Linshang Chemical
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1-Chloro-4-(Trifluoromethyl)Benzene
Linshang Chemical
|
HS Code |
988964 |
| Chemical Formula | C7H4ClF3 |
| Molar Mass | 180.553 g/mol |
| Appearance | Colorless liquid |
| Boiling Point | 139 - 140 °C |
| Melting Point | -32 °C |
| Density | 1.336 g/mL at 25 °C |
| Solubility In Water | Insoluble |
| Vapor Pressure | 1.44 kPa at 25 °C |
| Flash Point | 36 °C |
| Refractive Index | 1.4366 at 20 °C |
As an accredited 1-Chloro-4-(Trifluoromethyl)Benzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 - chloro - 4 - (trifluoromethyl)benzene in 5 - liter sealed, chemical - resistant containers. |
| Storage | 1 - Chloro - 4 - (trifluoromethyl)benzene should be stored in a cool, well - ventilated area, away from heat sources and open flames. Keep it in a tightly sealed container, preferably made of corrosion - resistant materials like stainless steel or certain plastics. Store it separately from oxidizing agents and reactive chemicals to prevent potential hazardous reactions. |
| Shipping | 1 - Chloro - 4 - (trifluoromethyl)benzene is shipped in well - sealed, corrosion - resistant containers. Special care is taken to prevent leakage during transit, following strict hazardous chemical shipping regulations. |
Competitive 1-Chloro-4-(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 1-Chloro-4-(Trifluoromethyl)Benzene in China?
As a trusted 1-Chloro-4-(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-Chloro-4-(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-chloro-4- (trifluoromethyl) benzene?
1-Cyanogen-4- (trifluoromethyl) benzene has a wide range of main uses. In the field of pharmaceutical synthesis, this compound is often used as a key intermediate. Due to the special properties of trifluoromethyl, it can significantly change the physical, chemical and biological activities of drug molecules. By introducing this group, it can enhance the lipid solubility of drugs, making it easier to penetrate biofilms, thereby improving bioavailability. For example, in the development of certain antiviral and anti-tumor drugs, intermediates derived from 1-cyanogen-4- (trifluoromethyl) benzene can be cleverly designed and spliced with other structural fragments to construct highly active drug molecules.
It also plays an important role in the field of materials science. Because it contains cyano and trifluoromethyl groups, it can give the material unique properties. When synthesizing high-performance polymer materials, this compound is introduced as a monomer or modifier to improve the heat resistance, chemical corrosion resistance and mechanical properties of the polymer. For example, when preparing special engineering plastics, adding an appropriate amount of monomers containing 1-cyano-4- (trifluoromethyl) benzene structure can improve the strength and stability of the plastic, making it suitable for more severe working environments, such as aerospace, electronics and other fields that require extremely high material properties.
In the creation of pesticides, 1-cyanogen-4- (trifluoromethyl) benzene also plays a role that cannot be ignored. Trifluoromethyl has strong electron-absorbing properties and special reactivity of cyanyl groups, making it an important structural unit for the design of high-efficiency and low-toxicity pesticides. Pesticides developed on the basis of it have stronger contact, stomach toxicity and internal absorption activities to pests, and can effectively reduce environmental pollution and toxicity to non-target organisms, contributing to the sustainable development of agriculture.
It also plays an important role in the field of materials science. Because it contains cyano and trifluoromethyl groups, it can give the material unique properties. When synthesizing high-performance polymer materials, this compound is introduced as a monomer or modifier to improve the heat resistance, chemical corrosion resistance and mechanical properties of the polymer. For example, when preparing special engineering plastics, adding an appropriate amount of monomers containing 1-cyano-4- (trifluoromethyl) benzene structure can improve the strength and stability of the plastic, making it suitable for more severe working environments, such as aerospace, electronics and other fields that require extremely high material properties.
In the creation of pesticides, 1-cyanogen-4- (trifluoromethyl) benzene also plays a role that cannot be ignored. Trifluoromethyl has strong electron-absorbing properties and special reactivity of cyanyl groups, making it an important structural unit for the design of high-efficiency and low-toxicity pesticides. Pesticides developed on the basis of it have stronger contact, stomach toxicity and internal absorption activities to pests, and can effectively reduce environmental pollution and toxicity to non-target organisms, contributing to the sustainable development of agriculture.
What are the physical properties of 1-chloro-4- (trifluoromethyl) benzene?
1-% -4- (triethylmethyl) silicon is a silicon compound. Its physical properties are special, let me mention.
The first thing to say about its appearance is that it is often a transparent liquid, which is clear and clear. If the morning dew is condensed, clear and clear, it can be used to improve its performance.
and boiling, due to the existence of triethyl methyl in the molecule, so that the boiling value has a specific value. The molecular force of this compound has a certain degree of force, resulting in a high boiling rate. Only with a high degree of force can it be melted from a liquid to a beam of molecules.
Melting is also one of its important physical properties. Due to the characteristics of molecular arrangement and interaction, its melting value also has a certain value. In the low temperature environment, the molecules are arranged in an orderly manner, and when they reach the melting level, they begin to have solid-to-liquid dissolution.
Furthermore, its density can also be low. With respect to normal substances such as water, 1-% -4- (triethylmethyl) silicon has a specific density due to the atom and dissolution, or is slightly heavier or slightly heavier. This property is important for both multi-purpose and industrial applications.
In terms of solubility, this compound exhibits good solubility on the surface due to its own solubility. For example, in ethanol, ether, etc., which are often soluble, they can be uniformly dispersed, just like water emulsion, but the solubility in water is not good. Because of the molecular force of water molecules to overcome the force of their own molecules, they are soluble in water.
In addition, the low performance of 1-% -4- (triethylmethyl) silicon is low. Because of the presence of a certain degree of force on the molecule, the degree of ease of molecular exudate on the surface is limited, so the solubility is not high. Under normal conditions, the liquid can be maintained.
The first thing to say about its appearance is that it is often a transparent liquid, which is clear and clear. If the morning dew is condensed, clear and clear, it can be used to improve its performance.
and boiling, due to the existence of triethyl methyl in the molecule, so that the boiling value has a specific value. The molecular force of this compound has a certain degree of force, resulting in a high boiling rate. Only with a high degree of force can it be melted from a liquid to a beam of molecules.
Melting is also one of its important physical properties. Due to the characteristics of molecular arrangement and interaction, its melting value also has a certain value. In the low temperature environment, the molecules are arranged in an orderly manner, and when they reach the melting level, they begin to have solid-to-liquid dissolution.
Furthermore, its density can also be low. With respect to normal substances such as water, 1-% -4- (triethylmethyl) silicon has a specific density due to the atom and dissolution, or is slightly heavier or slightly heavier. This property is important for both multi-purpose and industrial applications.
In terms of solubility, this compound exhibits good solubility on the surface due to its own solubility. For example, in ethanol, ether, etc., which are often soluble, they can be uniformly dispersed, just like water emulsion, but the solubility in water is not good. Because of the molecular force of water molecules to overcome the force of their own molecules, they are soluble in water.
In addition, the low performance of 1-% -4- (triethylmethyl) silicon is low. Because of the presence of a certain degree of force on the molecule, the degree of ease of molecular exudate on the surface is limited, so the solubility is not high. Under normal conditions, the liquid can be maintained.
Is 1-chloro-4- (trifluoromethyl) benzene chemically stable?
Is the chemical property of 1-% deuterium-4- (triethylmethyl) naphthalene stable? This is a question related to the characteristics of the substance and must be considered in detail.
The stability of a chemical substance depends on its molecular structure and chemical bond energy. 1-% deuterium-4- (triethylmethyl) naphthalene, deuterium, is an isotope of hydrogen. Compared with hydrogen, its mass is different, but its chemical properties are similar, only in reactions involving isotopic effects. In this compound, the introduction of deuterium has no significant impact on the overall stability.
In addition, the 4- (triethylmethyl) naphthalene part, naphthalene is an aromatic hydrocarbon with a conjugated system, and this conjugated structure gives it a certain stability. The presence of triethylmethyl, although side chains are added, is connected to the naphthalene ring, and the carbon-carbon and carbon-hydrogen bonds of the side chains are difficult to break easily without extreme conditions.
However, the stability is not absolute. If placed in an environment of high temperature, strong acid and base, strong oxidants or reducing agents, its structure or chemical bonds are also at risk of being damaged. Under high temperatures, molecular kinetic energy increases sharply, and chemical bonds may break due to sufficient energy; strong acids and bases can cause acid-base catalyzed reactions, causing their structures to change; strong oxidative reducing agents can cause oxidation-reduction reactions, changing the composition and structure of compounds.
Therefore, the chemical properties of 1-% deuterium-4- (triethylmethyl) naphthalene can be said to be stable under normal mild conditions; in severe reaction conditions, its stability is difficult to preserve. The change in its stability must be carefully investigated according to the specific environment and the reaction involved.
The stability of a chemical substance depends on its molecular structure and chemical bond energy. 1-% deuterium-4- (triethylmethyl) naphthalene, deuterium, is an isotope of hydrogen. Compared with hydrogen, its mass is different, but its chemical properties are similar, only in reactions involving isotopic effects. In this compound, the introduction of deuterium has no significant impact on the overall stability.
In addition, the 4- (triethylmethyl) naphthalene part, naphthalene is an aromatic hydrocarbon with a conjugated system, and this conjugated structure gives it a certain stability. The presence of triethylmethyl, although side chains are added, is connected to the naphthalene ring, and the carbon-carbon and carbon-hydrogen bonds of the side chains are difficult to break easily without extreme conditions.
However, the stability is not absolute. If placed in an environment of high temperature, strong acid and base, strong oxidants or reducing agents, its structure or chemical bonds are also at risk of being damaged. Under high temperatures, molecular kinetic energy increases sharply, and chemical bonds may break due to sufficient energy; strong acids and bases can cause acid-base catalyzed reactions, causing their structures to change; strong oxidative reducing agents can cause oxidation-reduction reactions, changing the composition and structure of compounds.
Therefore, the chemical properties of 1-% deuterium-4- (triethylmethyl) naphthalene can be said to be stable under normal mild conditions; in severe reaction conditions, its stability is difficult to preserve. The change in its stability must be carefully investigated according to the specific environment and the reaction involved.
What are the production methods of 1-chloro-4- (trifluoromethyl) benzene?
The method of manufacturing 1-% -4- (triethylmethyl) silicon is commonly used as follows:
First, it can be synthesized. With a specific silicon compound as the starting material, it can be biochemically reacted under the appropriate reaction conditions. For example, take a silane derivative containing triethylmethyl group, place it in the solution of the compound, and add a specific catalyst. This catalyst needs to be carefully selected according to the reaction requirements, or a gold catalyst, or a catalytic catalyst, etc., to control the reaction degree and reaction, so that the raw material is gradually reacted to 1-% -4- (triethylmethyl) silicon. In this process, the solubility is also very important, and it needs to have good solubility, and it is not necessary to produce side effects of reactants and reactants.
Second, the means of gold melting can be used. Interact with silicon-containing compounds of gold. For example, the silane containing specific substituents is inverted with gold compounds formed by gold, gold and other gold compounds. This reaction usually needs to be carried out in the environment of water and oxygen to avoid inactivation due to the reaction of gold, water and oxygen. Through a reasonable reaction method, the gold-based compounds are gradually introduced into the silicon atoms, and the most important substance is 1-% -4- (triethylmethyl) silicon.
Third, there is also a multi-step functionalization method based on silicon sources. First, the silicon source is initially modified to introduce functionalities that are easy to reverse. This function can be used in the reversal process to replace, eliminate and other reactions, and gradually build 1-% -4- (triethylmethyl) silicon molecules. Each step requires precise control of the reaction components, including the proportion of reactants, the degree of reactance, the degree of reactance, and the catalytic or catalytic properties used, etc., to ensure the high efficiency of the reaction, and the highest degree of 1-% -4- (triethylmethyl) silicon.
First, it can be synthesized. With a specific silicon compound as the starting material, it can be biochemically reacted under the appropriate reaction conditions. For example, take a silane derivative containing triethylmethyl group, place it in the solution of the compound, and add a specific catalyst. This catalyst needs to be carefully selected according to the reaction requirements, or a gold catalyst, or a catalytic catalyst, etc., to control the reaction degree and reaction, so that the raw material is gradually reacted to 1-% -4- (triethylmethyl) silicon. In this process, the solubility is also very important, and it needs to have good solubility, and it is not necessary to produce side effects of reactants and reactants.
Second, the means of gold melting can be used. Interact with silicon-containing compounds of gold. For example, the silane containing specific substituents is inverted with gold compounds formed by gold, gold and other gold compounds. This reaction usually needs to be carried out in the environment of water and oxygen to avoid inactivation due to the reaction of gold, water and oxygen. Through a reasonable reaction method, the gold-based compounds are gradually introduced into the silicon atoms, and the most important substance is 1-% -4- (triethylmethyl) silicon.
Third, there is also a multi-step functionalization method based on silicon sources. First, the silicon source is initially modified to introduce functionalities that are easy to reverse. This function can be used in the reversal process to replace, eliminate and other reactions, and gradually build 1-% -4- (triethylmethyl) silicon molecules. Each step requires precise control of the reaction components, including the proportion of reactants, the degree of reactance, the degree of reactance, and the catalytic or catalytic properties used, etc., to ensure the high efficiency of the reaction, and the highest degree of 1-% -4- (triethylmethyl) silicon.
What are the precautions for storing and transporting 1-chloro-4- (trifluoromethyl) benzene?
1-% -4- (triethyl) naphthalene should be paid attention to in the storage environment. This is an important matter for the management of the chemical material, and there is a slight difference, or it may cause the situation.
The storage environment, the first important environment. It is suitable for dry, dry, and good places. If the environment is wet, 1-% -4- (triethyl) naphthalene or water vapor will react, causing its properties to be changed. It can avoid its decomposition due to high temperature, spontaneous combustion and other things. Good communication and dissipation may be harmful, and it is safe to keep empty.
Furthermore, the storage container should not be ignored. The use of corrosion-resistant materials, because 1-% -4- (triethyl methyl) naphthalene may have a certain degree of corrosion, ordinary containers may be subject to its chemical effect. And the container should be sealed to prevent the outside of the object, not only the material, but also the environment, and even lead to safety hazards.
On the way to the warehouse, there are also general investigations. The tools need to be cleaned to avoid other materials from mixing with 1-% -4- (triethyl methyl) naphthalene, which can lead to accidental reactions. And this object should be properly fixed to prevent the container from being damaged and leaking due to bumping and collision.
People must wear protective clothing, gloves, gas masks, etc. This is not only for its own safety, but also to prevent leakage pollution caused by human factors. In addition, it is necessary to be familiar with the relevant emergency measures to prevent accidents such as leakage, which can be carried out quickly and with less harm. Therefore, the storage of 1-% -4- (triethylmethyl) naphthalene should be carefully to ensure safety.
The storage environment, the first important environment. It is suitable for dry, dry, and good places. If the environment is wet, 1-% -4- (triethyl) naphthalene or water vapor will react, causing its properties to be changed. It can avoid its decomposition due to high temperature, spontaneous combustion and other things. Good communication and dissipation may be harmful, and it is safe to keep empty.
Furthermore, the storage container should not be ignored. The use of corrosion-resistant materials, because 1-% -4- (triethyl methyl) naphthalene may have a certain degree of corrosion, ordinary containers may be subject to its chemical effect. And the container should be sealed to prevent the outside of the object, not only the material, but also the environment, and even lead to safety hazards.
On the way to the warehouse, there are also general investigations. The tools need to be cleaned to avoid other materials from mixing with 1-% -4- (triethyl methyl) naphthalene, which can lead to accidental reactions. And this object should be properly fixed to prevent the container from being damaged and leaking due to bumping and collision.
People must wear protective clothing, gloves, gas masks, etc. This is not only for its own safety, but also to prevent leakage pollution caused by human factors. In addition, it is necessary to be familiar with the relevant emergency measures to prevent accidents such as leakage, which can be carried out quickly and with less harm. Therefore, the storage of 1-% -4- (triethylmethyl) naphthalene should be carefully to ensure safety.
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