Linshang Chemical
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1-(Chloromethyl)-3-Ethenylbenzene-1-(Chloromethyl)-4-Ethenylbenzene (1:1)
Linshang Chemical
|
HS Code |
904919 |
| Chemical Formula | C16H16Cl2 |
| Molecular Weight | 279.204 g/mol |
As an accredited 1-(Chloromethyl)-3-Ethenylbenzene-1-(Chloromethyl)-4-Ethenylbenzene (1:1) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 g of 1-(chloromethyl)-3 - ethenylbenzene - 1-(chloromethyl)-4 - ethenylbenzene (1:1) in sealed container. |
| Storage | 1-(Chloromethyl)-3 -ethenylbenzene - 1-(chloromethyl)-4 -ethenylbenzene (1:1) should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in a tightly sealed container, preferably made of corrosion - resistant materials, to prevent leakage and exposure to air or moisture which could potentially cause decomposition or reaction. |
| Shipping | 1-(Chloromethyl)-3-ethenylbenzene - 1-(Chloromethyl)-4-ethenylbenzene (1:1) is a chemical. Shipping should follow strict hazardous material regulations, with proper packaging to prevent leakage and ensure safe transportation. |
Competitive 1-(Chloromethyl)-3-Ethenylbenzene-1-(Chloromethyl)-4-Ethenylbenzene (1:1) 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-(Chloromethyl)-3-Ethenylbenzene-1-(Chloromethyl)-4-Ethenylbenzene (1:1) in China?
As a trusted 1-(Chloromethyl)-3-Ethenylbenzene-1-(Chloromethyl)-4-Ethenylbenzene (1:1) 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 1-(Chloromethyl)-3-Ethenylbenzene-1-(Chloromethyl)-4-Ethenylbenzene (1:1) 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- (chloromethyl) -3-vinylbenzene - 1- (chloromethyl) -4-vinylbenzene (1:1)?
This product, 1- (methoxy) -3-isobutoxy-silicon-1- (methoxy) -4-isobutoxy-silicon (1:1), is an exquisite compound with unique properties and a wide range of uses. Its main uses cover the following ends:
The first application is the surface modification of materials. This compound can chemically react with the surface of various materials, such as glass, metals, ceramics, etc. by virtue of the methoxy group and isobutoxy-silicon group it contains, forming stable chemical bonds. Applying this substance to the surface of glass can build a dense and uniform protective film on the surface, significantly improving the wear resistance and corrosion resistance of the glass. The glass treated by this treatment can be used for building exterior windows to resist wind and rain erosion and external wear for a long time, and it will last forever.
Furthermore, in the field of adhesives and sealants, this product also plays a pivotal role. Due to its special chemical structure, it can effectively improve the adhesion of adhesives and sealants to different materials and greatly enhance the sealing performance. In the waterproof sealing process of construction projects, adding the sealant of this product can closely fit with building materials to form an efficient waterproof barrier, prevent moisture penetration, and ensure the long-term stability of building structures.
In the paint industry, the addition of this product can optimize the performance of coatings. On the one hand, it can improve the adhesion between the coating and the substrate, so that the coating firmly adheres to the surface of the object and is not easy to fall off; on the other hand, it can improve the weather resistance of the coating. The coating containing this product is applied to the surface of outdoor facilities, which can effectively resist the erosion of natural factors such as ultraviolet rays and acid rain, and prolong the service life of the facility.
In addition, in terms of electronic packaging materials, this product plays a key role. It can enhance the bonding force between packaging materials and electronic components, and ensure the stability and reliability of electronic components in complex environments. In semiconductor chip packaging, the application of this product can ensure that the chip and packaging materials are closely connected to avoid loose connections due to environmental changes, thereby improving the performance and life of electronic products.
All of these demonstrate the indispensable and significant practical value of this product in the fields of material surface modification, adhesives and sealants, coatings and electronic packaging materials.
The first application is the surface modification of materials. This compound can chemically react with the surface of various materials, such as glass, metals, ceramics, etc. by virtue of the methoxy group and isobutoxy-silicon group it contains, forming stable chemical bonds. Applying this substance to the surface of glass can build a dense and uniform protective film on the surface, significantly improving the wear resistance and corrosion resistance of the glass. The glass treated by this treatment can be used for building exterior windows to resist wind and rain erosion and external wear for a long time, and it will last forever.
Furthermore, in the field of adhesives and sealants, this product also plays a pivotal role. Due to its special chemical structure, it can effectively improve the adhesion of adhesives and sealants to different materials and greatly enhance the sealing performance. In the waterproof sealing process of construction projects, adding the sealant of this product can closely fit with building materials to form an efficient waterproof barrier, prevent moisture penetration, and ensure the long-term stability of building structures.
In the paint industry, the addition of this product can optimize the performance of coatings. On the one hand, it can improve the adhesion between the coating and the substrate, so that the coating firmly adheres to the surface of the object and is not easy to fall off; on the other hand, it can improve the weather resistance of the coating. The coating containing this product is applied to the surface of outdoor facilities, which can effectively resist the erosion of natural factors such as ultraviolet rays and acid rain, and prolong the service life of the facility.
In addition, in terms of electronic packaging materials, this product plays a key role. It can enhance the bonding force between packaging materials and electronic components, and ensure the stability and reliability of electronic components in complex environments. In semiconductor chip packaging, the application of this product can ensure that the chip and packaging materials are closely connected to avoid loose connections due to environmental changes, thereby improving the performance and life of electronic products.
All of these demonstrate the indispensable and significant practical value of this product in the fields of material surface modification, adhesives and sealants, coatings and electronic packaging materials.
What are the physical properties of 1- (chloromethyl) -3-vinylbenzene-1- (chloromethyl) -4-vinylbenzene (1:1)?
The physical properties of 1- (methoxy) -3-ethylfuranyl ether and 1- (methoxy) -4-ethylfuranyl ether (1:1) include the following ends.
First, on the outer layer, it is often a liquid of yellow color to light yellow color, and the ground is clear. It has a special taste, non-pungent and slightly fragrant, but it may not be felt by different people or be different. Because the two are similar, the outer layer of the mixture is generally the same.
To a mixture of 1 - (methoxy) - 3 - ethylfuranyl ether and 1 - (methoxy) - 4 - ethylfuranyl ether (1:1), due to the molecular force, the boiling is between the two compounds. Roughly speaking, at a certain degree, the molecules in the mixture are vaporized against the attractive force of the molecules.
In terms of density, the phase is water, which has a slightly smaller density. The two are mixed at a 1:1 ratio, and the density also has a specific value, which is determined by the way the molecular weight is stacked. Therefore, they are placed in water and float on the surface of the water.
In terms of solubility, this mixture has good solubility in common solvents such as ethanol, ether, acetone, etc. Due to the principle of similar dissolution, it has a good solubility. However, due to poor solubility in water, it has a compound, and water molecules form an interaction.
In addition, the viscosity of the mixture is also one of the physical properties. Due to the molecular force, the flow friction forces make the viscosity to a certain extent, which is not as free as water, nor is it viscous. It has its inherent properties in liquid flow. This is a summary of the main physical properties of 1 - (methoxy) - 3 - ethylfuran ether - 1 - (methoxy) - 4 - ethylfuran ether (1:1) mixture.
First, on the outer layer, it is often a liquid of yellow color to light yellow color, and the ground is clear. It has a special taste, non-pungent and slightly fragrant, but it may not be felt by different people or be different. Because the two are similar, the outer layer of the mixture is generally the same.
To a mixture of 1 - (methoxy) - 3 - ethylfuranyl ether and 1 - (methoxy) - 4 - ethylfuranyl ether (1:1), due to the molecular force, the boiling is between the two compounds. Roughly speaking, at a certain degree, the molecules in the mixture are vaporized against the attractive force of the molecules.
In terms of density, the phase is water, which has a slightly smaller density. The two are mixed at a 1:1 ratio, and the density also has a specific value, which is determined by the way the molecular weight is stacked. Therefore, they are placed in water and float on the surface of the water.
In terms of solubility, this mixture has good solubility in common solvents such as ethanol, ether, acetone, etc. Due to the principle of similar dissolution, it has a good solubility. However, due to poor solubility in water, it has a compound, and water molecules form an interaction.
In addition, the viscosity of the mixture is also one of the physical properties. Due to the molecular force, the flow friction forces make the viscosity to a certain extent, which is not as free as water, nor is it viscous. It has its inherent properties in liquid flow. This is a summary of the main physical properties of 1 - (methoxy) - 3 - ethylfuran ether - 1 - (methoxy) - 4 - ethylfuran ether (1:1) mixture.
What are the chemical properties of 1- (chloromethyl) -3-vinylbenzene-1- (chloromethyl) -4-vinylbenzene (1:1)?
The chemical properties of 1 - (cyanomethyl) - 3 - ethylfuranyl ether and 1 - (cyanomethyl) - 4 - ethylfuranyl ether (1:1) are very important chemical topics.
The structures of the two are similar, but the chemical properties are different due to slight differences. In 1- (cyanomethyl) - 3 - ethylfuranyl ethers, cyanomethyl is connected to the 3-position, and its electronic effects and steric resistance have different effects on the distribution of furan ring electron clouds. Cyanyl has strong electron absorption, which reduces the density of furan ring electron clouds. In electrophilic substitution reactions, the activity is lower than that of those without cyanyl groups. In addition, the presence of ethyl group at the 3-position may affect the stereochemistry of the reaction, and the electrophilic attack check point has a preference.
In contrast, 1 - (cyanomethyl) - 4 - ethylfuranyl ether, cyanomethyl is connected to the 4-position, and the electronic effect and spatial effect are also different. Although cyanyl also absorbs electrons, compared with the 3-isomer, the electron cloud density distribution of the furan ring is different, and the electrophilic substitution reaction activity and check point selectivity are also different. B is based on the 4-position, and the spatial resistance changes, which affects the intermolecular interaction and reaction path.
The two are mixed in 1:1, and the properties are complex. In some reactions, or because of structural similarity synergistic reaction; in other reactions, due to structural differences compete with each other. For example, in the oxidation reaction, different positions of substituents affect the oxidation check point and rate; in the nucleophilic addition reaction, cyano and ethyl synergistically interact to determine the reaction activity and product structure. The chemical properties of the two mixed systems need to comprehensively consider factors such as structure, electronic effect, steric resistance and reaction conditions in order to clarify their reaction laws and characteristics, which is of important guiding significance in the fields of organic synthesis and materials chemistry.
The structures of the two are similar, but the chemical properties are different due to slight differences. In 1- (cyanomethyl) - 3 - ethylfuranyl ethers, cyanomethyl is connected to the 3-position, and its electronic effects and steric resistance have different effects on the distribution of furan ring electron clouds. Cyanyl has strong electron absorption, which reduces the density of furan ring electron clouds. In electrophilic substitution reactions, the activity is lower than that of those without cyanyl groups. In addition, the presence of ethyl group at the 3-position may affect the stereochemistry of the reaction, and the electrophilic attack check point has a preference.
In contrast, 1 - (cyanomethyl) - 4 - ethylfuranyl ether, cyanomethyl is connected to the 4-position, and the electronic effect and spatial effect are also different. Although cyanyl also absorbs electrons, compared with the 3-isomer, the electron cloud density distribution of the furan ring is different, and the electrophilic substitution reaction activity and check point selectivity are also different. B is based on the 4-position, and the spatial resistance changes, which affects the intermolecular interaction and reaction path.
The two are mixed in 1:1, and the properties are complex. In some reactions, or because of structural similarity synergistic reaction; in other reactions, due to structural differences compete with each other. For example, in the oxidation reaction, different positions of substituents affect the oxidation check point and rate; in the nucleophilic addition reaction, cyano and ethyl synergistically interact to determine the reaction activity and product structure. The chemical properties of the two mixed systems need to comprehensively consider factors such as structure, electronic effect, steric resistance and reaction conditions in order to clarify their reaction laws and characteristics, which is of important guiding significance in the fields of organic synthesis and materials chemistry.
1- (chloromethyl) -3-vinylbenzene - 1- (chloromethyl) -4-vinylbenzene (1:1) What are the precautions in the production process?
To prepare 1 - (chloromethyl) - 3 - ethylfuranyl ether and 1 - (chloromethyl) - 4 - ethylfuranyl ether (1:1), there are many things to pay attention to in the production process.
Quality of the first raw material. Chloromethylation reagents, ethylfuran and other raw materials, the purity and impurity content of the product have a great impact on the proportion and purity of the product. It is necessary to carefully check the source of raw materials and strictly control their quality. Each batch of raw materials should be tested. If it does not meet the standards, it will never be used.
Control of reaction conditions is also crucial. In terms of temperature, if the temperature is too high, it may cause a cluster of side reactions, and the proportion of the product is unbalanced; if the temperature is too low, the reaction rate will be slow and it will take a long time. The temperature control means such as water bath and oil bath are commonly used to ensure that the temperature fluctuation is in a very small range. The catalyst is also critical, and its type and dosage affect the reaction rate and selectivity. After testing, the optimal catalyst and dosage should be found to make the target product ratio reach the expected.
The reaction equipment should also not be ignored. The material of the equipment must be resistant to the corrosion of the reaction medium, and the mixing effect is good. Good mixing is conducive to full contact of the raw materials, so that the reaction is uniform and the proportion of the product is stable. During the reaction process, it is necessary to constantly monitor the reaction process. Analytical methods such as chromatography and mass spectrometry can be used to adjust the reaction conditions in a timely manner according to the monitoring results.
The separation and purification of the product should not be underestimated. After the reaction is completed, the product may contain impurities such as unreacted raw materials and by-products. According to the characteristics of the product and impurities, suitable separation and purification methods such as extraction, distillation, and recrystallization should be selected to obtain high-purity target products.
Safe operation is also essential. Many raw materials and reagents are toxic, corrosive or flammable. Operators must know safe operating procedures, wear protective equipment, and operate with good ventilation. And the workshop should prepare emergency treatment facilities to prevent accidents.
In summary, the production of 1- (chloromethyl) -3-ethylfuranyl ether and 1- (chloromethyl) -4-ethylfuranyl ether (1:1) requires fine control in terms of raw materials, reaction conditions, equipment, separation and purification, and safety.
Quality of the first raw material. Chloromethylation reagents, ethylfuran and other raw materials, the purity and impurity content of the product have a great impact on the proportion and purity of the product. It is necessary to carefully check the source of raw materials and strictly control their quality. Each batch of raw materials should be tested. If it does not meet the standards, it will never be used.
Control of reaction conditions is also crucial. In terms of temperature, if the temperature is too high, it may cause a cluster of side reactions, and the proportion of the product is unbalanced; if the temperature is too low, the reaction rate will be slow and it will take a long time. The temperature control means such as water bath and oil bath are commonly used to ensure that the temperature fluctuation is in a very small range. The catalyst is also critical, and its type and dosage affect the reaction rate and selectivity. After testing, the optimal catalyst and dosage should be found to make the target product ratio reach the expected.
The reaction equipment should also not be ignored. The material of the equipment must be resistant to the corrosion of the reaction medium, and the mixing effect is good. Good mixing is conducive to full contact of the raw materials, so that the reaction is uniform and the proportion of the product is stable. During the reaction process, it is necessary to constantly monitor the reaction process. Analytical methods such as chromatography and mass spectrometry can be used to adjust the reaction conditions in a timely manner according to the monitoring results.
The separation and purification of the product should not be underestimated. After the reaction is completed, the product may contain impurities such as unreacted raw materials and by-products. According to the characteristics of the product and impurities, suitable separation and purification methods such as extraction, distillation, and recrystallization should be selected to obtain high-purity target products.
Safe operation is also essential. Many raw materials and reagents are toxic, corrosive or flammable. Operators must know safe operating procedures, wear protective equipment, and operate with good ventilation. And the workshop should prepare emergency treatment facilities to prevent accidents.
In summary, the production of 1- (chloromethyl) -3-ethylfuranyl ether and 1- (chloromethyl) -4-ethylfuranyl ether (1:1) requires fine control in terms of raw materials, reaction conditions, equipment, separation and purification, and safety.
What is the approximate market price of 1- (chloromethyl) -3-vinylbenzene - 1- (chloromethyl) -4-vinylbenzene (1:1)?
Alas! If you want to know the approximate market prices of 1- (cyanomethyl) -3-ethylfuran ether and 1- (cyanomethyl) -4-ethylfuran ether (1:1), you need to consider many factors in detail.
In the Guanfu chemical market, the price fluctuates very frequently, which is similar to the change of the situation. The price of these two compounds depends first on the cost of raw materials. If the price of raw materials such as cyanide and ethylfuran fluctuates, the price of the product will also fluctuate. If the origin and output of raw materials change, or in the event of natural and man-made disasters or government regulations, the price will be affected.
Furthermore, the simplicity of the production process is related to the cost, which is also the main reason for pricing. If the process is exquisite and complex, high-end equipment and professional manpower are required, the cost will be high, and the price will be high; on the contrary, if the process is simple, the cost may be slightly reduced, and the price will also be flat.
The state of market supply and demand is more like the two ends of the lever, which determines the price. If the market demand for these two things is strong and the supply is limited, the merchant will raise the price in order to make a big profit; conversely, if the supply exceeds the demand, the price will drop in order to make a sale.
In addition, the quality specification is also the key. Those with high purity and few impurities should be higher than those with ordinary prices.
Although it is difficult to determine its market price, it is based on the current chemical market. If the supply of raw materials is stable, the process is mature, and the market supply and demand are balanced, the two will be mixed at (1:1) market prices or between [X] yuan/ton and [X] yuan/ton. However, the market is unpredictable, this is only a guess, and the actual price still needs to be consulted in detail according to the current market.
In the Guanfu chemical market, the price fluctuates very frequently, which is similar to the change of the situation. The price of these two compounds depends first on the cost of raw materials. If the price of raw materials such as cyanide and ethylfuran fluctuates, the price of the product will also fluctuate. If the origin and output of raw materials change, or in the event of natural and man-made disasters or government regulations, the price will be affected.
Furthermore, the simplicity of the production process is related to the cost, which is also the main reason for pricing. If the process is exquisite and complex, high-end equipment and professional manpower are required, the cost will be high, and the price will be high; on the contrary, if the process is simple, the cost may be slightly reduced, and the price will also be flat.
The state of market supply and demand is more like the two ends of the lever, which determines the price. If the market demand for these two things is strong and the supply is limited, the merchant will raise the price in order to make a big profit; conversely, if the supply exceeds the demand, the price will drop in order to make a sale.
In addition, the quality specification is also the key. Those with high purity and few impurities should be higher than those with ordinary prices.
Although it is difficult to determine its market price, it is based on the current chemical market. If the supply of raw materials is stable, the process is mature, and the market supply and demand are balanced, the two will be mixed at (1:1) market prices or between [X] yuan/ton and [X] yuan/ton. However, the market is unpredictable, this is only a guess, and the actual price still needs to be consulted in detail according to the current market.
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