Linshang Chemical
PRODUCTS
N-Phenyl-N-(Trichloromethylsulfenyl)Benzene Sulfonamide
Linshang Chemical
|
HS Code |
632810 |
| Chemical Formula | C13H10Cl3NO2S2 |
| Molecular Weight | 384.71 |
| Appearance | Solid |
| Odor | Typical sulfonamide - like odor |
| Solubility In Water | Low solubility |
| Solubility In Organic Solvents | Soluble in some organic solvents like dichloromethane |
| Melting Point | Around 90 - 95 °C |
| Boiling Point | Decomposes before boiling |
| Vapor Pressure | Low vapor pressure |
| Stability | Stable under normal conditions but may react with strong oxidizing agents |
As an accredited N-Phenyl-N-(Trichloromethylsulfenyl)Benzene Sulfonamide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of N - phenyl - n - (trichloromethylsulfenyl)benzene Sulfonamide in sealed chemical - grade bags. |
| Storage | **Storage of N - phenyl - N - (trichloromethylsulfenyl)benzene Sulfonamide**: Store this chemical in a cool, dry, well - ventilated area, away from heat sources and open flames. Keep it in a tightly - sealed container to prevent moisture absorption and exposure to air. Separate it from incompatible substances like oxidizing agents. Adhere to proper labeling for easy identification and safety compliance. |
| Shipping | N - phenyl - N - (trichloromethylsulfenyl)benzene Sulfonamide is a chemical. Shipping should be in accordance with strict hazardous materials regulations, using appropriate packaging to prevent leakage and ensure safe transportation. |
Competitive N-Phenyl-N-(Trichloromethylsulfenyl)Benzene Sulfonamide 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.
We will respond to you as soon as possible.
Tel: +8615365006308
Email: info@alchemist-chem.com
Where to Buy N-Phenyl-N-(Trichloromethylsulfenyl)Benzene Sulfonamide in China?
As a trusted N-Phenyl-N-(Trichloromethylsulfenyl)Benzene Sulfonamide 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 N-Phenyl-N-(Trichloromethylsulfenyl)Benzene Sulfonamide 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 use of N-phenyl-n- (trichloromethylsulfenyl) benzene Sulfonamide
N - phenyl - N - (trichloromethylsulfenyl) benzene sulfonamide, this is an organic compound. Looking at its characteristics, it often shows unique functions in the application of chemical materials recorded in many ancient books.
In the field of material protection, it can be used as a key component of special protective coatings. Because the compound structure contains specific groups, such as trichloromethyl and sulfonamide groups, it can endow the coating with excellent chemical stability and corrosion resistance. Coating the surface of some devices and devices that need to resist harsh chemical environments can maintain material integrity for a long time and delay the process of chemical attack, just like building a strong barrier for the material to protect it from external adverse factors.
Furthermore, in some specific chemical reaction systems, this compound can act as a catalyst or reaction intermediate. Its unique molecular structure can effectively reduce the activation energy of the reaction, promote the progress of a specific reaction path, and improve the reaction rate and product selectivity. Similar records are also recorded in ancient books. It is mentioned that some exquisite chemical synthesis methods use the unique properties of such compounds to skillfully adjust the direction and degree of reaction to achieve efficient preparation of the desired product, just like a craftsman using unique tools to precisely carve and achieve extraordinary craftsmanship.
In addition, in some high-end materials research and development fields, N-phenyl-N - (trichloromethylsulfenyl) benzene Sulfonamide can be used to improve the physical properties of materials. For example, introducing it into the polymer material system in an appropriate amount can adjust the balance between material flexibility, hardness and thermal stability. Although the ancient books do not fully fit the detailed description of modern high-end material research and development, the chemical principles contained in them are the same, all of which are for the purpose of optimizing material properties through the clever use of material properties, just like the ancients constantly explored material proportions and processing methods in traditional processes to improve product quality.
In the field of material protection, it can be used as a key component of special protective coatings. Because the compound structure contains specific groups, such as trichloromethyl and sulfonamide groups, it can endow the coating with excellent chemical stability and corrosion resistance. Coating the surface of some devices and devices that need to resist harsh chemical environments can maintain material integrity for a long time and delay the process of chemical attack, just like building a strong barrier for the material to protect it from external adverse factors.
Furthermore, in some specific chemical reaction systems, this compound can act as a catalyst or reaction intermediate. Its unique molecular structure can effectively reduce the activation energy of the reaction, promote the progress of a specific reaction path, and improve the reaction rate and product selectivity. Similar records are also recorded in ancient books. It is mentioned that some exquisite chemical synthesis methods use the unique properties of such compounds to skillfully adjust the direction and degree of reaction to achieve efficient preparation of the desired product, just like a craftsman using unique tools to precisely carve and achieve extraordinary craftsmanship.
In addition, in some high-end materials research and development fields, N-phenyl-N - (trichloromethylsulfenyl) benzene Sulfonamide can be used to improve the physical properties of materials. For example, introducing it into the polymer material system in an appropriate amount can adjust the balance between material flexibility, hardness and thermal stability. Although the ancient books do not fully fit the detailed description of modern high-end material research and development, the chemical principles contained in them are the same, all of which are for the purpose of optimizing material properties through the clever use of material properties, just like the ancients constantly explored material proportions and processing methods in traditional processes to improve product quality.
What are the physicochemical properties of N-phenyl-n- (trichloromethylsulfenyl) benzene Sulfonamide
N - phenyl - N - (trichloromethylsulfenyl) benzene sulfonamide, this is an organic compound. Its physical and chemical properties are critical and related to many applications.
When it comes to appearance, this compound is often solid, mostly white or almost white powdery substances, with fine texture. Under light, its uniform color can be seen, and there is no obvious variegation and foreign matter.
Its melting point has been carefully determined to be about a specific temperature range. This temperature range is the inherent characteristic of the compound and is extremely important for identification and purification. During the heating process, when the temperature approaches the lower limit of this range, the molecules begin to activate, and the lattice structure gradually loosens. When the melting point is reached, the solid state quickly changes to the liquid state, and the state change can be clearly observed.
Solubility is also an important property. In common organic solvents, such as ethanol, acetone, etc., it exhibits a certain solubility. In ethanol, it can be partially dissolved after stirring and appropriate heating to form a homogeneous solution. This property is conducive to its use as a reactant or intermediate in organic synthesis reactions, making it easy to participate in various chemical reactions. By adjusting the type and amount of solvent, the reaction process and product purity can be controlled.
In terms of stability, the compound is relatively stable in a dry environment at room temperature and pressure, and can be stored for a long time without significant chemical changes. However, if placed at high temperature, high humidity or strong light, it may decompose slowly. High temperature will intensify the thermal movement of molecules, causing chemical bonds to break, leading to decomposition; high-energy photons in light can also initiate photochemical reactions, causing structural changes. Therefore, when storing, it needs to be placed in a cool, dry and dark place.
Its density is also a specific value. In related industrial production and experimental operations, this parameter is related to the material ratio and reaction system design. By accurately measuring the density, the relationship between mass and volume in different states can be accurately grasped, ensuring the accuracy and reliability of production and experiments.
In addition, the odor of this compound is weak and unique. Although it is not pungent and smelly, it is also different from common odorless substances. This odor characteristic can be used as a reference for preliminary identification and judgment.
N - phenyl - N - (trichloromethylsulfenyl) benzene Sulfonamide has rich and diverse physical and chemical properties, and each property is related to each other. It plays an important role in the fields of organic chemistry research and chemical production. In-depth understanding of these properties can make better use of this compound.
When it comes to appearance, this compound is often solid, mostly white or almost white powdery substances, with fine texture. Under light, its uniform color can be seen, and there is no obvious variegation and foreign matter.
Its melting point has been carefully determined to be about a specific temperature range. This temperature range is the inherent characteristic of the compound and is extremely important for identification and purification. During the heating process, when the temperature approaches the lower limit of this range, the molecules begin to activate, and the lattice structure gradually loosens. When the melting point is reached, the solid state quickly changes to the liquid state, and the state change can be clearly observed.
Solubility is also an important property. In common organic solvents, such as ethanol, acetone, etc., it exhibits a certain solubility. In ethanol, it can be partially dissolved after stirring and appropriate heating to form a homogeneous solution. This property is conducive to its use as a reactant or intermediate in organic synthesis reactions, making it easy to participate in various chemical reactions. By adjusting the type and amount of solvent, the reaction process and product purity can be controlled.
In terms of stability, the compound is relatively stable in a dry environment at room temperature and pressure, and can be stored for a long time without significant chemical changes. However, if placed at high temperature, high humidity or strong light, it may decompose slowly. High temperature will intensify the thermal movement of molecules, causing chemical bonds to break, leading to decomposition; high-energy photons in light can also initiate photochemical reactions, causing structural changes. Therefore, when storing, it needs to be placed in a cool, dry and dark place.
Its density is also a specific value. In related industrial production and experimental operations, this parameter is related to the material ratio and reaction system design. By accurately measuring the density, the relationship between mass and volume in different states can be accurately grasped, ensuring the accuracy and reliability of production and experiments.
In addition, the odor of this compound is weak and unique. Although it is not pungent and smelly, it is also different from common odorless substances. This odor characteristic can be used as a reference for preliminary identification and judgment.
N - phenyl - N - (trichloromethylsulfenyl) benzene Sulfonamide has rich and diverse physical and chemical properties, and each property is related to each other. It plays an important role in the fields of organic chemistry research and chemical production. In-depth understanding of these properties can make better use of this compound.
What is the production method of N-phenyl-n- (trichloromethylsulfenyl) benzene Sulfonamide
N - phenyl - N - (trichloromethylsulfenyl) benzene sulfonamide is synthesized by both ancient and modern methods.
In the ancient method, benzenesulfonamide is often used as the beginning, and it is combined with a reagent containing trichloromethyl sulfide. Take benzenesulfonamide first, and put it in a suitable solvent, such as an alcohol or an ether solvent, to make a homogeneous solution. Then, slowly add a reactant containing trichloromethyl sulfide, such as trichloromethyl sulfide (CCl 🥰 SCl). When the two meet, a substitution reaction occurs at a certain temperature and reaction conditions. The temperature may be controlled between room temperature and moderate heating, depending on the activity of the reaction. During the reaction, the nitrogen atom of benzenesulfonamide nucleophilically attacks the sulfur atom of trichloromethyl sulfur chloride, and the chlorine atom leaves, and then becomes the initial product of N-phenyl-N- (trichloromethylsulfenyl) benzene Sulfonamide. However, this ancient method has more impurities, and the yield may not be high. Due to the high activity of trichloromethyl sulfur chloride, it is easy to produce side reactions, resulting in impure products.
Today's laws are more refined. Or use the method of catalysis, using metal catalysts, such as some transition metal salts, to promote the reaction. The catalyst can reduce the activation energy of the reaction, making the reaction more likely to occur. New solvent systems, such as ionic liquids, are also used instead of traditional solvents. Ionic liquids have unique physical and chemical properties, which can increase the solubility of the reactants, and it is easy to separate the products after the reaction. During the reaction process, the control of the reaction conditions is more accurate, and the reaction process is monitored in real time by means of high performance liquid chromatography. Fine adjustments are made according to factors such as the proportion of reactants, temperature, and time to achieve high yield and purity. For example, the proportion of reactants is optimized to make the ratio of the two near stoichiometry, reducing side reactions caused by excess reactants. The temperature is also precisely regulated, and a thermostatic device is used to keep the temperature of the reaction system stable. In this way, the current method is better than the ancient method, and the quality of the product is better, and the yield is also
In the ancient method, benzenesulfonamide is often used as the beginning, and it is combined with a reagent containing trichloromethyl sulfide. Take benzenesulfonamide first, and put it in a suitable solvent, such as an alcohol or an ether solvent, to make a homogeneous solution. Then, slowly add a reactant containing trichloromethyl sulfide, such as trichloromethyl sulfide (CCl 🥰 SCl). When the two meet, a substitution reaction occurs at a certain temperature and reaction conditions. The temperature may be controlled between room temperature and moderate heating, depending on the activity of the reaction. During the reaction, the nitrogen atom of benzenesulfonamide nucleophilically attacks the sulfur atom of trichloromethyl sulfur chloride, and the chlorine atom leaves, and then becomes the initial product of N-phenyl-N- (trichloromethylsulfenyl) benzene Sulfonamide. However, this ancient method has more impurities, and the yield may not be high. Due to the high activity of trichloromethyl sulfur chloride, it is easy to produce side reactions, resulting in impure products.
Today's laws are more refined. Or use the method of catalysis, using metal catalysts, such as some transition metal salts, to promote the reaction. The catalyst can reduce the activation energy of the reaction, making the reaction more likely to occur. New solvent systems, such as ionic liquids, are also used instead of traditional solvents. Ionic liquids have unique physical and chemical properties, which can increase the solubility of the reactants, and it is easy to separate the products after the reaction. During the reaction process, the control of the reaction conditions is more accurate, and the reaction process is monitored in real time by means of high performance liquid chromatography. Fine adjustments are made according to factors such as the proportion of reactants, temperature, and time to achieve high yield and purity. For example, the proportion of reactants is optimized to make the ratio of the two near stoichiometry, reducing side reactions caused by excess reactants. The temperature is also precisely regulated, and a thermostatic device is used to keep the temperature of the reaction system stable. In this way, the current method is better than the ancient method, and the quality of the product is better, and the yield is also
What are the precautions for N-phenyl-n- (trichloromethylsulfenyl) benzene Sulfonamide during use?
N-Phenyl-N - (trichloromethyl thio) benzenesulfonamide, this is a chemical substance. When using it, many things need to be paid attention to.
First of all, safety protection is essential. Because it is a chemical product, it may be toxic and irritating to a certain extent. When operating, it is necessary to wear appropriate protective equipment, such as protective gloves, goggles, protective clothing, etc., to prevent it from coming into contact with the skin and eyes. In case of inadvertent contact, rinse with plenty of water immediately, and seek medical treatment according to the specific situation.
Secondly, storage conditions must be appropriate. It should be placed in a cool, dry and well-ventilated place, away from fire and heat sources, to prevent danger due to temperature, humidity discomfort or exposure to open flames, such as causing combustion or even explosion. At the same time, it should be stored separately from oxidants, acids, bases, etc., to avoid reactions.
Furthermore, the use process is strictly operated according to the specifications and procedures. During chemical reactions, precise control of reaction conditions, such as temperature, pressure, reaction time, etc. Due to slight deviations in reaction conditions, the product may be impure, or other side reactions may be triggered, affecting the experimental or production results, and in serious cases, safety accidents may occur.
In addition, the behavior of the substance in the environment also needs attention. Proper disposal of waste after use should not be dumped at will to avoid polluting the environment. Because it contains chlorine and other elements, it may cause long-term adverse effects on soil and water sources. Appropriate methods should be used in accordance with relevant environmental regulations to ensure environmental safety.
First of all, safety protection is essential. Because it is a chemical product, it may be toxic and irritating to a certain extent. When operating, it is necessary to wear appropriate protective equipment, such as protective gloves, goggles, protective clothing, etc., to prevent it from coming into contact with the skin and eyes. In case of inadvertent contact, rinse with plenty of water immediately, and seek medical treatment according to the specific situation.
Secondly, storage conditions must be appropriate. It should be placed in a cool, dry and well-ventilated place, away from fire and heat sources, to prevent danger due to temperature, humidity discomfort or exposure to open flames, such as causing combustion or even explosion. At the same time, it should be stored separately from oxidants, acids, bases, etc., to avoid reactions.
Furthermore, the use process is strictly operated according to the specifications and procedures. During chemical reactions, precise control of reaction conditions, such as temperature, pressure, reaction time, etc. Due to slight deviations in reaction conditions, the product may be impure, or other side reactions may be triggered, affecting the experimental or production results, and in serious cases, safety accidents may occur.
In addition, the behavior of the substance in the environment also needs attention. Proper disposal of waste after use should not be dumped at will to avoid polluting the environment. Because it contains chlorine and other elements, it may cause long-term adverse effects on soil and water sources. Appropriate methods should be used in accordance with relevant environmental regulations to ensure environmental safety.
What is the market outlook for N-phenyl-n- (trichloromethylsulfenyl) benzene Sulfonamide?
N - phenyl - n- (trichloromethylsulfenyl) benzene sulfonamide, which is an organic compound, is involved in the field of chemical synthesis and other fields. However, its market prospect, today, is like a changing celestial phenomenon, which cannot be easily asserted.
Looking at its past, in a specific chemical process, I occasionally saw its shadow, used as a reagent for a special reaction, and added to the synthesis of novel compounds. At that time, because of its unique chemical properties, it could achieve different reaction effects, so it was slightly famous in the niche scientific research and production circle.
However, in the current market, many factors are intertwined, shaping its future. From the demand side, with the rapid development of materials science, new materials continue to emerge, and the demand for special organic reagents is also like a flowing water, changing from time to time. If this compound fails to meet the research and development and production needs of emerging materials, its market expansion will be like sailing against the current, with many difficulties.
Furthermore, on the supply side, the innovation of chemical production technology is like a wave, and it will rise again and again. New synthesis methods and alternative products have sprung up like mushrooms after a rain. If the synthesis process of this compound is complicated, the cost is high, and it is inferior to new competitors, it may lose its advantage in the market competition, such as residual flowers and willows, and the scenery will cease.
However, it is not completely hopeless. Over time, scientific research breakthroughs have found new application fields for this compound, such as emerging environmental protection materials or cutting-edge pharmaceutical intermediates, and it can also be like a phoenix nirvana, rejuvenated, and get a share of the market. But at present, the market prospect is foggy, and we can only see a thing or two when the variables are clear.
Looking at its past, in a specific chemical process, I occasionally saw its shadow, used as a reagent for a special reaction, and added to the synthesis of novel compounds. At that time, because of its unique chemical properties, it could achieve different reaction effects, so it was slightly famous in the niche scientific research and production circle.
However, in the current market, many factors are intertwined, shaping its future. From the demand side, with the rapid development of materials science, new materials continue to emerge, and the demand for special organic reagents is also like a flowing water, changing from time to time. If this compound fails to meet the research and development and production needs of emerging materials, its market expansion will be like sailing against the current, with many difficulties.
Furthermore, on the supply side, the innovation of chemical production technology is like a wave, and it will rise again and again. New synthesis methods and alternative products have sprung up like mushrooms after a rain. If the synthesis process of this compound is complicated, the cost is high, and it is inferior to new competitors, it may lose its advantage in the market competition, such as residual flowers and willows, and the scenery will cease.
However, it is not completely hopeless. Over time, scientific research breakthroughs have found new application fields for this compound, such as emerging environmental protection materials or cutting-edge pharmaceutical intermediates, and it can also be like a phoenix nirvana, rejuvenated, and get a share of the market. But at present, the market prospect is foggy, and we can only see a thing or two when the variables are clear.
Scan to WhatsApp
