Linshang Chemical
PRODUCTS
Benzene, 1,3-Dichloro-2-Ethenyl-
Linshang Chemical
|
HS Code |
833377 |
| Chemical Formula | C8H6Cl2 |
| Molecular Weight | 173.04 g/mol |
| Physical State | Solid (usually) |
| Appearance | White to off - white solid |
| Boiling Point | Approximately 262 - 264 °C |
| Melting Point | 60 - 62 °C |
| Solubility In Water | Low solubility in water |
| Solubility In Organic Solvents | Soluble in many organic solvents like ethanol, benzene |
| Odor | Characteristic aromatic odor |
| Density | 1.38 g/cm³ (approximate) |
| Vapor Pressure | Low vapor pressure at room temperature |
| Flash Point | 121 °C (approximate) |
As an accredited Benzene, 1,3-Dichloro-2-Ethenyl- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 - gram bottle of 1,3 - dichloro - 2 - ethenyl - benzene with tight - sealed packaging. |
| Storage | Store "Benzene, 1,3 - dichloro - 2 - ethenyl -" in a cool, well - ventilated area away from heat, sparks, and open flames. Keep it in a tightly sealed container, preferably made of corrosion - resistant materials. Separate it from oxidizing agents, acids, and bases to prevent reactions. Ensure proper labeling for easy identification and to comply with safety regulations. |
| Shipping | 1,3 - Dichloro - 2 - ethenyl - benzene should be shipped in accordance with hazardous chemical regulations. It must be in properly sealed, corrosion - resistant containers, and transported by carriers licensed for such chemicals, with safety measures in place. |
Competitive Benzene, 1,3-Dichloro-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.
We will respond to you as soon as possible.
Tel: +8615365006308
Email: info@alchemist-chem.com
Where to Buy Benzene, 1,3-Dichloro-2-Ethenyl- in China?
As a trusted Benzene, 1,3-Dichloro-2-Ethenyl- manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery.
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, 1,3-Dichloro-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 are the chemical properties of this product 1,3-dichloro-2-vinylbenzene
This is an investigation into the chemical properties of 1,3-dioxy-2-ethylphenyl ether. This compound contains a dioxy structure and an ethyl phenyl ether group, and its chemical properties are unique.
From the structural point of view, the dioxy structure endows it with a certain stability. The bonds between the dioxy atoms make the molecular skeleton more stable. And this structure affects the polarity of the molecule, which is reflected in both chemical reactions and physical properties. The change in polarity makes it unusually soluble in solvents.
Ethyl phenyl ether part, ethyl is alkyl, which has a certain donator property. Phenyl is an aromatic ring, an electron-rich conjugate system. The two are connected, making this compound chemically active.
In the electrophilic substitution reaction, the electron cloud density of the phenyl group is high, and it is vulnerable to the attack of the electrophilic reagent. The ethyl power supply can increase the electron cloud density of the adjacent and para-position of the phenyl ring, and the electrophilic substitution is more likely to occur in the adjacent and para-position.
Its chemical stability also needs attention. Although the dioxy structure is stabilized, under specific conditions, such as high temperature, strong acid and strong base environment, the molecular structure may be affected. At high temperature, the vibration of the chemical bond intensifies, or the bond breaks; under strong acid and strong base, the dioxy structure or ethyl phenyl ether bond may undergo hydrolysis and other reactions.
The chemical properties of this compound are synergistically affected by various parts of the structure, and they exhibit diverse chemical activities and stability under different reaction conditions and environments.
From the structural point of view, the dioxy structure endows it with a certain stability. The bonds between the dioxy atoms make the molecular skeleton more stable. And this structure affects the polarity of the molecule, which is reflected in both chemical reactions and physical properties. The change in polarity makes it unusually soluble in solvents.
Ethyl phenyl ether part, ethyl is alkyl, which has a certain donator property. Phenyl is an aromatic ring, an electron-rich conjugate system. The two are connected, making this compound chemically active.
In the electrophilic substitution reaction, the electron cloud density of the phenyl group is high, and it is vulnerable to the attack of the electrophilic reagent. The ethyl power supply can increase the electron cloud density of the adjacent and para-position of the phenyl ring, and the electrophilic substitution is more likely to occur in the adjacent and para-position.
Its chemical stability also needs attention. Although the dioxy structure is stabilized, under specific conditions, such as high temperature, strong acid and strong base environment, the molecular structure may be affected. At high temperature, the vibration of the chemical bond intensifies, or the bond breaks; under strong acid and strong base, the dioxy structure or ethyl phenyl ether bond may undergo hydrolysis and other reactions.
The chemical properties of this compound are synergistically affected by various parts of the structure, and they exhibit diverse chemical activities and stability under different reaction conditions and environments.
What are the main uses of 1,3-dichloro-2-vinylbenzene?
1% 2C3-dioxo-2-ethylfuranylbenzene has a wide range of uses. In the field of medicine, it can be a key raw material for the creation of new drugs. Its structure is unique, it can interact with many biomolecules in the body, or it can regulate physiological functions and heal diseases. For example, in the development of antibacterial drugs, its special chemical structure can enhance the permeability of drugs to the cell wall or cell membrane of pathogens and improve the antibacterial effect.
In the field of materials science, it also has extraordinary performance. It can be used as a monomer for the synthesis of special polymer materials, giving the materials excellent physical properties. If the polymer made from this raw material, or has good heat resistance, mechanical strength and chemical stability, it can be used in high-end fields such as aerospace, electronics and electrical appliances. Aerospace equipment needs to withstand extreme temperatures and complex chemical environments, and this polymer material may be able to meet its harsh needs.
In the field of organic synthetic chemistry, it is an extremely important intermediate. With its rich reaction check points, it can be derived through various chemical reactions. Organic compounds with complex structures can be derived by chemists by ingeniously designing reaction paths and using them as starting materials to construct organic molecules with specific functions and structures, providing many possibilities for the development of organic synthetic chemistry.
In the fragrance industry, due to its unique chemical structure, it may be able to derive a unique aroma composition. After proper modification and preparation, it can be used to prepare high-end perfumes and flavors, adding unique and attractive flavor to products, enhancing product quality and market competitiveness.
In the field of materials science, it also has extraordinary performance. It can be used as a monomer for the synthesis of special polymer materials, giving the materials excellent physical properties. If the polymer made from this raw material, or has good heat resistance, mechanical strength and chemical stability, it can be used in high-end fields such as aerospace, electronics and electrical appliances. Aerospace equipment needs to withstand extreme temperatures and complex chemical environments, and this polymer material may be able to meet its harsh needs.
In the field of organic synthetic chemistry, it is an extremely important intermediate. With its rich reaction check points, it can be derived through various chemical reactions. Organic compounds with complex structures can be derived by chemists by ingeniously designing reaction paths and using them as starting materials to construct organic molecules with specific functions and structures, providing many possibilities for the development of organic synthetic chemistry.
In the fragrance industry, due to its unique chemical structure, it may be able to derive a unique aroma composition. After proper modification and preparation, it can be used to prepare high-end perfumes and flavors, adding unique and attractive flavor to products, enhancing product quality and market competitiveness.
What are the precautions for the production of 1,3-dichloro-2-vinylbenzene?
In the production process of 1% 2C3-dioxo-2-ethylfuranylnaphthalene, the following items should be paid attention to:
First, it is related to the quality of the raw materials. Whether the raw materials are pure or not, and whether there are impurities or not, has a deep impact on the quality and yield of the product. When purchasing, it is necessary to select suppliers with good qualifications and good reputation, and strictly inspect each batch of raw materials, such as through melting point, boiling point, purity analysis and other means to ensure that the raw materials meet the production standards. If the quality of the raw materials is poor, it is very likely to cause incomplete reactions and increase the impurities of the products, which will affect the subsequent product performance.
Second, the control of the reaction conditions is very critical. Temperature, pressure, reaction time and other factors can all affect the process and result of the reaction. This reaction may be extremely sensitive to temperature. If the temperature is too high, it may cause side reactions, generate many unnecessary by-products, and reduce the yield of the target product. If the temperature is too low, the reaction rate will be slow and take a long time, which may also lead to incomplete reactions. Therefore, it is necessary to use precise temperature control equipment to keep the reaction temperature constant in an appropriate range, and at the same time pay close attention to pressure changes and precisely adjust according to the needs of the reaction. In addition, the reaction time should also be strictly controlled. According to the reaction process and experimental experience, the best reaction time should be determined to achieve the best reaction effect.
Third, safety protection should not be underestimated. During the production of this substance, some toxic, harmful, flammable and explosive chemical reagents may be used. Operators must strictly follow the safety operating procedures and wear protective clothing, gloves, goggles and other protective equipment. The workshop needs to be equipped with perfect ventilation facilities to discharge harmful gases in time to prevent their accumulation indoors. At the same time, fire equipment and emergency treatment equipment should be prepared to prevent sudden safety accidents.
Fourth, equipment maintenance and cleaning are also the focus. Reactors, pipelines and other equipment used in production may be worn and blocked after long-term use, which affects the reaction effect and production efficiency. Therefore, it is necessary to regularly check, maintain and clean the equipment, replace the worn parts in time, remove the dirt and impurities in the pipeline, and ensure that the equipment is always in good operating condition. Only in this way can the stable, efficient and safe production process of 1% 2C3-dioxy-2-ethylfuranylnaphthalene be ensured.
First, it is related to the quality of the raw materials. Whether the raw materials are pure or not, and whether there are impurities or not, has a deep impact on the quality and yield of the product. When purchasing, it is necessary to select suppliers with good qualifications and good reputation, and strictly inspect each batch of raw materials, such as through melting point, boiling point, purity analysis and other means to ensure that the raw materials meet the production standards. If the quality of the raw materials is poor, it is very likely to cause incomplete reactions and increase the impurities of the products, which will affect the subsequent product performance.
Second, the control of the reaction conditions is very critical. Temperature, pressure, reaction time and other factors can all affect the process and result of the reaction. This reaction may be extremely sensitive to temperature. If the temperature is too high, it may cause side reactions, generate many unnecessary by-products, and reduce the yield of the target product. If the temperature is too low, the reaction rate will be slow and take a long time, which may also lead to incomplete reactions. Therefore, it is necessary to use precise temperature control equipment to keep the reaction temperature constant in an appropriate range, and at the same time pay close attention to pressure changes and precisely adjust according to the needs of the reaction. In addition, the reaction time should also be strictly controlled. According to the reaction process and experimental experience, the best reaction time should be determined to achieve the best reaction effect.
Third, safety protection should not be underestimated. During the production of this substance, some toxic, harmful, flammable and explosive chemical reagents may be used. Operators must strictly follow the safety operating procedures and wear protective clothing, gloves, goggles and other protective equipment. The workshop needs to be equipped with perfect ventilation facilities to discharge harmful gases in time to prevent their accumulation indoors. At the same time, fire equipment and emergency treatment equipment should be prepared to prevent sudden safety accidents.
Fourth, equipment maintenance and cleaning are also the focus. Reactors, pipelines and other equipment used in production may be worn and blocked after long-term use, which affects the reaction effect and production efficiency. Therefore, it is necessary to regularly check, maintain and clean the equipment, replace the worn parts in time, remove the dirt and impurities in the pipeline, and ensure that the equipment is always in good operating condition. Only in this way can the stable, efficient and safe production process of 1% 2C3-dioxy-2-ethylfuranylnaphthalene be ensured.
What is the market outlook for 1,3-dichloro-2-vinylbenzene?
1,3-Carbon dioxide-2-ethylfuranyl ether, the market prospect of this substance is related to many aspects, let me tell you in detail.
From its properties, 1,3-carbon dioxide-2-ethylfuranyl ether has a unique chemical structure and properties, and can be used as a key intermediate in the field of organic synthesis. Because of its special structure, it can participate in a variety of chemical reactions, providing the possibility for the preparation of organic compounds with special structures, which is an opportunity for it to emerge in the chemical synthesis industry. In the field of pharmaceutical research and development, if its unique structure can be used to construct a molecular skeleton with biological activity, it may be expected to give birth to new drugs, which will undoubtedly expand a broad market space.
From the perspective of application scope, in the field of materials science, 1,3-carbon dioxide-2-ethylfuranyl ether may be used to prepare polymer materials with special properties. For example, through its copolymerization with other monomers, the material is endowed with properties such as good thermal stability and mechanical properties. It is used in aerospace, automobile manufacturing and other industries that require strict material properties, and the market demand potential is huge. In the fragrance industry, due to its unique chemical structure or derived special odor, after rational preparation, it may be able to form a unique fragrance ingredient to meet consumers' pursuit of novel flavors, thus occupying a place in the fragrance market.
However, looking at its market prospects, challenges cannot be ignored. The complexity and cost of the synthesis process are the key to determine whether it can be widely used. If the synthesis process is cumbersome and costly, its competitiveness in the market will be limited. And the market acceptance of new compounds also needs time to be considered, and a lot of experiments and marketing activities must be carried out before the downstream industry can be recognized and widely used.
In summary, although 1,3-carbon dioxide-2-ethylfuranyl ether has broad market prospects, in order to fully explore this potential, it is still necessary to optimize the synthesis process, cost control and marketing activities.
From its properties, 1,3-carbon dioxide-2-ethylfuranyl ether has a unique chemical structure and properties, and can be used as a key intermediate in the field of organic synthesis. Because of its special structure, it can participate in a variety of chemical reactions, providing the possibility for the preparation of organic compounds with special structures, which is an opportunity for it to emerge in the chemical synthesis industry. In the field of pharmaceutical research and development, if its unique structure can be used to construct a molecular skeleton with biological activity, it may be expected to give birth to new drugs, which will undoubtedly expand a broad market space.
From the perspective of application scope, in the field of materials science, 1,3-carbon dioxide-2-ethylfuranyl ether may be used to prepare polymer materials with special properties. For example, through its copolymerization with other monomers, the material is endowed with properties such as good thermal stability and mechanical properties. It is used in aerospace, automobile manufacturing and other industries that require strict material properties, and the market demand potential is huge. In the fragrance industry, due to its unique chemical structure or derived special odor, after rational preparation, it may be able to form a unique fragrance ingredient to meet consumers' pursuit of novel flavors, thus occupying a place in the fragrance market.
However, looking at its market prospects, challenges cannot be ignored. The complexity and cost of the synthesis process are the key to determine whether it can be widely used. If the synthesis process is cumbersome and costly, its competitiveness in the market will be limited. And the market acceptance of new compounds also needs time to be considered, and a lot of experiments and marketing activities must be carried out before the downstream industry can be recognized and widely used.
In summary, although 1,3-carbon dioxide-2-ethylfuranyl ether has broad market prospects, in order to fully explore this potential, it is still necessary to optimize the synthesis process, cost control and marketing activities.
What are the environmental effects of 1,3-dichloro-2-vinylbenzene?
The impact of 1% 2C3-dioxy-2-ethylfuranyl on the environment is related to many levels. If this substance exists in water bodies in the environment, its chemical properties may interfere with the normal physiological functions of aquatic organisms. Its structure may combine with specific receptors in aquatic organisms, causing metabolic disorders, hindering growth and development, and even reducing population numbers.
In the soil environment, 1% 2C3-dioxy-2-ethylfuranyl may affect the structure and function of soil microbial communities. Soil microorganisms are essential for soil nutrient cycling and decomposition of organic matter. This substance may inhibit the activities of some beneficial microorganisms, reduce soil fertility, and affect vegetation growth.
In the atmospheric environment, if 1% 2C3-dioxy-2-ethylfuran exists in a gaseous state, or participates in photochemical reactions. Under the action of light, it interacts with other pollutants to generate secondary pollutants, aggravate air pollution, and endanger human health and the ecological environment.
and 1% 2C3-dioxy-2-ethylfuran If the stability is high, it is difficult to degrade in the environment and will accumulate for a long time. Transmitted through the food chain and enriched in organisms, it will cause greater harm to organisms at the high end of the food chain and destroy the ecological balance. Therefore, it is very important to study and monitor the environmental impact of 1% 2C3-dioxy-2-ethylfuranyl in order to prevent and control it in time and ensure the ecological health of the environment.
In the soil environment, 1% 2C3-dioxy-2-ethylfuranyl may affect the structure and function of soil microbial communities. Soil microorganisms are essential for soil nutrient cycling and decomposition of organic matter. This substance may inhibit the activities of some beneficial microorganisms, reduce soil fertility, and affect vegetation growth.
In the atmospheric environment, if 1% 2C3-dioxy-2-ethylfuran exists in a gaseous state, or participates in photochemical reactions. Under the action of light, it interacts with other pollutants to generate secondary pollutants, aggravate air pollution, and endanger human health and the ecological environment.
and 1% 2C3-dioxy-2-ethylfuran If the stability is high, it is difficult to degrade in the environment and will accumulate for a long time. Transmitted through the food chain and enriched in organisms, it will cause greater harm to organisms at the high end of the food chain and destroy the ecological balance. Therefore, it is very important to study and monitor the environmental impact of 1% 2C3-dioxy-2-ethylfuranyl in order to prevent and control it in time and ensure the ecological health of the environment.
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