Linshang Chemical
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1-Chloro-4-(Ethylsulfonyl)Benzene
Linshang Chemical
|
HS Code |
609312 |
| Chemical Formula | C8H9ClO2S |
| Molar Mass | 204.67 g/mol |
| Appearance | Solid (predicted) |
| Solubility In Water | Low solubility |
| Solubility In Organic Solvents | Soluble in common organic solvents like dichloromethane, chloroform |
| Vapor Pressure | Low vapor pressure at room temperature |
| Stability | Stable under normal conditions, but may react with strong oxidizing agents |
As an accredited 1-Chloro-4-(Ethylsulfonyl)Benzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 - chloro - 4 - (ethylsulfonyl)benzene in 500 - gram bottles for chemical packaging. |
| Storage | 1 - Chloro - 4 - (ethylsulfonyl)benzene should be stored in a cool, dry, well - ventilated area, away from heat sources and open flames. It should be kept in a tightly sealed container to prevent leakage and exposure to air or moisture. Store it separately from oxidizing agents, acids, and bases to avoid potential chemical reactions. |
| Shipping | 1 - chloro - 4 - (ethylsulfonyl)benzene is shipped in accordance with strict chemical transport regulations. Packed in appropriate containers to prevent leakage, transported by specialized carriers ensuring safety during transit. |
Competitive 1-Chloro-4-(Ethylsulfonyl)Benzene prices that fit your budget—flexible terms and customized quotes for every order.
For samples, pricing, or more information, please call us at +8615365006308 or mail to info@alchemist-chem.com.
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Tel: +8615365006308
Email: info@alchemist-chem.com
Where to Buy 1-Chloro-4-(Ethylsulfonyl)Benzene in China?
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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-(Ethylsulfonyl)Benzene supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
What are the main uses of 1-chloro-4- (ethanesulfonyl) benzene?
1 + -Amino-4- (acetylaniline) naphthalene, which is commonly used in dye synthesis. It can be used as an important medium in the field of dyes, and can generate multi-color and high-quality dyes from a series of inverse dyes. It is used in the fields of printing, dyeing, etc., so that the dye is rich in color.
And because of its unique characteristics, in some synthetic processes, it can be used as a starting material for specific molecules. Through ingenious inverse methods, other functionalities are introduced to expand the versatility of compounds, and new research, materials science, and other fields provide valuable first compounds.
In chemical research, 1 + -ammonia-4- (acetylaniline) naphthalene is also an example of chemical research, helping scientists to clarify the method, explore the law, and improve the efficiency of chemical research.
And because of its unique characteristics, in some synthetic processes, it can be used as a starting material for specific molecules. Through ingenious inverse methods, other functionalities are introduced to expand the versatility of compounds, and new research, materials science, and other fields provide valuable first compounds.
In chemical research, 1 + -ammonia-4- (acetylaniline) naphthalene is also an example of chemical research, helping scientists to clarify the method, explore the law, and improve the efficiency of chemical research.
What are the physical properties of 1-chloro-4- (ethanesulfonyl) benzene?
1 + - xenon-4- (acetylaniline) naphthalene, this substance is an organic compound. Its physical properties are unique. Under normal temperature and pressure, it usually appears in a solid state. This is due to the relatively strong intermolecular forces, which makes the molecular arrangement relatively regular and tight.
Looking at its color, it is often white or almost white. Such color characteristics are quite common in many organic compounds, which is related to the absorption and reflection characteristics of light by its molecular structure.
When it comes to solubility, it shows a certain solubility in some organic solvents, such as ethanol, ether and other organic solvents, which can form a uniform and stable dispersion system with it. This is due to the existence of appropriate interaction forces between the compound molecule and the organic solvent molecule, such as van der Waals force, hydrogen bond, etc., which promotes the dissolution process. However, the solubility in water is relatively low, because water, as a solvent with strong polarity, has a large difference in polarity between molecules and the organic compound. The molecular interaction is weak, and it is difficult to overcome the cohesion between solute molecules, so it is not easy to dissolve.
Its melting point is within a specific range, and this melting point value depends on the structure and interaction of the molecule. The chemical bond energy and spatial arrangement between molecules jointly determine the energy required to convert from solid to liquid, and then determine the melting point. By accurately measuring the melting point, it can be used as one of the important basis for identifying the purity and structure of the compound.
In addition, it also has a specific density, which reflects the mass per unit volume of the substance and is closely related to the size, mass and packing method of the molecule. The unique density properties enable the appropriate method to be selected according to the density difference during experimental operations such as separation and purification, such as centrifugation and extraction, in order to achieve effective treatment and analysis of the compound.
Looking at its color, it is often white or almost white. Such color characteristics are quite common in many organic compounds, which is related to the absorption and reflection characteristics of light by its molecular structure.
When it comes to solubility, it shows a certain solubility in some organic solvents, such as ethanol, ether and other organic solvents, which can form a uniform and stable dispersion system with it. This is due to the existence of appropriate interaction forces between the compound molecule and the organic solvent molecule, such as van der Waals force, hydrogen bond, etc., which promotes the dissolution process. However, the solubility in water is relatively low, because water, as a solvent with strong polarity, has a large difference in polarity between molecules and the organic compound. The molecular interaction is weak, and it is difficult to overcome the cohesion between solute molecules, so it is not easy to dissolve.
Its melting point is within a specific range, and this melting point value depends on the structure and interaction of the molecule. The chemical bond energy and spatial arrangement between molecules jointly determine the energy required to convert from solid to liquid, and then determine the melting point. By accurately measuring the melting point, it can be used as one of the important basis for identifying the purity and structure of the compound.
In addition, it also has a specific density, which reflects the mass per unit volume of the substance and is closely related to the size, mass and packing method of the molecule. The unique density properties enable the appropriate method to be selected according to the density difference during experimental operations such as separation and purification, such as centrifugation and extraction, in order to achieve effective treatment and analysis of the compound.
Is 1-chloro-4- (ethylsulfonyl) benzene chemically stable?
(1) The properties of this substance are related to the ends of gas, number and quality. To know (1) whether the chemical properties of this substance (1 + -bromo-4- (ethoxycarbonyl) benzene) are stable, it is necessary to explore in detail from the aspects of its structure, bond energy and environment.
Looking at its structure, the benzene ring is a stable conjugated system, and the electron cloud is highly delocalized, which endows the molecule with certain stability. (1) Although the bromine atom in this substance has a certain activity, its activity may be slightly reduced due to the conjugation effect of the benzene ring. On the other hand, the ethoxycarbonyl group, which is connected to the benzene ring, also has an effect on the distribution of the molecular electron cloud. The carbonyl group in the ethoxycarbonyl group has electron-absorbing properties, which will reduce the electron cloud density of the benzene ring and may affect the activity of other substituents on the benzene ring.
From the perspective of bond energy, the carbon-carbon bond in the benzene ring is between the single bond and the double bond, and the bond energy is large, which is not easy to break. The bond energy of the carbon-bromine bond connected to the benzene ring also has a certain value. If the external conditions are not enough to provide the energy required to break the bond, this chemical substance can remain stable to a certain extent. However, the polarity of the carbon-bromine bond makes it possible to react with substitution under the action of specific reagents.
The environment in which it is located also has a great impact on its stability. In an environment at room temperature and pressure without special reagents, (1) this substance is relatively stable. However, in case of high temperature, strong light or specific catalysts, as well as strong nucleophiles, strong oxidizing agents, etc., the stability of its chemical properties may be challenged. For example, under the conditions of nucleophilic substitution, bromine atoms may be replaced by nucleophiles; in case of strong oxidizing agents, ethoxycarbonyl and other parts may be oxidized.
In summary, the chemical stability of (1 + -bromo-4- (ethoxycarbonyl) benzene is not absolute, and it can be relatively stable under general mild conditions. However, under the action of specific external factors, or a chemical reaction occurs, the stability changes.
Looking at its structure, the benzene ring is a stable conjugated system, and the electron cloud is highly delocalized, which endows the molecule with certain stability. (1) Although the bromine atom in this substance has a certain activity, its activity may be slightly reduced due to the conjugation effect of the benzene ring. On the other hand, the ethoxycarbonyl group, which is connected to the benzene ring, also has an effect on the distribution of the molecular electron cloud. The carbonyl group in the ethoxycarbonyl group has electron-absorbing properties, which will reduce the electron cloud density of the benzene ring and may affect the activity of other substituents on the benzene ring.
From the perspective of bond energy, the carbon-carbon bond in the benzene ring is between the single bond and the double bond, and the bond energy is large, which is not easy to break. The bond energy of the carbon-bromine bond connected to the benzene ring also has a certain value. If the external conditions are not enough to provide the energy required to break the bond, this chemical substance can remain stable to a certain extent. However, the polarity of the carbon-bromine bond makes it possible to react with substitution under the action of specific reagents.
The environment in which it is located also has a great impact on its stability. In an environment at room temperature and pressure without special reagents, (1) this substance is relatively stable. However, in case of high temperature, strong light or specific catalysts, as well as strong nucleophiles, strong oxidizing agents, etc., the stability of its chemical properties may be challenged. For example, under the conditions of nucleophilic substitution, bromine atoms may be replaced by nucleophiles; in case of strong oxidizing agents, ethoxycarbonyl and other parts may be oxidized.
In summary, the chemical stability of (1 + -bromo-4- (ethoxycarbonyl) benzene is not absolute, and it can be relatively stable under general mild conditions. However, under the action of specific external factors, or a chemical reaction occurs, the stability changes.
What are the preparation methods of 1-chloro-4- (ethylsulfonyl) benzene?
To make an additive and subtractive aniline (acetylaniline), the method is as follows:
First add a number of aniline, and use acetic anhydride to reverse the pressure. In the container of the pressure, put the aniline in the pressure, and add the acetic anhydride. When the two meet, it is necessary to pay attention to the control of the temperature. If the temperature is high, the reaction will be high, and other effects will not be generated; if the temperature is low, the reaction will be low, and the effect will be low. Usually, the degree is medium, so that the reaction will be determined.
After the reaction is completed, the resulting mixture contains the targeted acetylaniline, as well as the unreversed substance and by-products. This problem needs to be mentioned in an appropriate way.
can be first dissolved with a small amount of soluble mixture, and different substances have different solubility in solution. Using this property, acetylaniline can be divided into other substances. If it is soluble in water or in water, according to its nature. The method of dissolution, or the method of dissolution, to remove its insolubility; or by the method of separation, the liquid of different times can be divided.
, and then by steaming, cold crystallization, etc., acetylaniline can be precipitated from the solution. Cold, acetylaniline can be solidified, and then collected, and washed with a small amount of washing to remove the waste attached to it, and the most dry, the acetylaniline can be obtained. This is the completion of adding and subtracting acetylaniline.
First add a number of aniline, and use acetic anhydride to reverse the pressure. In the container of the pressure, put the aniline in the pressure, and add the acetic anhydride. When the two meet, it is necessary to pay attention to the control of the temperature. If the temperature is high, the reaction will be high, and other effects will not be generated; if the temperature is low, the reaction will be low, and the effect will be low. Usually, the degree is medium, so that the reaction will be determined.
After the reaction is completed, the resulting mixture contains the targeted acetylaniline, as well as the unreversed substance and by-products. This problem needs to be mentioned in an appropriate way.
can be first dissolved with a small amount of soluble mixture, and different substances have different solubility in solution. Using this property, acetylaniline can be divided into other substances. If it is soluble in water or in water, according to its nature. The method of dissolution, or the method of dissolution, to remove its insolubility; or by the method of separation, the liquid of different times can be divided.
, and then by steaming, cold crystallization, etc., acetylaniline can be precipitated from the solution. Cold, acetylaniline can be solidified, and then collected, and washed with a small amount of washing to remove the waste attached to it, and the most dry, the acetylaniline can be obtained. This is the completion of adding and subtracting acetylaniline.
What should be paid attention to when storing and transporting 1-chloro-4- (ethanesulfonyl) benzene?
1 + -Alkane-4- (ethoxycarbonyl) quinine should pay attention to the following aspects when storing and transporting.
Safety is the first priority. This is the top priority, because it may have certain chemical activity and potential danger. When storing, it should be placed in a cool, dry and well-ventilated place, away from fire sources, heat sources and strong oxidants. If it is close to a fire source, in case of high temperature or open flame, it is very likely to cause the danger of combustion or even explosion, endangering the safety of personnel and facilities. During transportation, it is also necessary to strictly avoid such sources of danger to ensure a safe and stable transportation environment.
Second is packaging. Packaging must be tight and firm to prevent leakage. Choose the appropriate packaging material and ensure that the packaging has good tolerance according to its chemical properties. For example, use containers with good sealing performance to prevent alkane-4- (ethoxy carbonyl) quinine from deteriorating in contact with the external environment or leaking to pollute the environment. During transportation, the packaging should be able to withstand certain vibrations and collisions without damage.
The other is the logo. Both the storage place and the transportation container should be clearly marked with its name, characteristics, hazard warnings and other key information. In this way, when operating and handling, personnel can quickly know its nature and take correct protective and emergency measures. For example, warning words such as "flammable" and "toxic" should be marked so that contacts can take precautions in advance.
In addition, the storage and transportation volume also need to be controlled. According to actual needs and safety regulations, the storage capacity should be reasonably determined to avoid the risk of large-scale accumulation. When transporting, follow the relevant transportation limit requirements and do not exceed the transportation to ensure the safety of transportation.
Finally, personnel should be professional in operation. Personnel related to storage and transportation should be professionally trained and familiar with the characteristics, operating procedures and emergency treatment methods of alkane-4- (ethoxycarbonyl) quinine. In the event of a leak, correct measures can be taken quickly, such as evacuating personnel, plugging the source of the leak, cleaning up pollutants, etc., to minimize the harm.
Safety is the first priority. This is the top priority, because it may have certain chemical activity and potential danger. When storing, it should be placed in a cool, dry and well-ventilated place, away from fire sources, heat sources and strong oxidants. If it is close to a fire source, in case of high temperature or open flame, it is very likely to cause the danger of combustion or even explosion, endangering the safety of personnel and facilities. During transportation, it is also necessary to strictly avoid such sources of danger to ensure a safe and stable transportation environment.
Second is packaging. Packaging must be tight and firm to prevent leakage. Choose the appropriate packaging material and ensure that the packaging has good tolerance according to its chemical properties. For example, use containers with good sealing performance to prevent alkane-4- (ethoxy carbonyl) quinine from deteriorating in contact with the external environment or leaking to pollute the environment. During transportation, the packaging should be able to withstand certain vibrations and collisions without damage.
The other is the logo. Both the storage place and the transportation container should be clearly marked with its name, characteristics, hazard warnings and other key information. In this way, when operating and handling, personnel can quickly know its nature and take correct protective and emergency measures. For example, warning words such as "flammable" and "toxic" should be marked so that contacts can take precautions in advance.
In addition, the storage and transportation volume also need to be controlled. According to actual needs and safety regulations, the storage capacity should be reasonably determined to avoid the risk of large-scale accumulation. When transporting, follow the relevant transportation limit requirements and do not exceed the transportation to ensure the safety of transportation.
Finally, personnel should be professional in operation. Personnel related to storage and transportation should be professionally trained and familiar with the characteristics, operating procedures and emergency treatment methods of alkane-4- (ethoxycarbonyl) quinine. In the event of a leak, correct measures can be taken quickly, such as evacuating personnel, plugging the source of the leak, cleaning up pollutants, etc., to minimize the harm.
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