Linshang Chemical
PRODUCTS
1-Chloro-4-Isocyanato-2-Methylbenzene
Linshang Chemical
|
HS Code |
154231 |
| Chemical Formula | C8H6ClNO |
| Molar Mass | 167.59 g/mol |
| Appearance | Liquid |
| Color | Colorless to light yellow |
| Odor | Pungent |
| Density | 1.22 g/cm³ |
| Boiling Point | 234 - 236 °C |
| Melting Point | 11 - 13 °C |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in many organic solvents like toluene, xylene |
| Flash Point | 101 °C |
| Vapor Pressure | Low vapor pressure at room temperature |
| Hazard Class | Corrosive, Toxic |
As an accredited 1-Chloro-4-Isocyanato-2-Methylbenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 - chloro - 4 - isocyanato - 2 - methylbenzene in 5 - kg sealed metal drums for chemical packaging. |
| Storage | 1 - Chloro - 4 - isocyanato - 2 - methylbenzene should be stored in a cool, dry, well - ventilated area, away from sources of heat, ignition, and moisture. It should be stored in a tightly - sealed container, preferably made of corrosion - resistant materials. Keep it separate from incompatible substances like acids, bases, and reactive metals to prevent dangerous reactions. |
| Shipping | 1 - chloro - 4 - isocyanato - 2 - methylbenzene is a hazardous chemical. It must be shipped in accordance with strict regulations, using appropriate containers to prevent leakage, and clearly labeled with hazard warnings. |
Competitive 1-Chloro-4-Isocyanato-2-Methylbenzene 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-Chloro-4-Isocyanato-2-Methylbenzene in China?
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Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
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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 1-Chloro-4-Isocyanato-2-Methylbenzene 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 1-chloro-4-isocyanate-2-methylbenzene?
1 + -Alkane-4-isoamyl-2-ethylbenzene, this is an organic compound. Its main uses are quite extensive and of great significance in the chemical industry.
First, it can be used as a solvent. Because of its specific solubility, it can effectively dissolve many organic substances. In the production process of coatings, inks, adhesives, etc., it is often used to dissolve resins, pigments and other components to help form a uniform and stable system, thereby improving the construction performance and quality of products.
Second, it is also an important raw material in the field of organic synthesis. With its unique molecular structure, it can derive many organic compounds with different functions and uses through a series of chemical reactions. For example, other functional groups can be introduced through substitution reactions, addition reactions, etc., to prepare fine chemicals such as pharmaceutical intermediates and fragrance intermediates with specific properties.
Third, it is also used in fuel additives. Adding this compound in an appropriate amount can have a positive impact on the combustion performance of the fuel, such as improving combustion efficiency and reducing exhaust emissions, etc., to help optimize the quality of the fuel and meet the needs of environmental protection and high efficiency.
Fourth, in the fragrance industry, this compound can be used as a fragrance component or a raw material for fragrance synthesis. Its unique smell or the substances with aroma generated after chemical reactions can add unique aroma characteristics to fragrance products and enrich the types and levels of fragrances.
First, it can be used as a solvent. Because of its specific solubility, it can effectively dissolve many organic substances. In the production process of coatings, inks, adhesives, etc., it is often used to dissolve resins, pigments and other components to help form a uniform and stable system, thereby improving the construction performance and quality of products.
Second, it is also an important raw material in the field of organic synthesis. With its unique molecular structure, it can derive many organic compounds with different functions and uses through a series of chemical reactions. For example, other functional groups can be introduced through substitution reactions, addition reactions, etc., to prepare fine chemicals such as pharmaceutical intermediates and fragrance intermediates with specific properties.
Third, it is also used in fuel additives. Adding this compound in an appropriate amount can have a positive impact on the combustion performance of the fuel, such as improving combustion efficiency and reducing exhaust emissions, etc., to help optimize the quality of the fuel and meet the needs of environmental protection and high efficiency.
Fourth, in the fragrance industry, this compound can be used as a fragrance component or a raw material for fragrance synthesis. Its unique smell or the substances with aroma generated after chemical reactions can add unique aroma characteristics to fragrance products and enrich the types and levels of fragrances.
What are the physical properties of 1-chloro-4-isocyanate-2-methylbenzene
1 + -Alkane-4-isoalkyl acid-2-ethylbenzene is a kind of organic compound. Its physical properties are quite characteristic, let me describe them in detail for you.
Looking at its shape, under room temperature and pressure, it is mostly liquid, with a relatively uniform texture and good fluidity. It is like smart water, but it has some unique characteristics. Its color is often close to colorless and transparent, just like pure crystals, giving people a sense of clarity.
As for the smell, it emits a unique smell, although it is not rich and fragrant, nor pungent and unpleasant. It has a certain volatility and gradually spreads in the air, which can be sensed by people's sense of smell.
When it comes to density, compared to water, the density of this substance is slightly lower. If it is placed in one place with water, it can be seen floating leisurely on the water surface, just like a light boat floating in blue waves.
In terms of solubility, it shows good solubility in organic solvents, such as alcohols and ethers, just like fish getting water, the two can blend with each other to form a uniform system. However, in water, its solubility is poor, and the two seem to be distinct and difficult to blend.
The boiling point and melting point are also important physical properties. Its boiling point is within a specific temperature range, and when heated to the corresponding temperature, it will gradually change from liquid to gaseous state and rise in the air. The melting point determines the low temperature conditions under which it solidifies from liquid to solid. This temperature limit makes the substance exhibit different physical states at different ambient temperatures.
The physical properties of this 1 + -alkane-4-isoalkyl acid-2-ethylbenzene are of great significance in many fields, laying the foundation for people's understanding and application of this substance.
Looking at its shape, under room temperature and pressure, it is mostly liquid, with a relatively uniform texture and good fluidity. It is like smart water, but it has some unique characteristics. Its color is often close to colorless and transparent, just like pure crystals, giving people a sense of clarity.
As for the smell, it emits a unique smell, although it is not rich and fragrant, nor pungent and unpleasant. It has a certain volatility and gradually spreads in the air, which can be sensed by people's sense of smell.
When it comes to density, compared to water, the density of this substance is slightly lower. If it is placed in one place with water, it can be seen floating leisurely on the water surface, just like a light boat floating in blue waves.
In terms of solubility, it shows good solubility in organic solvents, such as alcohols and ethers, just like fish getting water, the two can blend with each other to form a uniform system. However, in water, its solubility is poor, and the two seem to be distinct and difficult to blend.
The boiling point and melting point are also important physical properties. Its boiling point is within a specific temperature range, and when heated to the corresponding temperature, it will gradually change from liquid to gaseous state and rise in the air. The melting point determines the low temperature conditions under which it solidifies from liquid to solid. This temperature limit makes the substance exhibit different physical states at different ambient temperatures.
The physical properties of this 1 + -alkane-4-isoalkyl acid-2-ethylbenzene are of great significance in many fields, laying the foundation for people's understanding and application of this substance.
Is 1-chloro-4-isocyanate-2-methylbenzene chemically stable?
The chemical stability of 1 + -alkane-4-isoalkylamino-2-ethylbenzene requires detailed investigation of its molecular structure and chemical bond characteristics. In this compound, the alkyl part, that is, alkyl and ethyl, is relatively chemically inert. Alkanes are connected by a single bond of carbon and carbon, and the structure is stable. They are usually not easy to participate in chemical reactions. Because of their high bond energy of carbon-hydrogen bonds, they require a large amount of energy to break them.
And isoalkylamino is a functional group containing nitrogen, and the nitrogen atom has a lone pair electron, which makes it exhibit a certain reactivity. However, due to the steric hindrance effect of isoalkyl groups, their reactivity can be affected to a certain extent. In some chemical reactions, spatial hindrance or reaction is not easy to occur, or the reaction rate is slowed down.
As for the benzene ring, it has unique aromatic properties. The π electron cloud of the benzene ring is highly delocalized, forming a stable conjugate system. This conjugate structure endows the benzene ring with special chemical stability, making it less prone to addition reactions and prone to electrophilic substitution reactions.
Overall, the chemical stability of 1 + -alkane-4-isoalkylamino-2-ethylbenzene is complicated due to the interaction of the structures of each part. Although alkyl and benzene rings provide certain stability, the presence of isoalkylamino groups introduces the possibility of reactivity. Under general conditions, if there are no strong chemical reagents or special reaction conditions, the compound can maintain a relatively stable state; when exposed to specific chemical reaction environments, such as strong oxidants, strong acids and bases, etc., its molecular structure may change and exhibit different chemical behaviors.
And isoalkylamino is a functional group containing nitrogen, and the nitrogen atom has a lone pair electron, which makes it exhibit a certain reactivity. However, due to the steric hindrance effect of isoalkyl groups, their reactivity can be affected to a certain extent. In some chemical reactions, spatial hindrance or reaction is not easy to occur, or the reaction rate is slowed down.
As for the benzene ring, it has unique aromatic properties. The π electron cloud of the benzene ring is highly delocalized, forming a stable conjugate system. This conjugate structure endows the benzene ring with special chemical stability, making it less prone to addition reactions and prone to electrophilic substitution reactions.
Overall, the chemical stability of 1 + -alkane-4-isoalkylamino-2-ethylbenzene is complicated due to the interaction of the structures of each part. Although alkyl and benzene rings provide certain stability, the presence of isoalkylamino groups introduces the possibility of reactivity. Under general conditions, if there are no strong chemical reagents or special reaction conditions, the compound can maintain a relatively stable state; when exposed to specific chemical reaction environments, such as strong oxidants, strong acids and bases, etc., its molecular structure may change and exhibit different chemical behaviors.
What are the precautions in the synthesis of 1-chloro-4-isocyanate-2-methylbenzene?
Preparation of 1-bromo-4-isobromobenzoic acid-2-methyl benzene In the synthesis process, the following matters should be paid attention to:
First, the selection of raw materials must be cautious. The purity and quality of the raw materials have a great impact on the purity and yield of the product. The selected raw materials such as 1-bromo-4-isobromobenzoic acid and 2-methyl benzene should be strictly tested to ensure that the impurity content is low before they can be used in the synthesis reaction, so as to avoid impurities in the reaction process triggering side reactions and hindering the smooth progress of the main reaction.
Second, the control of the reaction conditions is the key. Temperature, pH, reaction time and other factors will affect the rate of reaction and the formation of products. If the temperature is too high, or the reaction is too violent, many side reactions will be triggered, and the purity of the product will be greatly affected; if the temperature is too low, the reaction rate will be slow, it will take a long time, and the yield will be difficult to achieve. For example, this synthesis reaction may require a specific temperature range to enable the reaction to proceed efficiently according to the established path. At the same time, the pH also needs to be precisely adjusted, because it plays a role in the stability and reactivity of the reaction intermediates. In addition, the reaction time must also be precisely controlled. If the time is too short, the reaction is not complete, and the yield of the product is insufficient. If the time is too long, it may lead to the decomposition of the product.
Third, the choice of solvent cannot be ignored. Solvents should not only have good solubility to the reactants to ensure uniform reaction, but also have no chemical reaction with the reactants and products. Suitable solvents can promote the collision between reactant molecules, increase the reaction rate, and help the separation and purification of products. Different solvents have different effects on the reaction, so the most suitable solvent should be selected according to the characteristics and requirements of the reaction.
Fourth, the separation and purification steps should not be underestimated. After the synthesis reaction is completed, the product is often mixed with impurities such as unreacted raw materials, by-products and solvents. To obtain high-purity products, suitable separation and purification methods, such as distillation, extraction, recrystallization, column chromatography, etc. During the operation, the operating procedures should be strictly followed to ensure that impurities are effectively removed and product loss is minimized.
Fifth, safety protection must be comprehensive. Some of the chemicals involved in the synthesis process may have toxic, corrosive, flammable and other dangerous characteristics. Experimenters must be familiar with the safety characteristics of various chemical substances, strictly implement safety operating procedures, and wear appropriate protective equipment, such as protective glasses, gloves, masks, etc. The experimental site should also be equipped with complete ventilation facilities and emergency treatment equipment to deal with sudden safety accidents.
First, the selection of raw materials must be cautious. The purity and quality of the raw materials have a great impact on the purity and yield of the product. The selected raw materials such as 1-bromo-4-isobromobenzoic acid and 2-methyl benzene should be strictly tested to ensure that the impurity content is low before they can be used in the synthesis reaction, so as to avoid impurities in the reaction process triggering side reactions and hindering the smooth progress of the main reaction.
Second, the control of the reaction conditions is the key. Temperature, pH, reaction time and other factors will affect the rate of reaction and the formation of products. If the temperature is too high, or the reaction is too violent, many side reactions will be triggered, and the purity of the product will be greatly affected; if the temperature is too low, the reaction rate will be slow, it will take a long time, and the yield will be difficult to achieve. For example, this synthesis reaction may require a specific temperature range to enable the reaction to proceed efficiently according to the established path. At the same time, the pH also needs to be precisely adjusted, because it plays a role in the stability and reactivity of the reaction intermediates. In addition, the reaction time must also be precisely controlled. If the time is too short, the reaction is not complete, and the yield of the product is insufficient. If the time is too long, it may lead to the decomposition of the product.
Third, the choice of solvent cannot be ignored. Solvents should not only have good solubility to the reactants to ensure uniform reaction, but also have no chemical reaction with the reactants and products. Suitable solvents can promote the collision between reactant molecules, increase the reaction rate, and help the separation and purification of products. Different solvents have different effects on the reaction, so the most suitable solvent should be selected according to the characteristics and requirements of the reaction.
Fourth, the separation and purification steps should not be underestimated. After the synthesis reaction is completed, the product is often mixed with impurities such as unreacted raw materials, by-products and solvents. To obtain high-purity products, suitable separation and purification methods, such as distillation, extraction, recrystallization, column chromatography, etc. During the operation, the operating procedures should be strictly followed to ensure that impurities are effectively removed and product loss is minimized.
Fifth, safety protection must be comprehensive. Some of the chemicals involved in the synthesis process may have toxic, corrosive, flammable and other dangerous characteristics. Experimenters must be familiar with the safety characteristics of various chemical substances, strictly implement safety operating procedures, and wear appropriate protective equipment, such as protective glasses, gloves, masks, etc. The experimental site should also be equipped with complete ventilation facilities and emergency treatment equipment to deal with sudden safety accidents.
What are the environmental effects of 1-chloro-4-isocyanate-2-methylbenzene?
The effects of 1 + -alkane-4-isoalkyl-2-methylbenzene on the environment are quite complex and have unique chemical characteristics and reactions.
Alkanes have high chemical stability in the environment, but their existence is not completely harmless. 1-alkane-4-isoalkyl-2-methylbenzene, due to its specific molecular structure, has an impact on multiple levels of the ecosystem.
In the atmospheric environment, this compound may undergo a series of complex changes due to light and chemical reactions. Its volatility causes it to exist in the air, or interact with other pollutants, affect the atmospheric chemical balance, and even participate in photochemical reactions, posing a potential threat to air quality.
In aquatic ecosystems, its hydrophobic characteristics make it difficult to dissolve in water, but it is easy to adsorb on suspended particles or sediments. This may affect the habitat environment of aquatic organisms and interfere with the physiological functions of organisms. Some aquatic organisms may be exposed to this compound, causing growth and reproduction to be blocked, and even biotoxic effects.
In the soil environment, the process of migration and transformation in the soil is closely related to soil texture, microbial community and other factors. It may affect the activity of soil microorganisms, change the ecological function of soil, and then affect the absorption of nutrients by plant roots, which has an indirect impact on plant growth and development.
In addition, the degradation process of this compound also needs attention. Its degradation rate in the environment is relatively slow, and long-term accumulation may cause the concentration in the environment to rise, which further exacerbates the harm to the ecological environment.
1-alkane-4-isoalkyl-2-methylbenzene in the atmosphere, water and soil environments. With its unique chemical structure and properties, it has a multi-faceted impact on various components of the environment. In order to clarify its harm mechanism, effective prevention and control measures need to be taken.
Alkanes have high chemical stability in the environment, but their existence is not completely harmless. 1-alkane-4-isoalkyl-2-methylbenzene, due to its specific molecular structure, has an impact on multiple levels of the ecosystem.
In the atmospheric environment, this compound may undergo a series of complex changes due to light and chemical reactions. Its volatility causes it to exist in the air, or interact with other pollutants, affect the atmospheric chemical balance, and even participate in photochemical reactions, posing a potential threat to air quality.
In aquatic ecosystems, its hydrophobic characteristics make it difficult to dissolve in water, but it is easy to adsorb on suspended particles or sediments. This may affect the habitat environment of aquatic organisms and interfere with the physiological functions of organisms. Some aquatic organisms may be exposed to this compound, causing growth and reproduction to be blocked, and even biotoxic effects.
In the soil environment, the process of migration and transformation in the soil is closely related to soil texture, microbial community and other factors. It may affect the activity of soil microorganisms, change the ecological function of soil, and then affect the absorption of nutrients by plant roots, which has an indirect impact on plant growth and development.
In addition, the degradation process of this compound also needs attention. Its degradation rate in the environment is relatively slow, and long-term accumulation may cause the concentration in the environment to rise, which further exacerbates the harm to the ecological environment.
1-alkane-4-isoalkyl-2-methylbenzene in the atmosphere, water and soil environments. With its unique chemical structure and properties, it has a multi-faceted impact on various components of the environment. In order to clarify its harm mechanism, effective prevention and control measures need to be taken.
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