Linshang Chemical
PRODUCTS
N-Phenyl-N-[(Trichloromethyl)Thio]Benzenesulphonamide
Linshang Chemical
|
HS Code |
594938 |
| Chemical Formula | C13H10Cl3NO2S2 |
| Molecular Weight | 386.71 g/mol |
| Appearance | Solid |
| Odor | May have a characteristic odor |
| Melting Point | Typically in a certain temperature range (data - specific) |
| Boiling Point | Would have a boiling point at a particular temperature (data - specific) |
| Solubility In Water | Low solubility in water |
| Solubility In Organic Solvents | Soluble in some organic solvents like benzene, toluene etc. |
| Density | Has a specific density value (data - specific) |
| Vapor Pressure | Has a certain vapor pressure at given temperatures (data - specific) |
As an accredited N-Phenyl-N-[(Trichloromethyl)Thio]Benzenesulphonamide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 kg of N - phenyl - n - [(trichloromethyl)thio]benzenesulphonamide in sealed, chemical - resistant bags. |
| Storage | N - phenyl - n - [(trichloromethyl)thio]benzenesulphonamide should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and incompatible substances. Store in a tightly sealed container to prevent moisture absorption and leakage. Ensure storage is separate from oxidizing agents, acids, and bases to avoid potential reactions. |
| Shipping | N - phenyl - n - [(trichloromethyl)thio]benzenesulphonamide is a chemical. Shipping requires proper packaging in accordance with hazardous chemical regulations. Use corrosion - resistant containers and label clearly for safe transportation. |
Competitive N-Phenyl-N-[(Trichloromethyl)Thio]Benzenesulphonamide 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
![N-Phenyl-N-[(Trichloromethyl)Thio]Benzenesulphonamide](https://alchemist-1317689233.cos.ap-nanjing.myqcloud.com/0f33e070-f267-4eb9-a4e0-654ccc03c1b5/images/product_inner1.jpg)
![N-Phenyl-N-[(Trichloromethyl)Thio]Benzenesulphonamide](https://alchemist-1317689233.cos.ap-nanjing.myqcloud.com/0f33e070-f267-4eb9-a4e0-654ccc03c1b5/images/product_inner2.jpg)
Where to Buy N-Phenyl-N-[(Trichloromethyl)Thio]Benzenesulphonamide in China?
As a trusted N-Phenyl-N-[(Trichloromethyl)Thio]Benzenesulphonamide 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-[(Trichloromethyl)Thio]Benzenesulphonamide 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 chemical structure of N-phenyl-n- [ (trichloromethyl) thio] benzenesulphonamide
Alas! Want to know the chemical structure of N - phenyl - N - [ (trichloromethyl) thio] benzenesulphonamide, and listen to me in detail.
The name of this compound is composed of multiple parts, and its core structure is closely related to the benzene ring. "N - phenyl" means that the nitrogen atom is connected to a phenyl group. This phenyl group consists of six carbon atoms to form a ring structure. Each carbon atom is connected to the hydrogen atom. Only the carbon connected to the nitrogen atom replaces one of the hydrogen atoms to form a bond.
"N - [ (trichloromethyl) thio]" part reveals that the nitrogen atom is connected to a special group. In this group, " (trichloromethyl) " is a trichloromethyl group, which is a carbon atom connected to three chlorine atoms. The hydrogen atoms of this methyl group are all replaced by chlorine atoms; and "thio" means a sulfur atom, that is, trichloromethyl is connected to a nitrogen atom through a sulfur atom.
Furthermore, "benzenesulphonamide" indicates that it is also connected with a benzenesulfonamide group. This benzenesulfonamide is also based on a benzene ring. A carbon on the benzene ring is connected to a sulfonyl group (-SO 2O -), and a sulfonyl group is connected to an amino group (-NH 2O). The nitrogen atom of this amino group is connected to the phenyl group and the trichloromethyl-containing sulfur group as described
In summary, the chemical structure of N - phenyl - N- [ (trichloromethyl) thio] benzenesulphonamide is composed of a nitrogen atom as the central node, a phenyl group on one side, a trichloromethyl group on the other side through a sulfur atom, and a phenyl ring through a sulfonyl group.
The name of this compound is composed of multiple parts, and its core structure is closely related to the benzene ring. "N - phenyl" means that the nitrogen atom is connected to a phenyl group. This phenyl group consists of six carbon atoms to form a ring structure. Each carbon atom is connected to the hydrogen atom. Only the carbon connected to the nitrogen atom replaces one of the hydrogen atoms to form a bond.
"N - [ (trichloromethyl) thio]" part reveals that the nitrogen atom is connected to a special group. In this group, " (trichloromethyl) " is a trichloromethyl group, which is a carbon atom connected to three chlorine atoms. The hydrogen atoms of this methyl group are all replaced by chlorine atoms; and "thio" means a sulfur atom, that is, trichloromethyl is connected to a nitrogen atom through a sulfur atom.
Furthermore, "benzenesulphonamide" indicates that it is also connected with a benzenesulfonamide group. This benzenesulfonamide is also based on a benzene ring. A carbon on the benzene ring is connected to a sulfonyl group (-SO 2O -), and a sulfonyl group is connected to an amino group (-NH 2O). The nitrogen atom of this amino group is connected to the phenyl group and the trichloromethyl-containing sulfur group as described
In summary, the chemical structure of N - phenyl - N- [ (trichloromethyl) thio] benzenesulphonamide is composed of a nitrogen atom as the central node, a phenyl group on one side, a trichloromethyl group on the other side through a sulfur atom, and a phenyl ring through a sulfonyl group.
What are the main uses of N-phenyl-n- [ (trichloromethyl) thio] benzenesulphonamide
N-phenyl-N - [ (trichloromethyl) thio] benzenesulfonamide, this substance has a wide range of uses. In the agricultural field, it is often used as a fungicide, which can effectively inhibit many agricultural crop diseases. Because it can combine with specific components in the bacteria, interfere with the metabolic process of pathogens, making it difficult for pathogens to grow and reproduce normally. For example, it has a good effect on the prevention and control of common fungal diseases in grains and vegetables, which greatly guarantees the yield and quality of crops.
In the industrial field, it also has important uses. In the production of some chemical products, it can be used as an intermediate to participate in a variety of organic synthesis reactions, and through a series of chemical transformations, other high-value-added fine chemicals can be derived. In addition, in terms of material protection, it can be added to specific materials, giving the material certain antibacterial and mildew-proof properties, prolonging the service life of the material, and has broad application prospects in coatings, plastics and other industries.
In the path of scientific research and exploration, it is also an important chemical reagent. With its unique chemical structure and reactivity, researchers have launched various chemical reaction mechanism studies and new compound synthesis attempts, providing assistance for the innovation and development of the chemical field. In short, N-phenyl-N - [ (trichloromethyl) thio] benzenesulfonamide plays an indispensable role in agriculture, industry and scientific research.
In the industrial field, it also has important uses. In the production of some chemical products, it can be used as an intermediate to participate in a variety of organic synthesis reactions, and through a series of chemical transformations, other high-value-added fine chemicals can be derived. In addition, in terms of material protection, it can be added to specific materials, giving the material certain antibacterial and mildew-proof properties, prolonging the service life of the material, and has broad application prospects in coatings, plastics and other industries.
In the path of scientific research and exploration, it is also an important chemical reagent. With its unique chemical structure and reactivity, researchers have launched various chemical reaction mechanism studies and new compound synthesis attempts, providing assistance for the innovation and development of the chemical field. In short, N-phenyl-N - [ (trichloromethyl) thio] benzenesulfonamide plays an indispensable role in agriculture, industry and scientific research.
What are the physical properties of N-phenyl-n- [ (trichloromethyl) thio] benzenesulphonamide
N - phenyl - N - [ (trichloromethyl) thio] benzenesulphonamide is an organic compound. Its physical properties are particularly important for its application in many fields.
In terms of its appearance, at room temperature, it is mostly white to white crystalline powder. This form is easy to store and transport, and it is easy to handle and operate in many chemical reactions and industrial production processes.
Its melting point is also one of the key physical properties. After careful determination, the melting point is within a certain temperature range. This melting point characteristic is of great significance for the purification, identification and temperature control of the processing process. Knowing its melting point, the purity of the substance can be judged by the method of melting point determination. If the purity is high, the melting point is more sensitive and close to the theoretical value; if it contains impurities, the melting point may be offset and the melting range becomes wider.
Furthermore, its solubility cannot be ignored. In common organic solvents, such as ethanol, acetone, etc., it exhibits a certain solubility. This solubility gives it the possibility to act as a reactant or product in the chemical reaction of the solution system, and is conducive to separation and extraction in a specific solvent environment. In water, its solubility is very small, and this property also determines its behavior and mode of action in the aqueous system.
In addition, the density of the compound is also one of its physical properties. Although the exact density values vary slightly due to measurement conditions, they are roughly within a certain range. Density information is of great value in applications related to the metrology, mixing, and hydrodynamics of substances.
In summary, the physical properties of N-phenyl-N - [ (trichloromethyl) thio] benzenesulphonamide, such as appearance, melting point, solubility, and density, determine their uses and properties in chemistry, chemical industry, and related fields from different dimensions. It is a key consideration for the in-depth study and rational application of this compound.
In terms of its appearance, at room temperature, it is mostly white to white crystalline powder. This form is easy to store and transport, and it is easy to handle and operate in many chemical reactions and industrial production processes.
Its melting point is also one of the key physical properties. After careful determination, the melting point is within a certain temperature range. This melting point characteristic is of great significance for the purification, identification and temperature control of the processing process. Knowing its melting point, the purity of the substance can be judged by the method of melting point determination. If the purity is high, the melting point is more sensitive and close to the theoretical value; if it contains impurities, the melting point may be offset and the melting range becomes wider.
Furthermore, its solubility cannot be ignored. In common organic solvents, such as ethanol, acetone, etc., it exhibits a certain solubility. This solubility gives it the possibility to act as a reactant or product in the chemical reaction of the solution system, and is conducive to separation and extraction in a specific solvent environment. In water, its solubility is very small, and this property also determines its behavior and mode of action in the aqueous system.
In addition, the density of the compound is also one of its physical properties. Although the exact density values vary slightly due to measurement conditions, they are roughly within a certain range. Density information is of great value in applications related to the metrology, mixing, and hydrodynamics of substances.
In summary, the physical properties of N-phenyl-N - [ (trichloromethyl) thio] benzenesulphonamide, such as appearance, melting point, solubility, and density, determine their uses and properties in chemistry, chemical industry, and related fields from different dimensions. It is a key consideration for the in-depth study and rational application of this compound.
What is the synthesis method of N-phenyl-n- [ (trichloromethyl) thio] benzenesulphonamide
To prepare N - phenyl - N - [ (trichloromethyl) thio] benzenesulphonamide, the method is as follows:
First, take an appropriate amount of benzenesulphonamide chloride and place it in a clean reactor. In a bath of ice water, slowly add aniline. This process requires careful temperature control, so that the temperature does not exceed 20 degrees Celsius, and constant stirring to promote the full reaction of the two. The reaction mechanism of the two nucleophilic substitution produces N - phenylbenzenesulfonamide. The reaction formula is: $C_6H_5SO_2Cl + C_6H_5NH_2\ longrightarrow C_6H_5SO_2NHC_6H_5 + HCl $. After the reaction, the product is washed with dilute alkali solution, except for the unreacted benzenesulphonamide chloride, and then purified by distillation to obtain pure N - phenylbenzenesulfonamide.
Next, the resulting N-phenylbenzenesulfonamide is moved to another reactor, and an appropriate amount of organic solvent, such as dichloromethane, is added to make a homogeneous solution. In this solution, slowly add trichlorothiochloromethane dropwise. At the same time, an appropriate amount of acid binding agent, such as triethylamine, is added to remove the hydrogen chloride generated by the reaction. This reaction also proceeds at a low temperature, about 0 to 5 degrees Celsius. The nitrogen atom of N-phenylbenzenesulfonamide attacks the sulfur atom of trichlorothiochloromethane to generate the target product N-phenyl-N - [ (trichloromethyl) thio] benzenesulphonamide. The reaction formula is: $C_6H_5SO_2NHC_6H_5 + Cl_3CSCl\ longrightarrow C_6H_5SO_2NHSCCl_3 + C_6H_5 + HCl $. At the end of the reaction, the product is washed with water, the hydrochloride salt of the acid binding agent is removed, and the organic solvent is removed by distillation under reduced pressure, followed by recrystallization, and a suitable solvent is used, such as ethanol-water mixed solvent, to obtain high purity N-phenyl-N - [ (trichloromethyl) thio] benzenesulphonamide. The whole synthesis process should be paid attention to during operation. Reagents such as trichlorothiochloromethane are toxic and corrosive, and organic solvents are flammable. Therefore, they must be operated in a well-ventilated environment according to specifications.
First, take an appropriate amount of benzenesulphonamide chloride and place it in a clean reactor. In a bath of ice water, slowly add aniline. This process requires careful temperature control, so that the temperature does not exceed 20 degrees Celsius, and constant stirring to promote the full reaction of the two. The reaction mechanism of the two nucleophilic substitution produces N - phenylbenzenesulfonamide. The reaction formula is: $C_6H_5SO_2Cl + C_6H_5NH_2\ longrightarrow C_6H_5SO_2NHC_6H_5 + HCl $. After the reaction, the product is washed with dilute alkali solution, except for the unreacted benzenesulphonamide chloride, and then purified by distillation to obtain pure N - phenylbenzenesulfonamide.
Next, the resulting N-phenylbenzenesulfonamide is moved to another reactor, and an appropriate amount of organic solvent, such as dichloromethane, is added to make a homogeneous solution. In this solution, slowly add trichlorothiochloromethane dropwise. At the same time, an appropriate amount of acid binding agent, such as triethylamine, is added to remove the hydrogen chloride generated by the reaction. This reaction also proceeds at a low temperature, about 0 to 5 degrees Celsius. The nitrogen atom of N-phenylbenzenesulfonamide attacks the sulfur atom of trichlorothiochloromethane to generate the target product N-phenyl-N - [ (trichloromethyl) thio] benzenesulphonamide. The reaction formula is: $C_6H_5SO_2NHC_6H_5 + Cl_3CSCl\ longrightarrow C_6H_5SO_2NHSCCl_3 + C_6H_5 + HCl $. At the end of the reaction, the product is washed with water, the hydrochloride salt of the acid binding agent is removed, and the organic solvent is removed by distillation under reduced pressure, followed by recrystallization, and a suitable solvent is used, such as ethanol-water mixed solvent, to obtain high purity N-phenyl-N - [ (trichloromethyl) thio] benzenesulphonamide. The whole synthesis process should be paid attention to during operation. Reagents such as trichlorothiochloromethane are toxic and corrosive, and organic solvents are flammable. Therefore, they must be operated in a well-ventilated environment according to specifications.
N-phenyl-n- [ (trichloromethyl) thio] benzenesulphonamide What are the precautions during use
N-Phenyl-N - [ (trichloromethyl) thio] benzenesulfonamide, this is a special chemical substance, and many things need to be paid attention to when using it.
Bear the brunt, and safety protection must not be ignored. Because of its potential toxicity and irritation, when coming into contact, be sure to be fully armed and have all kinds of protective equipment. Wear high-quality protective gloves to prevent the drug from contaminating the skin and eroding the flesh; wear well-fitting protective glasses to prevent it from splashing into the eyes and damaging the eyesight; masks are also indispensable to prevent inhalation of the substance and harming the respiratory tract. These are all necessary measures to protect your own safety.
Furthermore, the operating environment must be carefully selected. It needs to be used in a well-ventilated place. The best place is a professional laboratory or workshop with perfect ventilation equipment. In this way, volatile chemicals can be quickly dispersed, the concentration in the air can be reduced, and the accumulation of harmful gases can be avoided, endangering personal safety. If the ventilation is not smooth, the toxic gas will be trapped, and it may cause serious consequences such as poisoning.
During use, precise operation is essential. Strictly follow the established operating procedures and dosage requirements, and do not act recklessly. When weighing the agent, use a precise instrument to ensure that the dosage is correct. A slight deviation may cause the experimental results to be false, or it may cause a safety accident. And during use, pay close attention to the reaction process and phenomena. If there is any abnormality, dispose of it immediately and properly without delay.
After use, it is also crucial to properly dispose of the remaining chemicals and waste. It must not be discarded at will, and it must be treated harmlessly in accordance with relevant regulations. Or send it to a special recycling agency, or destroy it according to a specific process to prevent it from entering the environment, polluting water and soil, and endangering the ecology.
The use process of N-phenyl-N - [ (trichloromethyl) thio] benzenesulfonamide is complicated and requires extreme caution. All links are related to safety and effectiveness, and no care should be taken.
Bear the brunt, and safety protection must not be ignored. Because of its potential toxicity and irritation, when coming into contact, be sure to be fully armed and have all kinds of protective equipment. Wear high-quality protective gloves to prevent the drug from contaminating the skin and eroding the flesh; wear well-fitting protective glasses to prevent it from splashing into the eyes and damaging the eyesight; masks are also indispensable to prevent inhalation of the substance and harming the respiratory tract. These are all necessary measures to protect your own safety.
Furthermore, the operating environment must be carefully selected. It needs to be used in a well-ventilated place. The best place is a professional laboratory or workshop with perfect ventilation equipment. In this way, volatile chemicals can be quickly dispersed, the concentration in the air can be reduced, and the accumulation of harmful gases can be avoided, endangering personal safety. If the ventilation is not smooth, the toxic gas will be trapped, and it may cause serious consequences such as poisoning.
During use, precise operation is essential. Strictly follow the established operating procedures and dosage requirements, and do not act recklessly. When weighing the agent, use a precise instrument to ensure that the dosage is correct. A slight deviation may cause the experimental results to be false, or it may cause a safety accident. And during use, pay close attention to the reaction process and phenomena. If there is any abnormality, dispose of it immediately and properly without delay.
After use, it is also crucial to properly dispose of the remaining chemicals and waste. It must not be discarded at will, and it must be treated harmlessly in accordance with relevant regulations. Or send it to a special recycling agency, or destroy it according to a specific process to prevent it from entering the environment, polluting water and soil, and endangering the ecology.
The use process of N-phenyl-N - [ (trichloromethyl) thio] benzenesulfonamide is complicated and requires extreme caution. All links are related to safety and effectiveness, and no care should be taken.
Scan to WhatsApp
