Linshang Chemical
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1,3-Bis(Chloroethyl)Benzene
Linshang Chemical
|
HS Code |
298897 |
| Chemical Formula | C8H8Cl2 |
| Molar Mass | 175.055 g/mol |
| Appearance | Liquid (presumably, based on common organic compounds of this type) |
| Solubility In Water | Low (organic chlorinated compounds are generally hydrophobic) |
| Odor | Characteristic aromatic - chlorinated odor (common for such compounds) |
As an accredited 1,3-Bis(Chloroethyl)Benzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of 1,3 - bis(chloroethyl)benzene packaged in a sealed, labeled bottle. |
| Storage | 1,3 - bis(chloroethyl)benzene should be stored in a cool, dry, well - ventilated area, away from heat sources and open flames. It should be stored in a tightly - sealed container to prevent leakage and exposure to air and moisture. Keep it separated from oxidizing agents, acids, and bases to avoid potential chemical reactions. Label the storage container clearly for easy identification and safety. |
| Shipping | 1,3 - bis(chloroethyl)benzene is a chemical that requires careful shipping. It should be packaged in appropriate, leak - proof containers. Shipments must comply with hazardous material regulations, ensuring safe transportation to prevent environmental and safety risks. |
Competitive 1,3-Bis(Chloroethyl)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
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As a leading 1,3-Bis(Chloroethyl)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 1,3-bis (chloroethyl) benzene?
1% 2C3-bis (chloroethyl) benzene is 1,3-bis (chloroethyl) benzene, which is widely used.
In the field of organic synthesis, it often acts as a key intermediate. Due to the high activity of chloroethyl contained in the molecule, it can interact with various nucleophiles through many chemical reactions, such as nucleophilic substitution reactions. For example, it can react with alcohols under basic conditions to generate ether compounds; it can also react with amines to construct nitrogen-containing organic compounds, which is of great significance for the synthesis of organic molecules with specific structures and functions.
In the field of materials science, it can be used to prepare special polymer materials. By polymerizing with other monomers, polymer materials can be endowed with unique properties. For example, copolymerization with monomers containing double bonds can produce polymers with special chemical stability or thermal stability, which can be used in aerospace, electronics and other fields that require strict material properties.
In pharmaceutical chemistry, 1,3-bis (chloroethyl) benzene may exhibit certain biological activity after structural modification and modification. It may be used as a lead compound for further drug R & D process to develop new drugs for the treatment of diseases.
However, it should be noted that this substance contains chlorine atoms, and some reactions may produce toxic by-products. When using it, relevant safety regulations should be followed, and protective measures should be taken to ensure the safety of personnel and the environment.
In the field of organic synthesis, it often acts as a key intermediate. Due to the high activity of chloroethyl contained in the molecule, it can interact with various nucleophiles through many chemical reactions, such as nucleophilic substitution reactions. For example, it can react with alcohols under basic conditions to generate ether compounds; it can also react with amines to construct nitrogen-containing organic compounds, which is of great significance for the synthesis of organic molecules with specific structures and functions.
In the field of materials science, it can be used to prepare special polymer materials. By polymerizing with other monomers, polymer materials can be endowed with unique properties. For example, copolymerization with monomers containing double bonds can produce polymers with special chemical stability or thermal stability, which can be used in aerospace, electronics and other fields that require strict material properties.
In pharmaceutical chemistry, 1,3-bis (chloroethyl) benzene may exhibit certain biological activity after structural modification and modification. It may be used as a lead compound for further drug R & D process to develop new drugs for the treatment of diseases.
However, it should be noted that this substance contains chlorine atoms, and some reactions may produce toxic by-products. When using it, relevant safety regulations should be followed, and protective measures should be taken to ensure the safety of personnel and the environment.
What are the physical properties of 1,3-bis (chloroethyl) benzene
1% 2C3-bis (chloroethyl) benzene is 1,3-bis (chloroethyl) benzene. The physical properties of this substance are as follows:
It is mostly liquid at room temperature and pressure. Looking at its appearance, it is colorless to light yellow, clear and transparent, and seems to be shiny, just like ancient glaze, pure and agile.
Smell it, it has a special smell. Although this smell is not as pungent and intolerable as rancid, it is also unique and can spread leisurely in the air, which is felt by people.
On solubility, 1,3-bis (chloroethyl) benzene is slightly soluble in water. Water is the source of all things, and its nature is warm and moist. However, this substance and water are like two different sides of the line, and it is difficult to blend, and only a little can be dispersed in it. In organic solvents, such as alcohols, ethers, aromatics, etc., they can be freely dispersed and dissolved, and the two dissolve like water emulsion, without hindrance.
As for the melting point and boiling point, the melting point is low, and it is difficult to see it condense into a solid state at room temperature. The boiling point is relatively high, and to make it boil into a gaseous state, a higher temperature needs to be applied, and it takes some effort to achieve it.
Its density is higher than that of water. If it is placed in the same place as water, it will sink to the bottom like a stone and slowly settle to the bottom. The two layers are distinct.
The vapor pressure of this substance is small, and at room temperature, the rate of volatilization is relatively slow, and the concentration of steam in the air is relatively low.
The physical properties of 1,3-bis (chloroethyl) benzene have their unique significance in many fields such as chemical industry and scientific research, and are valued and studied by everyone.
It is mostly liquid at room temperature and pressure. Looking at its appearance, it is colorless to light yellow, clear and transparent, and seems to be shiny, just like ancient glaze, pure and agile.
Smell it, it has a special smell. Although this smell is not as pungent and intolerable as rancid, it is also unique and can spread leisurely in the air, which is felt by people.
On solubility, 1,3-bis (chloroethyl) benzene is slightly soluble in water. Water is the source of all things, and its nature is warm and moist. However, this substance and water are like two different sides of the line, and it is difficult to blend, and only a little can be dispersed in it. In organic solvents, such as alcohols, ethers, aromatics, etc., they can be freely dispersed and dissolved, and the two dissolve like water emulsion, without hindrance.
As for the melting point and boiling point, the melting point is low, and it is difficult to see it condense into a solid state at room temperature. The boiling point is relatively high, and to make it boil into a gaseous state, a higher temperature needs to be applied, and it takes some effort to achieve it.
Its density is higher than that of water. If it is placed in the same place as water, it will sink to the bottom like a stone and slowly settle to the bottom. The two layers are distinct.
The vapor pressure of this substance is small, and at room temperature, the rate of volatilization is relatively slow, and the concentration of steam in the air is relatively low.
The physical properties of 1,3-bis (chloroethyl) benzene have their unique significance in many fields such as chemical industry and scientific research, and are valued and studied by everyone.
Is 1,3-bis (chloroethyl) benzene chemically stable?
1% 2C3-bis (chloroethyl) benzene is 1,3-bis (chloroethyl) benzene. The chemical properties of this substance are relatively unstable.
Looking at its structure, it contains chloroethyl functional groups. The chlorine atom has electron-withdrawing properties, which makes the electron cloud in the molecule uneven. This structural property makes it easier to participate in chemical reactions.
In the nucleophilic substitution reaction, the chlorine atom can be used as a leaving group and replaced by a nucleophilic reagent. Due to the electron-withdrawing effect of the chlorine atom, the carbon atom connected to it is partially positively charged and vulnerable to attack by nucleophilic reagents.
Under certain conditions, 1,3-bis (chloroethyl) benzene may also undergo elimination reactions to remove hydrogen chloride and form products containing unsaturated bonds.
In addition, it is also sensitive to light and heat. When exposed to light or heat, the chemical bond energy in the molecule increases, and it is more prone to reactions such as cracking and rearrangement, resulting in chemical structure changes.
In summary, the chemical properties of 1,3-bis (chloroethyl) benzene are unstable, and it is easy to react chemically under many conditions and transform into other substances.
Looking at its structure, it contains chloroethyl functional groups. The chlorine atom has electron-withdrawing properties, which makes the electron cloud in the molecule uneven. This structural property makes it easier to participate in chemical reactions.
In the nucleophilic substitution reaction, the chlorine atom can be used as a leaving group and replaced by a nucleophilic reagent. Due to the electron-withdrawing effect of the chlorine atom, the carbon atom connected to it is partially positively charged and vulnerable to attack by nucleophilic reagents.
Under certain conditions, 1,3-bis (chloroethyl) benzene may also undergo elimination reactions to remove hydrogen chloride and form products containing unsaturated bonds.
In addition, it is also sensitive to light and heat. When exposed to light or heat, the chemical bond energy in the molecule increases, and it is more prone to reactions such as cracking and rearrangement, resulting in chemical structure changes.
In summary, the chemical properties of 1,3-bis (chloroethyl) benzene are unstable, and it is easy to react chemically under many conditions and transform into other substances.
What are the precautions for the production of 1,3-bis (chloroethyl) benzene?
1% 2C3 - bis (chloroethyl) benzene is 1,3 - bis (chloroethyl) benzene. During the production process, pay attention to all things.
First safety protection. This substance is toxic and irritating, and operators must wear complete protective equipment, such as gas masks, protective gloves and protective clothing, to prevent contact with the human body or inhalation, damage to health. And the workplace should ensure smooth ventilation and timely dissipation of volatile harmful gases.
The second is to precisely control the reaction conditions. Temperature, pressure, reaction time and the proportion of reactants all have a significant impact on the reaction process and product purity. If the temperature is too high or too low, it may cause side reactions to occur, reducing the yield and purity of the product; if the pressure is not suitable, it may also affect the reaction rate and direction. Therefore, the reaction conditions need to be precisely regulated in strict accordance with the established process parameters to ensure the stable progress of the reaction.
Furthermore, properly dispose of waste. Waste containing 1,3-bis (chloroethyl) benzene produced in the production process cannot be discarded at will. It should be specially collected, treated and disposed of in accordance with relevant environmental regulations. Due to its toxicity, if not disposed of properly, it will cause serious pollution to the environment and endanger the ecological balance.
Repeat, pay attention to equipment maintenance and inspection. Production equipment needs regular maintenance and inspection to ensure its normal operation. Prevent equipment leakage, causing 1,3-bis (chloroethyl) benzene to escape, causing safety and environmental problems. Once equipment failure or leakage is found, it should be stopped for maintenance immediately.
Finally, strengthen personnel training. Operators need to undergo professional training to be familiar with the properties of 1,3-bis (chloroethyl) benzene, production process, safety precautions and emergency treatment methods. After training, improve personnel safety awareness and operation skills to reduce accidents caused by human error.
First safety protection. This substance is toxic and irritating, and operators must wear complete protective equipment, such as gas masks, protective gloves and protective clothing, to prevent contact with the human body or inhalation, damage to health. And the workplace should ensure smooth ventilation and timely dissipation of volatile harmful gases.
The second is to precisely control the reaction conditions. Temperature, pressure, reaction time and the proportion of reactants all have a significant impact on the reaction process and product purity. If the temperature is too high or too low, it may cause side reactions to occur, reducing the yield and purity of the product; if the pressure is not suitable, it may also affect the reaction rate and direction. Therefore, the reaction conditions need to be precisely regulated in strict accordance with the established process parameters to ensure the stable progress of the reaction.
Furthermore, properly dispose of waste. Waste containing 1,3-bis (chloroethyl) benzene produced in the production process cannot be discarded at will. It should be specially collected, treated and disposed of in accordance with relevant environmental regulations. Due to its toxicity, if not disposed of properly, it will cause serious pollution to the environment and endanger the ecological balance.
Repeat, pay attention to equipment maintenance and inspection. Production equipment needs regular maintenance and inspection to ensure its normal operation. Prevent equipment leakage, causing 1,3-bis (chloroethyl) benzene to escape, causing safety and environmental problems. Once equipment failure or leakage is found, it should be stopped for maintenance immediately.
Finally, strengthen personnel training. Operators need to undergo professional training to be familiar with the properties of 1,3-bis (chloroethyl) benzene, production process, safety precautions and emergency treatment methods. After training, improve personnel safety awareness and operation skills to reduce accidents caused by human error.
What are the environmental effects of 1,3-bis (chloroethyl) benzene?
1% 2C3-bis (chloroethyl) benzene is 1,3-bis (chloroethyl) benzene, which is particularly important to the environment and cannot be ignored.
First, in the water environment, 1,3-bis (chloroethyl) benzene enters rivers, lakes and seas because it has certain chemical stability, is difficult to degrade naturally, or causes water pollution. Aquatic organisms are exposed to this pollutant, or cause physiological disorders. Such as fish, or damage their respiratory and reproductive systems, resulting in population impairment. And pass through the food chain to enrich, threatening higher organisms and even human health.
Second, the soil environment is also harmed by it. If substances containing 1,3-bis (chloroethyl) benzene penetrate into the soil, they will change the physical and chemical properties of the soil and affect the structure and function of the soil microbial community. Soil microorganisms are crucial to soil fertility and material circulation. If they are disturbed, they may cause soil fertility to decline, affect plant growth, and then affect the stability of terrestrial ecosystems.
Third, in the atmospheric environment, 1,3-bis (chloroethyl) benzene volatilizes into the air, or participates in photochemical reactions, generating secondary pollutants and aggravating air pollution. If people breathe in air containing this pollutant, it can irritate the respiratory tract, cause respiratory diseases, long-term exposure, or increase the risk of cancer.
In summary, 1,3-bis (chloroethyl) benzene can cause serious adverse effects on water, soil, and gas environments, and it needs to be properly controlled to prevent its spread from causing greater environmental harm.
First, in the water environment, 1,3-bis (chloroethyl) benzene enters rivers, lakes and seas because it has certain chemical stability, is difficult to degrade naturally, or causes water pollution. Aquatic organisms are exposed to this pollutant, or cause physiological disorders. Such as fish, or damage their respiratory and reproductive systems, resulting in population impairment. And pass through the food chain to enrich, threatening higher organisms and even human health.
Second, the soil environment is also harmed by it. If substances containing 1,3-bis (chloroethyl) benzene penetrate into the soil, they will change the physical and chemical properties of the soil and affect the structure and function of the soil microbial community. Soil microorganisms are crucial to soil fertility and material circulation. If they are disturbed, they may cause soil fertility to decline, affect plant growth, and then affect the stability of terrestrial ecosystems.
Third, in the atmospheric environment, 1,3-bis (chloroethyl) benzene volatilizes into the air, or participates in photochemical reactions, generating secondary pollutants and aggravating air pollution. If people breathe in air containing this pollutant, it can irritate the respiratory tract, cause respiratory diseases, long-term exposure, or increase the risk of cancer.
In summary, 1,3-bis (chloroethyl) benzene can cause serious adverse effects on water, soil, and gas environments, and it needs to be properly controlled to prevent its spread from causing greater environmental harm.
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