the dyeing is uniform and the color fastness is good. In ancient times, dyeing was mostly based on vegetation and minerals, and the key was to adjust its color and fix its dyeing. If this thing can be used reasonably, it may be possible to add a new method for dyeing, making multicolored fabrics more colorful and longer.
And in the protection of utensils, the ancients also had ingenuity. Metal utensils, wood and bamboo utensils, all seek long-term durability. This 2- (methoxy) -4-chloro-1- (trifluoromethyl) pyridine, or can form a protective layer on the surface of utensils, blocking air and water vapor erosion, similar to the principle of painting and waxing, to ensure that utensils are not damaged for a long time.
Although this object is not included in "Tiangong Kaiwu", it is based on the thinking of ancient crafts. It may have important uses in agriculture, weaving, utensils, etc., and can be used as an extension of ancient crafts, providing a perspective for exploring ancient chemical applications.
Looking at various ancient books, ancient chemical processes are mostly related to daily use and people's livelihood. The groups containing chlorine, fluorine and other elements in this substance were difficult to be precisely prepared in ancient times, but they contained compounds with similar structures, or had other functions.
In the age of agriculture, it was important to prevent insects and protect crops. Although there is no modern fine chemical synthesis medicine, the ancients also used natural materials to make insect repellents. If compared with this substance, its structure is special, or it has the effect of repellent and insecticide. In ancient times, sulfur, arsenic and other poisons were used to repel insects. This 2- (methoxy) -4-chloro-1- (trifluoromethyl) pyridine, fluorine and chlorine atoms have strong electronegativity, or can avoid pests, or poison them, and can protect seedlings, fruits and vegetables.
In addition, the ancient dyeing process strives for excellence. Fabric coloring requires the help of good agents. The structure of this substance may interact with dye molecules to help it better adhere to the fabric, so that the dyeing is uniform and the color fastness is good. In ancient times, dyeing was mostly based on vegetation and minerals, and the key was to adjust its color and fix its dyeing. If this thing can be used reasonably, it may be possible to add a new method for dyeing, making multicolored fabrics more colorful and longer.
And in the protection of utensils, the ancients also had ingenuity. Metal utensils, wood and bamboo utensils, all seek long-term durability. This 2- (methoxy) -4-chloro-1- (trifluoromethyl) pyridine, or can form a protective layer on the surface of utensils, blocking air and water vapor erosion, similar to the principle of painting and waxing, to ensure that utensils are not damaged for a long time.
Although this object is not included in "Tiangong Kaiwu", it is based on the thinking of ancient crafts. It may have important uses in agriculture, weaving, utensils, etc., and can be used as an extension of ancient crafts, providing a perspective for exploring ancient chemical applications.
What are the physical properties of 2- (chloromethyl) -4-fluoro-1- (trifluoromethyl) benzene?
2-% (methoxy) -4-bromo-1- (trifluoromethoxy) benzene is an organic compound, and its physical properties are related to many aspects.
Looking at its morphology, it often takes the state of a colorless to light yellow liquid, which can be maintained at room temperature and pressure. This property makes it easy to act as a reactant or solvent in many chemical reaction systems to participate in the reaction. Its fluidity is conducive to full contact and mixing between substances, and accelerates the reaction process.
Smell its smell, which has a special taste. Although it is difficult to describe accurately, the unique smell can be used as a preliminary identification basis. In experimental operations or industrial production, its existence or purity can be preliminarily judged by the smell.
When it comes to the boiling point, it is about a specific temperature range, which is determined by the intermolecular forces, including van der Waals forces and the interaction between specific groups. The appropriate boiling point makes it feasible to separate and purify operations such as distillation and fractionation, so that it can be effectively separated from the mixture.
Looking at the melting point, it also occupies a certain temperature range, which is related to the degree of close arrangement of molecules and the crystal structure. Melting point information helps to judge the purity of a substance. Those with high purity have a narrow melting point range and are close to the theoretical value.
In terms of solubility, it has good solubility in organic solvents such as ethanol, ether, dichloromethane, etc. Due to the principle of similar miscibility, its molecular structure is compatible with organic solvents. This property makes it in organic synthesis. It can be well mixed with other organic reagents to promote the reaction. However, the solubility in water is poor. Due to the large difference between the polarity of the water molecule and the molecular polarity of the compound, it prevents the two from dissolving each other.
The density is a certain value, which is slightly larger or smaller than that of water. This information is of great significance when it comes to liquid-liquid separation operations or calculating the amount of substances in the reaction system.
In addition, physical properties such as vapor pressure and refractive index of 2% (methoxy) -4-bromo-1- (trifluoromethoxy) benzene are also key parameters in specific research and industrial application scenarios, and can be used for material identification, purity analysis, etc.
Looking at its morphology, it often takes the state of a colorless to light yellow liquid, which can be maintained at room temperature and pressure. This property makes it easy to act as a reactant or solvent in many chemical reaction systems to participate in the reaction. Its fluidity is conducive to full contact and mixing between substances, and accelerates the reaction process.
Smell its smell, which has a special taste. Although it is difficult to describe accurately, the unique smell can be used as a preliminary identification basis. In experimental operations or industrial production, its existence or purity can be preliminarily judged by the smell.
When it comes to the boiling point, it is about a specific temperature range, which is determined by the intermolecular forces, including van der Waals forces and the interaction between specific groups. The appropriate boiling point makes it feasible to separate and purify operations such as distillation and fractionation, so that it can be effectively separated from the mixture.
Looking at the melting point, it also occupies a certain temperature range, which is related to the degree of close arrangement of molecules and the crystal structure. Melting point information helps to judge the purity of a substance. Those with high purity have a narrow melting point range and are close to the theoretical value.
In terms of solubility, it has good solubility in organic solvents such as ethanol, ether, dichloromethane, etc. Due to the principle of similar miscibility, its molecular structure is compatible with organic solvents. This property makes it in organic synthesis. It can be well mixed with other organic reagents to promote the reaction. However, the solubility in water is poor. Due to the large difference between the polarity of the water molecule and the molecular polarity of the compound, it prevents the two from dissolving each other.
The density is a certain value, which is slightly larger or smaller than that of water. This information is of great significance when it comes to liquid-liquid separation operations or calculating the amount of substances in the reaction system.
In addition, physical properties such as vapor pressure and refractive index of 2% (methoxy) -4-bromo-1- (trifluoromethoxy) benzene are also key parameters in specific research and industrial application scenarios, and can be used for material identification, purity analysis, etc.
Is 2- (chloromethyl) -4-fluoro-1- (trifluoromethyl) benzene chemically stable?
Whether the chemical properties of (this substance) 2- (methoxy) -4-chloro-1- (trichloromethyl) benzene are stable or not is a question that needs to be investigated in detail.
Looking at the structure of this compound, the methoxy group is the power supply group, which can increase the electron cloud density of the benzene ring and affect the reactivity of the benzene ring to a certain extent. Both chlorine atoms and trichloromethyl groups are electron-absorbing groups, which will reduce the electron cloud density of the benzene ring. A variety of groups coexist on the benzene ring and interact, resulting in complex chemical properties.
Generally speaking, the structure of the benzene ring itself has a certain stability. Due to the existence of the conjugate system, the electron is delocalized and the energy is However, the introduction of substituents in this compound may change its reaction check point and reactivity. For example, chlorine atoms can participate in nucleophilic substitution reactions, although the reaction conditions may be more harsh. The strong electron absorption of the trichloromethyl gene may affect the distribution of electron clouds in the ortho-para of the benzene ring, which in turn affects the regioselectivity of the electrophilic substitution reaction.
As for methoxy groups, it can enhance the density of electron clouds in the ortho-para of the benzene ring, making the position more prone to electrophilic substitution reactions. However, as a whole, whether the chemical properties of the compound are stable depends on the specific reaction conditions. At room temperature, pressure, and without the action of special reagents, it may be relatively stable. However, when exposed to high temperatures, strong acids, or specific catalysts, or various chemical reactions are initiated, the stability will be affected.
Looking at the structure of this compound, the methoxy group is the power supply group, which can increase the electron cloud density of the benzene ring and affect the reactivity of the benzene ring to a certain extent. Both chlorine atoms and trichloromethyl groups are electron-absorbing groups, which will reduce the electron cloud density of the benzene ring. A variety of groups coexist on the benzene ring and interact, resulting in complex chemical properties.
Generally speaking, the structure of the benzene ring itself has a certain stability. Due to the existence of the conjugate system, the electron is delocalized and the energy is However, the introduction of substituents in this compound may change its reaction check point and reactivity. For example, chlorine atoms can participate in nucleophilic substitution reactions, although the reaction conditions may be more harsh. The strong electron absorption of the trichloromethyl gene may affect the distribution of electron clouds in the ortho-para of the benzene ring, which in turn affects the regioselectivity of the electrophilic substitution reaction.
As for methoxy groups, it can enhance the density of electron clouds in the ortho-para of the benzene ring, making the position more prone to electrophilic substitution reactions. However, as a whole, whether the chemical properties of the compound are stable depends on the specific reaction conditions. At room temperature, pressure, and without the action of special reagents, it may be relatively stable. However, when exposed to high temperatures, strong acids, or specific catalysts, or various chemical reactions are initiated, the stability will be affected.
What is the production process of 2- (chloromethyl) -4-fluoro-1- (trifluoromethyl) benzene?
2-%28%E6%B0%AF%E7%94%B2%E5%9F%BA%29-4-%E6%B0%9F-1-%28%E4%B8%89%E6%B0%9F%E7%94%B2%E5%9F%BA%29%E8%8B%AF%E7%9A%84%E5%88%B6%E5%88%B6%E4%B8%8E%E5%88%B6%E6%B3%95%EF%BC%9A
To make 2 - (methoxy) - 4 - chloro - 1 - (trichloromethyl) benzene, it is necessary to follow a delicate method. The first step is to choose the appropriate raw materials and reagents.
First, benzene is used as the starting material and chlorine is used as the agent. Under specific reaction conditions, such as suitable temperature, pressure and catalyst environment, benzene is chlorinated. After this reaction, chlorobenzene can be obtained. The essence of this step is to precisely adjust the reaction parameters to ensure that the check point and degree of chlorination are as expected.
Then, the methoxy group is introduced to chlorobenzene. It can be achieved by nucleophilic substitution reaction. Appropriate methoxylation reagents are selected and reacted under suitable alkaline conditions. At this time, the strength of the base and the characteristics of the reaction solvent all have a great influence on the reaction process and product selectivity, and need to be carefully weighed.
As for the introduction of trichloromethyl, it is often through a specific reaction path. For example, the reaction of a specific halogen with a related reagent, in a suitable reaction system, promotes the successful connection of trichloromethyl to the benzene ring. This process requires careful consideration of the stability of the reaction intermediate, reactivity and many other factors to ensure that the reaction proceeds smoothly in the established direction.
During the entire preparation process, the precise control of the reaction conditions, the smooth connection of each step of the reaction, and the strict monitoring and removal of impurities are all the keys to preparing high-purity 2- (methoxy) -4-chloro-1- (trichloromethyl) benzene. Each step requires the care and ingenuity of the craftsman, just like carving beautiful jade, to achieve a good product.
To make 2 - (methoxy) - 4 - chloro - 1 - (trichloromethyl) benzene, it is necessary to follow a delicate method. The first step is to choose the appropriate raw materials and reagents.
First, benzene is used as the starting material and chlorine is used as the agent. Under specific reaction conditions, such as suitable temperature, pressure and catalyst environment, benzene is chlorinated. After this reaction, chlorobenzene can be obtained. The essence of this step is to precisely adjust the reaction parameters to ensure that the check point and degree of chlorination are as expected.
Then, the methoxy group is introduced to chlorobenzene. It can be achieved by nucleophilic substitution reaction. Appropriate methoxylation reagents are selected and reacted under suitable alkaline conditions. At this time, the strength of the base and the characteristics of the reaction solvent all have a great influence on the reaction process and product selectivity, and need to be carefully weighed.
As for the introduction of trichloromethyl, it is often through a specific reaction path. For example, the reaction of a specific halogen with a related reagent, in a suitable reaction system, promotes the successful connection of trichloromethyl to the benzene ring. This process requires careful consideration of the stability of the reaction intermediate, reactivity and many other factors to ensure that the reaction proceeds smoothly in the established direction.
During the entire preparation process, the precise control of the reaction conditions, the smooth connection of each step of the reaction, and the strict monitoring and removal of impurities are all the keys to preparing high-purity 2- (methoxy) -4-chloro-1- (trichloromethyl) benzene. Each step requires the care and ingenuity of the craftsman, just like carving beautiful jade, to achieve a good product.
What are the precautions for using 2- (chloromethyl) -4-fluoro-1- (trifluoromethyl) benzene?
2-% (cyanomethyl) -4-cyanogen-1- (tricyanomethyl) benzene, this is a chemical substance. During its use, many precautions need to be paid attention to.
First of all, because of its certain toxicity, protective measures must be taken during operation. Protective clothing, protective gloves and goggles should be worn to prevent the substance from coming into contact with the skin and eyes, causing poisoning or burns.
Secondly, this substance is often involved in chemical reaction operations, and the reaction conditions need to be strictly controlled. Temperature, pressure, reaction time and other factors will affect the reaction process and product formation. For example, if the temperature is too high or the reaction will go out of control, if it is too low, the reaction rate may be too slow and the desired effect cannot be achieved.
Furthermore, the use environment should not be ignored. It needs to be operated in a well-ventilated place to avoid the accumulation of volatile gases of the substance in a limited space and cause the risk of poisoning. At the same time, the operation area should be kept away from fire and heat sources, because it may be flammable, in case of open fire, hot topic or fire or even explosion accident.
In addition, after use, it is also crucial to dispose of the remaining substances and waste. It cannot be discarded at will, and it is necessary to follow relevant regulations and use appropriate methods for disposal to avoid pollution to the environment.
In addition, the operator should have professional knowledge and skills, and be systematically trained to be familiar with the nature, hazards and emergency treatment methods of the substance. In the event of an accident, it can respond promptly and correctly to minimize the consequences.
First of all, because of its certain toxicity, protective measures must be taken during operation. Protective clothing, protective gloves and goggles should be worn to prevent the substance from coming into contact with the skin and eyes, causing poisoning or burns.
Secondly, this substance is often involved in chemical reaction operations, and the reaction conditions need to be strictly controlled. Temperature, pressure, reaction time and other factors will affect the reaction process and product formation. For example, if the temperature is too high or the reaction will go out of control, if it is too low, the reaction rate may be too slow and the desired effect cannot be achieved.
Furthermore, the use environment should not be ignored. It needs to be operated in a well-ventilated place to avoid the accumulation of volatile gases of the substance in a limited space and cause the risk of poisoning. At the same time, the operation area should be kept away from fire and heat sources, because it may be flammable, in case of open fire, hot topic or fire or even explosion accident.
In addition, after use, it is also crucial to dispose of the remaining substances and waste. It cannot be discarded at will, and it is necessary to follow relevant regulations and use appropriate methods for disposal to avoid pollution to the environment.
In addition, the operator should have professional knowledge and skills, and be systematically trained to be familiar with the nature, hazards and emergency treatment methods of the substance. In the event of an accident, it can respond promptly and correctly to minimize the consequences.
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