Linshang Chemical
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1,4-Bis(Dichloromethyl)Benzene
Linshang Chemical
|
HS Code |
603562 |
| Chemical Formula | C8H6Cl4 |
| Molar Mass | 245.94 g/mol |
| Appearance | White to off - white solid |
| Melting Point | 67 - 70 °C |
| Boiling Point | 293 - 295 °C |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in many organic solvents like ethanol, benzene |
| Density | 1.52 g/cm³ (approximate) |
| Vapor Pressure | Low vapor pressure |
| Odor | Characteristic, pungent odor |
As an accredited 1,4-Bis(Dichloromethyl)Benzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1,4 - bis(dichloromethyl)benzene: Packed in 5 - kg bags for chemical storage and transport. |
| Storage | 1,4 - bis(dichloromethyl)benzene 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 contact with air or moisture which could lead to decomposition or unwanted reactions. |
| Shipping | 1,4 - bis(dichloromethyl)benzene is a chemical requiring careful shipping. It should be packaged in sealed, corrosion - resistant containers, transported under controlled conditions to prevent leakage and ensure compliance with hazardous chemical shipping regulations. |
Competitive 1,4-Bis(Dichloromethyl)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
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What are the main uses of 1,4-bis (dichloromethyl) benzene?
1,4-Bis (diethoxymethyl) benzene, which has a wide range of uses. In the field of chemical synthesis, it can be used as a key intermediate. Due to the molecular structure containing specific functional groups, it can interact with many compounds through a series of chemical reactions to prepare a wide variety of organic compounds. For example, in the synthesis of some polymer materials with special structures and properties, 1,4-bis (diethoxymethyl) benzene can be used as a starting material. After polymerization and other steps, polymers with unique properties can be constructed, or used to make special plastics, fibers and other materials.
Furthermore, it also has a place in the fragrance industry. Due to its unique chemical structure, compounds with special aromas can be derived, providing the possibility for the formulation of unique fragrance fragrances. Through appropriate chemical modification and reaction, it can be converted into fragrance components that emit a pleasant aroma, which can be used in the manufacture of perfumes, flavors and other products to increase the aroma characteristics and attractiveness of products.
In the field of medicinal chemistry, 1,4-bis (diethoxymethyl) benzene can also play an important role. Due to its special structure, it may become an important building block for the synthesis of compounds with specific pharmacological activities. With the help of modification and modification of its structure, drug molecules targeting specific disease targets can be prepared, providing new directions and avenues for the development of new drugs.
In summary, 1,4-bis (diethoxymethyl) benzene has important uses in chemical synthesis, fragrance industry, medicinal chemistry, and many other fields, which is of great significance for promoting the development of related industries.
Furthermore, it also has a place in the fragrance industry. Due to its unique chemical structure, compounds with special aromas can be derived, providing the possibility for the formulation of unique fragrance fragrances. Through appropriate chemical modification and reaction, it can be converted into fragrance components that emit a pleasant aroma, which can be used in the manufacture of perfumes, flavors and other products to increase the aroma characteristics and attractiveness of products.
In the field of medicinal chemistry, 1,4-bis (diethoxymethyl) benzene can also play an important role. Due to its special structure, it may become an important building block for the synthesis of compounds with specific pharmacological activities. With the help of modification and modification of its structure, drug molecules targeting specific disease targets can be prepared, providing new directions and avenues for the development of new drugs.
In summary, 1,4-bis (diethoxymethyl) benzene has important uses in chemical synthesis, fragrance industry, medicinal chemistry, and many other fields, which is of great significance for promoting the development of related industries.
What are the physical properties of 1,4-bis (dichloromethyl) benzene?
1% 2C4-bis (diethoxymethyl) benzene is a kind of organic compound. Its physical properties are unique.
Looking at its properties, under normal temperature and pressure, it is mostly a colorless to light yellow transparent liquid with uniform and clear texture and no impurities visible to the naked eye. Its smell is slightly fragrant, but it is not a pungent fragrance. It feels a little fresh when smelled, but it should not be smelled for a long time.
When it comes to boiling point, it is within a specific temperature range and varies slightly depending on factors such as environmental pressure. Generally speaking, under standard atmospheric pressure conditions, its boiling point is sufficient to transform it into a gaseous state when properly heated. This property is of great significance in chemical operations such as separation and purification.
As for the melting point, there is also a corresponding value. In a specific low temperature environment, the substance can gradually change from liquid to solid state, and this temperature is its melting point. The accurate determination of the melting point is crucial to distinguish the purity of the substance and determine its quality.
Its density is also one of the important physical properties. Compared with the density of water, the density of 1% 2C4 -bis (diethoxymethyl) benzene may vary. This difference determines its floating state in water. This is an important consideration in some processes involving liquid-liquid separation.
In terms of solubility, it often exhibits good solubility in organic solvents such as ethanol and ether, and can dissolve with them to form a uniform solution. However, its solubility in water is relatively limited, only slightly soluble or insoluble, which is related to the properties of the groups contained in its molecular structure.
The physical properties of 1% 2C4 -bis (diethoxymethyl) benzene are of great significance in many fields such as chemical production and scientific research experiments, providing a basic basis for its rational application.
Looking at its properties, under normal temperature and pressure, it is mostly a colorless to light yellow transparent liquid with uniform and clear texture and no impurities visible to the naked eye. Its smell is slightly fragrant, but it is not a pungent fragrance. It feels a little fresh when smelled, but it should not be smelled for a long time.
When it comes to boiling point, it is within a specific temperature range and varies slightly depending on factors such as environmental pressure. Generally speaking, under standard atmospheric pressure conditions, its boiling point is sufficient to transform it into a gaseous state when properly heated. This property is of great significance in chemical operations such as separation and purification.
As for the melting point, there is also a corresponding value. In a specific low temperature environment, the substance can gradually change from liquid to solid state, and this temperature is its melting point. The accurate determination of the melting point is crucial to distinguish the purity of the substance and determine its quality.
Its density is also one of the important physical properties. Compared with the density of water, the density of 1% 2C4 -bis (diethoxymethyl) benzene may vary. This difference determines its floating state in water. This is an important consideration in some processes involving liquid-liquid separation.
In terms of solubility, it often exhibits good solubility in organic solvents such as ethanol and ether, and can dissolve with them to form a uniform solution. However, its solubility in water is relatively limited, only slightly soluble or insoluble, which is related to the properties of the groups contained in its molecular structure.
The physical properties of 1% 2C4 -bis (diethoxymethyl) benzene are of great significance in many fields such as chemical production and scientific research experiments, providing a basic basis for its rational application.
What are the chemical properties of 1,4-bis (dichloromethyl) benzene?
1%2C4-%E5%8F%8C%28%E4%BA%8C%E6%B0%AF%E7%94%B2%E5%9F%BA%29%E8%8B%AF%E7%9A%84%E5%8C%96%E5%AD%A6%E6%80%A7%E8%B4%A8%E5%A6%82%E4%B8%8B%E6%89%80%E8%BF%B0:
This compound is an aromatic compound with a certain degree of characterization. In the 1,4-dimethyl (dimethyl) benzene molecule, benzene is co-linked to make it aromatic and can resist the addition reaction to a certain extent, and to the generation of substitution reaction.
As far as its physical rationality is concerned, it is usually a solid or liquid under normal conditions, and the melting is affected by the molecular force. The molecular weight of the phase is large, and the molecules have a van der force. Some small molecules in the boiling phase have slightly higher concentrations. And because it contains benzene, which is insoluble in water, but easily soluble in water, such as ether, chloroform, etc., because it follows the principle of "similar phase dissolution", there are molecules that are soluble in benzene, and they are easy to mix with each other.
In terms of reactivity, the atom on benzene can be replaced by a polyalkyl group. For example, under the catalysis and reactivity of benzene, it can generate benzene substitution and reactivity. Like the reagent, under the catalysis of powder or reagent, it can be reacted to the element, and the atom on benzene is replaced by the atom of benzene. In the nitrification reagent, benzene is introduced into the nitro group under the action of the mixed solution of nitric acid and sulfuric acid. The sulfonation reagent is introduced into the sulfonic acid group on benzene under the action of sulfuric acid.
In addition, the dimethyl group of 1,4-dimethyl (dimethyl) benzene also has a certain anti-reactivity. Under the action of specific oxidation, dimethyl can be oxidized, such as under the appropriate conditions, it can be oxidized to an aldehyde group or even a carboxyl group. In the presence of some catalysts, the dimethyl atom on dimethyl may also be anti-reactive, biological substitution or elimination, etc., which is relevant to the anti-reactive components and the added reactive components. In addition, this compound exhibits multiple reactivity and physical properties due to the characteristics of benzene and dimethyl, which is of great significance in the fields of synthesis and the like.
This compound is an aromatic compound with a certain degree of characterization. In the 1,4-dimethyl (dimethyl) benzene molecule, benzene is co-linked to make it aromatic and can resist the addition reaction to a certain extent, and to the generation of substitution reaction.
As far as its physical rationality is concerned, it is usually a solid or liquid under normal conditions, and the melting is affected by the molecular force. The molecular weight of the phase is large, and the molecules have a van der force. Some small molecules in the boiling phase have slightly higher concentrations. And because it contains benzene, which is insoluble in water, but easily soluble in water, such as ether, chloroform, etc., because it follows the principle of "similar phase dissolution", there are molecules that are soluble in benzene, and they are easy to mix with each other.
In terms of reactivity, the atom on benzene can be replaced by a polyalkyl group. For example, under the catalysis and reactivity of benzene, it can generate benzene substitution and reactivity. Like the reagent, under the catalysis of powder or reagent, it can be reacted to the element, and the atom on benzene is replaced by the atom of benzene. In the nitrification reagent, benzene is introduced into the nitro group under the action of the mixed solution of nitric acid and sulfuric acid. The sulfonation reagent is introduced into the sulfonic acid group on benzene under the action of sulfuric acid.
In addition, the dimethyl group of 1,4-dimethyl (dimethyl) benzene also has a certain anti-reactivity. Under the action of specific oxidation, dimethyl can be oxidized, such as under the appropriate conditions, it can be oxidized to an aldehyde group or even a carboxyl group. In the presence of some catalysts, the dimethyl atom on dimethyl may also be anti-reactive, biological substitution or elimination, etc., which is relevant to the anti-reactive components and the added reactive components. In addition, this compound exhibits multiple reactivity and physical properties due to the characteristics of benzene and dimethyl, which is of great significance in the fields of synthesis and the like.
What are the precautions for the production of 1,4-bis (dichloromethyl) benzene?
1% 2C4-Bis (diethoxy methyl) benzene, the preparation of the matter, the number of things should be careful.
Starting material, must choose pure. The quality of the raw material is related to the purity of the product. Impure materials lead to impurities in the middle, making the product difficult to clean, and may block the smooth reaction. Such as diethoxy methylating agent, when it is pure, remove impurities and survive, it can be used in service.
The reactor also needs to be clean. The filth is left in the reactor, or it should be mixed with the reactants, and the reaction process is messy. Before using the scrubber, use a solvent to dry it to eliminate moisture and impurities.
The temperature of the reaction is the key. If the temperature is high, the reaction will be too fast, or by-products will be produced; if the temperature is low, the reaction will be slow and time-consuming. With an appropriate thermostat, keep the temperature at an appropriate value. For example, in this system, a specific temperature range is often required. According to the reaction mechanism and past experience, fine temperature adjustment is required to achieve the best.
The catalyst makes the equivalent amount appropriate and effective. If the amount is small, the reaction will be weak, and if the amount is large, it may promote side reactions. Know the relationship between its activity and dosage, and determine the appropriate amount before use or pre-test.
The method of stirring should not be ignored. Mix the reactants evenly to facilitate molecular contact and rapid reaction rate. The speed of stirring should be uniform and appropriate, so that the distribution of materials in the container is unbiased.
After the reaction is completed, the separation and purification work should be done carefully. Use distillation, extraction, chromatography and other methods to remove by-products and untreated raw materials. Each step of operation, according to the specifications, to ensure the purity of the product.
The way of protection, always be in mind. Reactants and products, or toxic, rotten, flammable. Operators should wear protective equipment, such as gloves, goggles, and gas masks, and in a well-ventilated place to avoid hazards. In this way, all things are prepared, so that the preparation of 1% 2C4 -bis (diethoxymethyl) benzene can be smooth and excellent products can be obtained.
Starting material, must choose pure. The quality of the raw material is related to the purity of the product. Impure materials lead to impurities in the middle, making the product difficult to clean, and may block the smooth reaction. Such as diethoxy methylating agent, when it is pure, remove impurities and survive, it can be used in service.
The reactor also needs to be clean. The filth is left in the reactor, or it should be mixed with the reactants, and the reaction process is messy. Before using the scrubber, use a solvent to dry it to eliminate moisture and impurities.
The temperature of the reaction is the key. If the temperature is high, the reaction will be too fast, or by-products will be produced; if the temperature is low, the reaction will be slow and time-consuming. With an appropriate thermostat, keep the temperature at an appropriate value. For example, in this system, a specific temperature range is often required. According to the reaction mechanism and past experience, fine temperature adjustment is required to achieve the best.
The catalyst makes the equivalent amount appropriate and effective. If the amount is small, the reaction will be weak, and if the amount is large, it may promote side reactions. Know the relationship between its activity and dosage, and determine the appropriate amount before use or pre-test.
The method of stirring should not be ignored. Mix the reactants evenly to facilitate molecular contact and rapid reaction rate. The speed of stirring should be uniform and appropriate, so that the distribution of materials in the container is unbiased.
After the reaction is completed, the separation and purification work should be done carefully. Use distillation, extraction, chromatography and other methods to remove by-products and untreated raw materials. Each step of operation, according to the specifications, to ensure the purity of the product.
The way of protection, always be in mind. Reactants and products, or toxic, rotten, flammable. Operators should wear protective equipment, such as gloves, goggles, and gas masks, and in a well-ventilated place to avoid hazards. In this way, all things are prepared, so that the preparation of 1% 2C4 -bis (diethoxymethyl) benzene can be smooth and excellent products can be obtained.
What are the environmental effects of 1,4-bis (dichloromethyl) benzene?
1% 2C4 -bis (diethoxymethyl) benzene, the impact of this substance on the environment is quite complex and needs to be carefully investigated.
Its physical properties are volatile. In the atmospheric environment, the volatile part may participate in photochemical reactions. Due to its benzene ring structure, under light conditions or with active substances in the atmosphere such as hydroxyl radicals, a series of secondary pollutants are generated, which may have adverse effects on air quality, resulting in reduced atmospheric visibility, or increasing the latent risk of photochemical smog formation.
In the aqueous environment, if this substance enters the water body, it may be adsorbed on the surface of suspended particles due to its hydrophobicity, and then settle into the underwater sediments. Some of them may be ingested by aquatic organisms, because they are fat-soluble and easy to accumulate in organisms. Accompanied by the transmission of food chains, or have toxic effects on high-trophic organisms, affecting the structure and function of aquatic ecosystems, such as interfering with the growth, reproduction and behavior of organisms.
In the soil environment, it will remain in the soil, affecting the structure and function of soil microbial community. Or inhibit the growth and metabolic activities of some soil microorganisms, interfere with the normal material circulation and energy flow in the soil, and then have an indirect impact on soil fertility and plant growth. If it continues to accumulate in the soil, or changes the physical and chemical properties of the soil, it will affect the aeration and water retention of the soil.
In summary, 1% 2C4-bis (diethoxymethyl) benzene has the potential to affect many aspects of the environment. During its production, use, and disposal, it is necessary to treat it with caution and take appropriate measures to reduce its harm to the environment.
Its physical properties are volatile. In the atmospheric environment, the volatile part may participate in photochemical reactions. Due to its benzene ring structure, under light conditions or with active substances in the atmosphere such as hydroxyl radicals, a series of secondary pollutants are generated, which may have adverse effects on air quality, resulting in reduced atmospheric visibility, or increasing the latent risk of photochemical smog formation.
In the aqueous environment, if this substance enters the water body, it may be adsorbed on the surface of suspended particles due to its hydrophobicity, and then settle into the underwater sediments. Some of them may be ingested by aquatic organisms, because they are fat-soluble and easy to accumulate in organisms. Accompanied by the transmission of food chains, or have toxic effects on high-trophic organisms, affecting the structure and function of aquatic ecosystems, such as interfering with the growth, reproduction and behavior of organisms.
In the soil environment, it will remain in the soil, affecting the structure and function of soil microbial community. Or inhibit the growth and metabolic activities of some soil microorganisms, interfere with the normal material circulation and energy flow in the soil, and then have an indirect impact on soil fertility and plant growth. If it continues to accumulate in the soil, or changes the physical and chemical properties of the soil, it will affect the aeration and water retention of the soil.
In summary, 1% 2C4-bis (diethoxymethyl) benzene has the potential to affect many aspects of the environment. During its production, use, and disposal, it is necessary to treat it with caution and take appropriate measures to reduce its harm to the environment.
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