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4,4'-Oxybis(N-(4-Chlorophenyl)Benzenesulfonamide)
Linshang Chemical
|
HS Code |
951238 |
| Chemical Name | 4,4'-Oxybis(N-(4-Chlorophenyl)Benzenesulfonamide) |
| Molecular Formula | C24H18Cl2N2O4S2 |
| Molecular Weight | 535.45 g/mol |
| Appearance | Typically a solid (description may vary) |
| Physical State | Solid at standard conditions |
| Solubility | Solubility characteristics would depend on solvents; may be sparingly soluble in water |
| Melting Point | Specific melting point data would need to be experimentally determined |
| Boiling Point | Boiling point data would require experimental determination |
| Density | Density information would need experimental measurement |
| Pka | Acid dissociation constant (pKa) would be determined by experimental means |
As an accredited 4,4'-Oxybis(N-(4-Chlorophenyl)Benzenesulfonamide) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of 4,4'-oxybis(N-(4-chlorophenyl)benzenesulfonamide) in sealed plastic bags. |
| Storage | 4,4'-oxybis(N-(4-chlorophenyl)benzenesulfonamide) should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, ignition sources, and incompatible substances. Store in a tightly closed container to prevent moisture absorption and potential degradation. Avoid exposure to sunlight as it may affect its stability. |
| Shipping | 4,4'-oxybis(n-(4 - chlorophenyl)benzenesulfonamide) is shipped in accordance with chemical regulations. Packed securely in suitable containers, it's transported by approved carriers to ensure safe delivery. |
Competitive 4,4'-Oxybis(N-(4-Chlorophenyl)Benzenesulfonamide) prices that fit your budget—flexible terms and customized quotes for every order.
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What is the chemical structure of 4,4 '-oxybis (n- (4-chlorophenyl) benzenesulfonamide)?
The chemical structure of 4,4 '-oxobis (N- (4-chlorophenyl) benzenesulfonamide) is a delicate object of study in organic chemistry. This compound is formed by bonding specific atoms in a specific way.
Looking at its overall structure, the oxygen atom is used as a bridge to connect two nitrogen-containing benzenesulfonamide groups. Among them, the nitrogen atom is cleverly connected to the 4-chlorophenyl group and the benzenesulfonyl group. On the benzenesulfonamide part, the sulfonyl group (-SO -2 NH -) is connected to another benzene ring through a nitrogen atom, which gives the compound a specific electronic effect and spatial configuration. In the 4-chlorophenyl group, the chlorine atom is connected to a specific position in the benzene ring. The electronegativity of the chlorine atom affects the electron cloud distribution of the whole molecule, which in turn affects the physical and chemical properties of the compound.
The structural design of this compound contains exquisite chemistry, and the interaction of its parts jointly determines its potential uses and characteristics in organic synthesis, drug development and other fields. Its unique structure provides an important infrastructure for chemists to explore new reaction paths and develop functional materials, and occupies an important position in the development process of chemical science.
Looking at its overall structure, the oxygen atom is used as a bridge to connect two nitrogen-containing benzenesulfonamide groups. Among them, the nitrogen atom is cleverly connected to the 4-chlorophenyl group and the benzenesulfonyl group. On the benzenesulfonamide part, the sulfonyl group (-SO -2 NH -) is connected to another benzene ring through a nitrogen atom, which gives the compound a specific electronic effect and spatial configuration. In the 4-chlorophenyl group, the chlorine atom is connected to a specific position in the benzene ring. The electronegativity of the chlorine atom affects the electron cloud distribution of the whole molecule, which in turn affects the physical and chemical properties of the compound.
The structural design of this compound contains exquisite chemistry, and the interaction of its parts jointly determines its potential uses and characteristics in organic synthesis, drug development and other fields. Its unique structure provides an important infrastructure for chemists to explore new reaction paths and develop functional materials, and occupies an important position in the development process of chemical science.
What are the main uses of 4,4 '-oxybis (n- (4-chlorophenyl) benzenesulfonamide)?
4,4 '-Oxobis (N - (4 -chlorophenyl) benzenesulfonamide) is one of the organic compounds. It has a wide range of uses in the field of medicine, or can be used as a key intermediate for drug research and development. Because of its specific chemical activity, it can interact with specific targets in organisms, thus helping to create new drugs, which is beneficial to the treatment or prevention of diseases.
In the field of materials science, it also has its uses. Or it can participate in the synthesis of polymer materials, giving materials unique properties such as enhanced stability and improved mechanical properties. Because of its special chemical structure, it may be able to build a stable chemical bond network inside the material to improve the overall quality of the material.
In addition, at the level of scientific research and exploration, as an important chemical reagent, it provides strong support for research in the fields of organic synthesis, medicinal chemistry, etc. Researchers can explore new chemical reaction paths through in-depth investigation of their chemical properties and reaction mechanisms, and promote the continuous development of related disciplines. In short, 4,4 '-oxobis (N- (4' chlorophenyl) benzenesulfonamide) has shown important application value in many fields, making great contributions to scientific progress and technological innovation.
In the field of materials science, it also has its uses. Or it can participate in the synthesis of polymer materials, giving materials unique properties such as enhanced stability and improved mechanical properties. Because of its special chemical structure, it may be able to build a stable chemical bond network inside the material to improve the overall quality of the material.
In addition, at the level of scientific research and exploration, as an important chemical reagent, it provides strong support for research in the fields of organic synthesis, medicinal chemistry, etc. Researchers can explore new chemical reaction paths through in-depth investigation of their chemical properties and reaction mechanisms, and promote the continuous development of related disciplines. In short, 4,4 '-oxobis (N- (4' chlorophenyl) benzenesulfonamide) has shown important application value in many fields, making great contributions to scientific progress and technological innovation.
What are the physical properties of 4,4 '-oxybis (n- (4-chlorophenyl) benzenesulfonamide)?
4,4 '-Oxobis (N- (4-chlorophenyl) benzenesulfonamide) is one of the organic compounds. Its physical properties are quite important, and it is related to the application and characteristics of this compound.
First of all, its appearance, under normal conditions, may be white to white-like crystalline powder. This color state is an important characteristic in the identification of many chemical substances, just like human appearance, and is a key feature for initial recognition. Its powder-like morphology is conducive to dispersion and mixing, and it is quite convenient in chemical production and experimental operations.
As for the melting point, the melting point of this substance may be in a specific range, about [X] ° C. The melting point is the inherent property of the substance, just like the unique imprint of human beings, and the melting point of different substances is different. Accurately knowing the melting point can help to identify the purity. For those with high purity, the melting point range is narrow and approaches the theoretical value.
In terms of solubility, it may have a certain solubility in common organic solvents, such as ethanol and acetone. However, in water, the solubility may be very small. This characteristic affects its application in different systems. In the preparation of pharmaceuticals, it is necessary to choose the appropriate solvent according to the solubility to achieve the best efficacy.
In addition, its density is also a key physical property. Although the exact value varies depending on the measurement conditions, a reasonable density range is essential for its storage and transportation planning. Density is related to the material and method of packaging, ensuring transportation safety and storage stability. The physical properties of 4,4 '-oxobis (N- (4-chlorophenyl) benzenesulfonamide), such as appearance, melting point, solubility, and density, each have their own uses, and are of great significance for the research and application of chemical and pharmaceutical fields. Just like the cornerstone of a tall building, it lays the foundation for further exploration of its chemical properties and practical uses.
First of all, its appearance, under normal conditions, may be white to white-like crystalline powder. This color state is an important characteristic in the identification of many chemical substances, just like human appearance, and is a key feature for initial recognition. Its powder-like morphology is conducive to dispersion and mixing, and it is quite convenient in chemical production and experimental operations.
As for the melting point, the melting point of this substance may be in a specific range, about [X] ° C. The melting point is the inherent property of the substance, just like the unique imprint of human beings, and the melting point of different substances is different. Accurately knowing the melting point can help to identify the purity. For those with high purity, the melting point range is narrow and approaches the theoretical value.
In terms of solubility, it may have a certain solubility in common organic solvents, such as ethanol and acetone. However, in water, the solubility may be very small. This characteristic affects its application in different systems. In the preparation of pharmaceuticals, it is necessary to choose the appropriate solvent according to the solubility to achieve the best efficacy.
In addition, its density is also a key physical property. Although the exact value varies depending on the measurement conditions, a reasonable density range is essential for its storage and transportation planning. Density is related to the material and method of packaging, ensuring transportation safety and storage stability. The physical properties of 4,4 '-oxobis (N- (4-chlorophenyl) benzenesulfonamide), such as appearance, melting point, solubility, and density, each have their own uses, and are of great significance for the research and application of chemical and pharmaceutical fields. Just like the cornerstone of a tall building, it lays the foundation for further exploration of its chemical properties and practical uses.
What is the synthesis method of 4,4 '-oxybis (n- (4-chlorophenyl) benzenesulfonamide)?
The synthesis of 4,4 '-oxobis (N- (4-chlorophenyl) benzenesulfonamide) is an important research in the field of chemistry. To make this substance, a specific chemical path is often followed.
First, select a suitable starting material. Usually start with a compound containing a specific functional group, such as a benzene ring and a reactive group. 4-chloroaniline is often one of the key starting materials. Due to the presence of chlorine atoms and amino groups, it can initiate many subsequent reactions.
Then, a sulfonylation reaction is carried out. 4-chloroaniline is mixed with benzenesulfonyl chloride under appropriate reaction conditions. This reaction often needs to be carried out in an alkaline environment to promote the reaction forward. The alkali can be selected from pyridine and the like, which can neutralize the hydrogen chloride generated by the reaction and promote the right shift of the equilibrium. During the reaction, the temperature also needs to be precisely controlled, usually between low temperature and room temperature, such as 0-30 ° C, to ensure the selectivity of the reaction and avoid side reactions.
Next, an oxygen bridge structure needs to be constructed. This step is often achieved by a specific oxidative coupling reaction. For example, using a suitable oxidant, under the action of a catalyst, prompts the connection of two molecules of sulfonated 4-chloroaniline to form an oxygen bridge. The oxidant used can depend on the specific reaction system, such as peroxide oxidants catalyzed by some transition metals. The catalyst can be selected from copper salts to accelerate the reaction process and improve the reaction efficiency.
During the entire synthesis process, precise control of reaction conditions is crucial. Factors such as reaction time, temperature, and the proportion of reactants all have a significant impact on the purity and yield of the product. After the reaction is completed, purification steps such as column chromatography and recrystallization are required to obtain high-purity 4,4 '-oxo-bis (N- (4-chlorophenyl) benzenesulfonamide). In this way, its effective synthesis can be achieved.
First, select a suitable starting material. Usually start with a compound containing a specific functional group, such as a benzene ring and a reactive group. 4-chloroaniline is often one of the key starting materials. Due to the presence of chlorine atoms and amino groups, it can initiate many subsequent reactions.
Then, a sulfonylation reaction is carried out. 4-chloroaniline is mixed with benzenesulfonyl chloride under appropriate reaction conditions. This reaction often needs to be carried out in an alkaline environment to promote the reaction forward. The alkali can be selected from pyridine and the like, which can neutralize the hydrogen chloride generated by the reaction and promote the right shift of the equilibrium. During the reaction, the temperature also needs to be precisely controlled, usually between low temperature and room temperature, such as 0-30 ° C, to ensure the selectivity of the reaction and avoid side reactions.
Next, an oxygen bridge structure needs to be constructed. This step is often achieved by a specific oxidative coupling reaction. For example, using a suitable oxidant, under the action of a catalyst, prompts the connection of two molecules of sulfonated 4-chloroaniline to form an oxygen bridge. The oxidant used can depend on the specific reaction system, such as peroxide oxidants catalyzed by some transition metals. The catalyst can be selected from copper salts to accelerate the reaction process and improve the reaction efficiency.
During the entire synthesis process, precise control of reaction conditions is crucial. Factors such as reaction time, temperature, and the proportion of reactants all have a significant impact on the purity and yield of the product. After the reaction is completed, purification steps such as column chromatography and recrystallization are required to obtain high-purity 4,4 '-oxo-bis (N- (4-chlorophenyl) benzenesulfonamide). In this way, its effective synthesis can be achieved.
What are the safety precautions for 4,4 '-oxybis (n- (4-chlorophenyl) benzenesulfonamide)?
4,4 '-Oxobis (N - (4 -chlorophenyl) benzenesulfonamide) This product is related to many safety precautions, let me elaborate.
First of all, this product is chemically toxic. On the way to contact, if unprotected, it may penetrate through the skin, causing skin damage, rash, itching, redness, swelling and tingling. Accidentally entering the eyes can cause strong irritation to the eyes, damage eye tissue, and even affect vision. If inhaled its dust or vapor, it will endanger the respiratory tract, cause cough, asthma, poor breathing, etc. Long-term exposure, or cause chronic respiratory diseases.
Furthermore, extreme caution is required in storage. It should be placed in a cool, dry and well-ventilated place, away from fire and heat sources. Due to its nature or instability, it may be exposed to heat or specific chemicals, or there may be a violent reaction, or even cause an explosion, which is extremely harmful. When mixed with other chemicals, it is also necessary to pay attention to their compatibility to prevent interaction and produce toxic and harmful substances.
When using, the operator must be fully armed. Wear protective clothing, protective gloves, goggles and gas masks to ensure their own safety. The operating environment should also be well ventilated, or professional ventilation equipment should be installed to discharge harmful steam and dust in time. After the experiment or production is completed, the equipment and site used should be thoroughly cleaned to prevent subsequent harm caused by residual substances.
In short, although 4,4 '-oxobis (N - (4 -chlorophenyl) benzenesulfonamide) may be used in the chemical industry and other fields, its latent risk is huge, whether it is contact, storage or use, it is necessary to strictly follow safety procedures, must not be taken lightly, in order to ensure the safety of personnel and the environment is not violated.
First of all, this product is chemically toxic. On the way to contact, if unprotected, it may penetrate through the skin, causing skin damage, rash, itching, redness, swelling and tingling. Accidentally entering the eyes can cause strong irritation to the eyes, damage eye tissue, and even affect vision. If inhaled its dust or vapor, it will endanger the respiratory tract, cause cough, asthma, poor breathing, etc. Long-term exposure, or cause chronic respiratory diseases.
Furthermore, extreme caution is required in storage. It should be placed in a cool, dry and well-ventilated place, away from fire and heat sources. Due to its nature or instability, it may be exposed to heat or specific chemicals, or there may be a violent reaction, or even cause an explosion, which is extremely harmful. When mixed with other chemicals, it is also necessary to pay attention to their compatibility to prevent interaction and produce toxic and harmful substances.
When using, the operator must be fully armed. Wear protective clothing, protective gloves, goggles and gas masks to ensure their own safety. The operating environment should also be well ventilated, or professional ventilation equipment should be installed to discharge harmful steam and dust in time. After the experiment or production is completed, the equipment and site used should be thoroughly cleaned to prevent subsequent harm caused by residual substances.
In short, although 4,4 '-oxobis (N - (4 -chlorophenyl) benzenesulfonamide) may be used in the chemical industry and other fields, its latent risk is huge, whether it is contact, storage or use, it is necessary to strictly follow safety procedures, must not be taken lightly, in order to ensure the safety of personnel and the environment is not violated.
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