Linshang Chemical
PRODUCTS
Benzene, 1-Chloro-2-Ethenyl-
Linshang Chemical
|
HS Code |
578191 |
| Name | Benzene, 1-Chloro-2-Ethenyl- |
| Molecular Formula | C8H7Cl |
| Molar Mass | 138.59 g/mol |
| Appearance | Liquid |
| Odor | Aromatic |
| Boiling Point | 196 - 198 °C |
| Density | 1.07 g/cm³ |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in common organic solvents |
| Flash Point | 73 °C |
| Stability | Stable under normal conditions |
| Hazard Class | Flammable liquid, irritant |
As an accredited Benzene, 1-Chloro-2-Ethenyl- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500 - gram bottle of 1 - chloro - 2 - ethenyl - benzene, securely sealed for transport. |
| Storage | 1 - Chloro - 2 - ethenyl - benzene should be stored in a cool, well - ventilated area, away from heat sources and open flames. Keep it in a tightly sealed container to prevent vapor leakage. Store it separately from oxidizing agents, strong acids, and bases. The storage facility should be equipped with spill - containment measures to handle potential leaks safely. |
| Shipping | 1 - Chloro - 2 - ethenyl - benzene should be shipped in accordance with hazardous chemical regulations. Use well - sealed, corrosion - resistant containers. Ensure proper labeling indicating its hazardous nature and handle with care during transit to prevent spills and environmental or safety risks. |
Competitive Benzene, 1-Chloro-2-Ethenyl- 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 Benzene, 1-Chloro-2-Ethenyl- in China?
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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 Benzene, 1-Chloro-2-Ethenyl- 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 1-chloro-2-vinylbenzene?
This is a product called "1-alkane-2-ethylphenyl ether". It has a wide range of uses and has important functions in many fields.
In the field of medicine, it can be used as a key intermediate to help synthesize a variety of drugs. Because drug synthesis requires the precise construction of a specific chemical structure, the unique molecular structure of this product can provide the necessary infrastructure for the synthesis of certain specific drugs. By combining it with other chemicals through specific chemical reactions, drugs that have significant curative effects on specific diseases can be prepared, or help relieve pain and treat diseases.
In the fragrance industry, it also plays an indispensable role. Due to its unique odor characteristics, it can be formulated as part of the fragrance formula. Or add the finishing touch to the formulation of perfumes, air fresheners and other products with unique aromas, giving the product a unique and attractive fragrance to meet consumers' diverse needs for aroma.
In the field of industrial production, it can act as a solvent or auxiliary agent. In some chemical reactions, it can dissolve other substances as a solvent to promote the smooth progress of the reaction and improve the efficiency and quality of the reaction. As an auxiliary agent, it may enhance some properties of the product, such as stability, solubility, etc., to help industrial production produce products that meet requirements more efficiently and stably.
It can be seen that "1-alkane-2-ethylphenyl ether" plays an important role in medicine, fragrance, industry and many other aspects, and is of great significance to the development of related fields.
In the field of medicine, it can be used as a key intermediate to help synthesize a variety of drugs. Because drug synthesis requires the precise construction of a specific chemical structure, the unique molecular structure of this product can provide the necessary infrastructure for the synthesis of certain specific drugs. By combining it with other chemicals through specific chemical reactions, drugs that have significant curative effects on specific diseases can be prepared, or help relieve pain and treat diseases.
In the fragrance industry, it also plays an indispensable role. Due to its unique odor characteristics, it can be formulated as part of the fragrance formula. Or add the finishing touch to the formulation of perfumes, air fresheners and other products with unique aromas, giving the product a unique and attractive fragrance to meet consumers' diverse needs for aroma.
In the field of industrial production, it can act as a solvent or auxiliary agent. In some chemical reactions, it can dissolve other substances as a solvent to promote the smooth progress of the reaction and improve the efficiency and quality of the reaction. As an auxiliary agent, it may enhance some properties of the product, such as stability, solubility, etc., to help industrial production produce products that meet requirements more efficiently and stably.
It can be seen that "1-alkane-2-ethylphenyl ether" plays an important role in medicine, fragrance, industry and many other aspects, and is of great significance to the development of related fields.
What are the physical properties of 1-chloro-2-vinylbenzene?
Halogenated ethane, that is, monohalogenated ethane and dihalogenated ethyl phenyl ether, are both organic compounds and have their own physical properties.
Monohalogenated ethane, taking chloroethane as an example, appears as a colorless gas with an ether-like odor at room temperature and pressure, or under appropriate conditions as a flowable colorless liquid. Its boiling point is quite special, and the boiling point of chloroethane is about 12.3 ° C, which allows it to quickly gasify at slightly higher than room temperature. Its density is slightly smaller than that of water, slightly soluble in water, but highly soluble in a variety of organic solvents, such as ethanol and ether. Because it is volatile and absorbs a lot of heat when vaporized, it is often used as a local cryogenic anesthetic in the medical field.
Dihalogenated ethyl phenyl ether, the appearance is often colorless to light yellow transparent liquid, and the smell is unique. Its boiling point is relatively high, generally in the range of 180-250 ° C, which indicates that it is more stable at room temperature and is not easy to volatilize. Dihalogenated ethyl phenyl ether has a density greater than that of water and is difficult to dissolve in water, but it has good solubility in organic solvents such as aromatics and halogenated hydrocarbons. Because of its special chemical structure, it has certain chemical stability and flame retardant properties, and is often used in some industrial fields that require high stability and fire protection, such as as as a special solvent or added to some fireproof materials.
The difference in the physical properties of the two is due to the difference in molecular structure. The monohalogenated ethane molecule is relatively simple, and the halogen atom is directly attached to the carbon atom of ethane; while the dihalogenated ethyl phenyl ether molecule contains not only halogen atoms, but also complex phenyl structures, which not only increases the relative mass of the molecule, but also changes the forces between molecules, resulting in significant differences in physical properties such as boiling point, density, and solubility.
Monohalogenated ethane, taking chloroethane as an example, appears as a colorless gas with an ether-like odor at room temperature and pressure, or under appropriate conditions as a flowable colorless liquid. Its boiling point is quite special, and the boiling point of chloroethane is about 12.3 ° C, which allows it to quickly gasify at slightly higher than room temperature. Its density is slightly smaller than that of water, slightly soluble in water, but highly soluble in a variety of organic solvents, such as ethanol and ether. Because it is volatile and absorbs a lot of heat when vaporized, it is often used as a local cryogenic anesthetic in the medical field.
Dihalogenated ethyl phenyl ether, the appearance is often colorless to light yellow transparent liquid, and the smell is unique. Its boiling point is relatively high, generally in the range of 180-250 ° C, which indicates that it is more stable at room temperature and is not easy to volatilize. Dihalogenated ethyl phenyl ether has a density greater than that of water and is difficult to dissolve in water, but it has good solubility in organic solvents such as aromatics and halogenated hydrocarbons. Because of its special chemical structure, it has certain chemical stability and flame retardant properties, and is often used in some industrial fields that require high stability and fire protection, such as as as a special solvent or added to some fireproof materials.
The difference in the physical properties of the two is due to the difference in molecular structure. The monohalogenated ethane molecule is relatively simple, and the halogen atom is directly attached to the carbon atom of ethane; while the dihalogenated ethyl phenyl ether molecule contains not only halogen atoms, but also complex phenyl structures, which not only increases the relative mass of the molecule, but also changes the forces between molecules, resulting in significant differences in physical properties such as boiling point, density, and solubility.
Is 1-chloro-2-vinylbenzene chemically stable?
Is 1 + -deuterium-2-ethylfuranyl ether stable?
Deuterium is also an isotope of hydrogen, and its nucleus has more neutrons than hydrogen. In chemicals, the introduction of deuterium often changes its physical properties and chemical properties. Due to the slightly higher energy of deuterium-hydrogen bonds than hydrogen-hydrogen bonds, compounds containing deuterium may have higher stability, and the rate may be different from those containing hydrogen in some reactions.
Ethylfuranyl ether is an ether compound containing furan rings and ethyl groups. Furan rings are aromatic, but they are less aromatic than benzene rings, and the density distribution of electron clouds on the rings is different, making them prone to electrophilic substitution reactions. The ether bond (C-O-C) has a certain polarity and can affect the intermolecular force.
However, when it comes to 1-deuterium-2-ethylfuran ether, its stability depends on multiple factors. From the perspective of deuteration, as mentioned earlier, the deuterium-carbon bond is enhanced or contributes to the stability of the overall structure. However, the presence of the furan ring in the ethylfuran ether part makes the molecule active to a certain extent. In case of strong acid or strong oxidant, the furan ring may be destroyed. And the ether bond can be cracked under specific conditions, such as high temperature and strong acid catalysis.
Overall, the stability of 1-deuterium-2-ethylfuranyl ether is not absolute. Under mild conditions, it is slightly more stable than ordinary hydrogen substitutes due to deuteration effect. However, under severe reaction conditions, such as strong acid and strong oxidation environment, the inherent reactivity of the furan ring and ether bond or its structure changes, resulting in reduced stability.
Deuterium is also an isotope of hydrogen, and its nucleus has more neutrons than hydrogen. In chemicals, the introduction of deuterium often changes its physical properties and chemical properties. Due to the slightly higher energy of deuterium-hydrogen bonds than hydrogen-hydrogen bonds, compounds containing deuterium may have higher stability, and the rate may be different from those containing hydrogen in some reactions.
Ethylfuranyl ether is an ether compound containing furan rings and ethyl groups. Furan rings are aromatic, but they are less aromatic than benzene rings, and the density distribution of electron clouds on the rings is different, making them prone to electrophilic substitution reactions. The ether bond (C-O-C) has a certain polarity and can affect the intermolecular force.
However, when it comes to 1-deuterium-2-ethylfuran ether, its stability depends on multiple factors. From the perspective of deuteration, as mentioned earlier, the deuterium-carbon bond is enhanced or contributes to the stability of the overall structure. However, the presence of the furan ring in the ethylfuran ether part makes the molecule active to a certain extent. In case of strong acid or strong oxidant, the furan ring may be destroyed. And the ether bond can be cracked under specific conditions, such as high temperature and strong acid catalysis.
Overall, the stability of 1-deuterium-2-ethylfuranyl ether is not absolute. Under mild conditions, it is slightly more stable than ordinary hydrogen substitutes due to deuteration effect. However, under severe reaction conditions, such as strong acid and strong oxidation environment, the inherent reactivity of the furan ring and ether bond or its structure changes, resulting in reduced stability.
What is the production process of 1-chloro-2-vinylbenzene?
The production process of halogenated diisopropylbenzene is very complicated, and it needs to be carefully controlled.
The first is to prepare the raw materials. Propylene and benzene with high purity need to be selected. These two are the basic raw materials for halogenated diisopropylbenzene, and their purity is directly related to the quality of the product. Benzene needs to go through multiple refining processes to remove impurities such as sulfur and nitrogen, and propylene must also meet the corresponding purity standards before it can be put into the subsequent reaction.
Then it is alkylated. Benzene and propylene are introduced into the reaction kettle in a specific ratio to catalyze with excellent activity. In this process, temperature and pressure control are crucial. If the temperature is too high, it is easy to cause frequent side reactions and increase the impurities of the product; if the temperature is too low, the reaction rate will be slow, which will affect the production efficiency. The pressure also needs to be precisely adjusted to ensure that the reaction advances smoothly in the direction of generating isopropylbenzene. After this reaction, the product of isopropylbenzene is obtained.
is followed by a halogenation reaction. Introduce the isopropylbenzene into the halogenation device and add an appropriate amount of halogenating agent. The type and dosage of the halogenating agent depend on the specific requirements of the target product halodiisopropylbenzene. During the reaction, the reaction process needs to be closely monitored. By adjusting the reaction conditions, such as temperature and reaction time, etc., to ensure that the halogenation reaction is sufficient and accurate to generate the required halodiisopropylbenz After the reaction is completed, the resulting mixed system contains halogenated diisopropylbenzene and unreacted raw materials, by-products, etc. First, the unreacted benzene and propylene are separated by distillation and other means, and recycled and reused to reduce cost and increase efficiency. After extraction, crystallization and other refining processes, by-products and impurities are removed to obtain high-purity halogenated diisopropylbenzene products.
The production process of this halogenated diisopropylbenzene, each step is interconnected, and any deviation in any link can affect the quality and output of the product. Therefore, strict operation and fine regulation are required during production to obtain high-quality halogenated diisopropylbenzene.
The first is to prepare the raw materials. Propylene and benzene with high purity need to be selected. These two are the basic raw materials for halogenated diisopropylbenzene, and their purity is directly related to the quality of the product. Benzene needs to go through multiple refining processes to remove impurities such as sulfur and nitrogen, and propylene must also meet the corresponding purity standards before it can be put into the subsequent reaction.
Then it is alkylated. Benzene and propylene are introduced into the reaction kettle in a specific ratio to catalyze with excellent activity. In this process, temperature and pressure control are crucial. If the temperature is too high, it is easy to cause frequent side reactions and increase the impurities of the product; if the temperature is too low, the reaction rate will be slow, which will affect the production efficiency. The pressure also needs to be precisely adjusted to ensure that the reaction advances smoothly in the direction of generating isopropylbenzene. After this reaction, the product of isopropylbenzene is obtained.
is followed by a halogenation reaction. Introduce the isopropylbenzene into the halogenation device and add an appropriate amount of halogenating agent. The type and dosage of the halogenating agent depend on the specific requirements of the target product halodiisopropylbenzene. During the reaction, the reaction process needs to be closely monitored. By adjusting the reaction conditions, such as temperature and reaction time, etc., to ensure that the halogenation reaction is sufficient and accurate to generate the required halodiisopropylbenz After the reaction is completed, the resulting mixed system contains halogenated diisopropylbenzene and unreacted raw materials, by-products, etc. First, the unreacted benzene and propylene are separated by distillation and other means, and recycled and reused to reduce cost and increase efficiency. After extraction, crystallization and other refining processes, by-products and impurities are removed to obtain high-purity halogenated diisopropylbenzene products.
The production process of this halogenated diisopropylbenzene, each step is interconnected, and any deviation in any link can affect the quality and output of the product. Therefore, strict operation and fine regulation are required during production to obtain high-quality halogenated diisopropylbenzene.
What are the precautions for using 1-chloro-2-vinylbenzene?
Nowadays, there are some ethanol-based benzene compounds, so please pay attention to them when using them.
First of all, this substance is flammable. It is a flammable substance, and ethanol-based benzene is also a flammable substance. Therefore, in the place where it is used, it must be exposed to open flames, high temperatures and general ignition sources. If it is close to a fire, it may cause intense combustion, which may even lead to an explosion, endangering the safety of human life and materials.
Second, both are toxic. It is easy to escape in the air, and the evaporation of ethanol-based benzene is also diffuse. Dense air, its density is easy to gather, and it will be dangerous when it encounters a fire source. It is to use the air, and the air is good, so that the air can be dissipated and dissipated, reducing the explosion and poisoning.
Furthermore, ethanol-based benzene also has an impact on human health. It is poisonous, but inhaled in large quantities, causing asphyxiation. The vapor of ethanol-based benzene can irritate the eyes, respiratory tract, etc. Exposure to it during the period, or damage the nervous system, liver and other organs. Therefore, the operation is necessary to take proper precautions, such as gas masks, eyes, anti-clothing, etc., to ensure personal safety.
In addition, in terms of storage, it should not be ignored. It should be stored in a bottle for use, and placed in a bottle. It is not suitable to use it. It should be kept in a sealed container to avoid high temperatures, open flames, and to prevent oxidation, acid and other substances from reacting.
In addition, if you use this product, you must be familiar with the operation process and follow the correct method. People who have not yet used it should not use it without authorization. In the event of an accident such as a leak, you can quickly take urgent measures, such as evacuating the crowd, cutting off the source of fire, adding communication, etc., and report it to the public.
First of all, this substance is flammable. It is a flammable substance, and ethanol-based benzene is also a flammable substance. Therefore, in the place where it is used, it must be exposed to open flames, high temperatures and general ignition sources. If it is close to a fire, it may cause intense combustion, which may even lead to an explosion, endangering the safety of human life and materials.
Second, both are toxic. It is easy to escape in the air, and the evaporation of ethanol-based benzene is also diffuse. Dense air, its density is easy to gather, and it will be dangerous when it encounters a fire source. It is to use the air, and the air is good, so that the air can be dissipated and dissipated, reducing the explosion and poisoning.
Furthermore, ethanol-based benzene also has an impact on human health. It is poisonous, but inhaled in large quantities, causing asphyxiation. The vapor of ethanol-based benzene can irritate the eyes, respiratory tract, etc. Exposure to it during the period, or damage the nervous system, liver and other organs. Therefore, the operation is necessary to take proper precautions, such as gas masks, eyes, anti-clothing, etc., to ensure personal safety.
In addition, in terms of storage, it should not be ignored. It should be stored in a bottle for use, and placed in a bottle. It is not suitable to use it. It should be kept in a sealed container to avoid high temperatures, open flames, and to prevent oxidation, acid and other substances from reacting.
In addition, if you use this product, you must be familiar with the operation process and follow the correct method. People who have not yet used it should not use it without authorization. In the event of an accident such as a leak, you can quickly take urgent measures, such as evacuating the crowd, cutting off the source of fire, adding communication, etc., and report it to the public.
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