Linshang Chemical
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N-Trichloromethylsulfanyl-4-Methylbenzenesulfonamide
Linshang Chemical
|
HS Code |
438232 |
| Chemical Formula | C8H8Cl3NO2S2 |
| Molecular Weight | 312.64 g/mol |
| Appearance | Solid (presumably, based on similar sulfonamides) |
| Solubility In Water | Low (sulfonamides generally have low water solubility) |
| Solubility In Organic Solvents | Soluble in common organic solvents like dichloromethane, chloroform (expected behavior of sulfonamides) |
As an accredited N-Trichloromethylsulfanyl-4-Methylbenzenesulfonamide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of N - trichloromethylsulfanyl - 4 - methylbenzenesulfonamide in sealed chemical - grade bags. |
| Storage | Store N - trichloromethylsulfanyl - 4 - methylbenzenesulfonamide in a cool, dry, well - ventilated area, away from heat sources and ignition points. Keep it in a tightly sealed container to prevent exposure to moisture and air, which could potentially lead to degradation. Store separately from incompatible substances, such as strong oxidizing agents and bases, to avoid chemical reactions. |
| Shipping | N -trichloromethylsulfanyl - 4 - methylbenzenesulfonamide, being a chemical, must be shipped in accordance with strict regulations. It should be in well - sealed, appropriate containers, labeled clearly, and transported by carriers licensed for chemical shipments. |
Competitive N-Trichloromethylsulfanyl-4-Methylbenzenesulfonamide 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 N-Trichloromethylsulfanyl-4-Methylbenzenesulfonamide in China?
As a trusted N-Trichloromethylsulfanyl-4-Methylbenzenesulfonamide manufacturer, we deliver:
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 N-Trichloromethylsulfanyl-4-Methylbenzenesulfonamide 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 N-trichloromethylsulfanyl-4-methylbenzenesulfonamide?
N-trichloromethylthioalkyl-4-methylbenzenesulfonamide is one of the organic compounds. It has a wide range of uses and is often used as a fungicide in the field of pesticides. Because of its unique chemical structure, it can effectively inhibit the growth and reproduction of many pathogens, and has a significant effect on the prevention and control of crop diseases.
In industry, it also has important uses. For example, in the synthesis of some special materials, it can act as a key intermediate. Through its participation in chemical reactions, materials with special properties can be prepared, such as certain polymer materials, which endow the materials with specific chemical stability or other unique properties.
In addition, in the field of scientific research, this compound is also an important research object. Through in-depth investigation of its chemical properties and reaction mechanism, researchers can further expand the knowledge field of organic chemistry, provide theoretical basis and practical experience for the development of new compounds and chemical reactions, and promote the development of organic synthetic chemistry. In short, N-trichloromethylthioalkyl-4-methylbenzenesulfonamide plays an indispensable role in many fields.
In industry, it also has important uses. For example, in the synthesis of some special materials, it can act as a key intermediate. Through its participation in chemical reactions, materials with special properties can be prepared, such as certain polymer materials, which endow the materials with specific chemical stability or other unique properties.
In addition, in the field of scientific research, this compound is also an important research object. Through in-depth investigation of its chemical properties and reaction mechanism, researchers can further expand the knowledge field of organic chemistry, provide theoretical basis and practical experience for the development of new compounds and chemical reactions, and promote the development of organic synthetic chemistry. In short, N-trichloromethylthioalkyl-4-methylbenzenesulfonamide plays an indispensable role in many fields.
What are the chemical properties of N-trichloromethylsulfanyl-4-methylbenzenesulfonamide?
N-trichloromethylthioalkyl-4-methylbenzenesulfonamide, this is an organic compound. Its chemical properties are unique and valuable to explore.
First of all, its physical properties are usually solid, but the specific melting point varies depending on factors such as purity. The appearance may be white to off-white powders, which can exhibit different solubility in specific organic solvents. In case of polar organic solvents, such as dichloromethane, chloroform, etc., there is a certain tendency to dissolve. This property is due to the interaction between the groups contained in its molecular structure and the solvent molecules.
The chemical properties are discussed, and the structural parts of trichloromethylthioalkyl and benzenesulfonamide in its molecules are both active. In trichloromethyl thioalkyl, the chlorine atom has high electronegativity, which makes the group quite electrophilic. Under appropriate reaction conditions, it can participate in nucleophilic substitution reactions. In case of nucleophiles containing active hydrogen, such as alcohols and amines, chlorine atoms can be replaced to form new sulfur-containing organic compounds.
And the benzene sulfonamide part, the sulfonamide group has both a certain degree of acidity and alkalinity. Under basic conditions, the hydrogen on the nitrogen atom of the sulfonamide group can be replaced by metal ions to form corresponding salts. In an acidic environment, it can combine with protons and exhibit alkali-like properties. In addition, the benzene ring part can undergo aromatic electrophilic substitution reaction, because the electron cloud density on the benzene ring is affected by methyl and sulfonamide groups, and there are differences in distribution, which changes the reactivity of the benzene ring to electrophilic reagents at specific positions. For example, in the presence of appropriate catalysts, halogenation reactions can occur with halogenating agents, and halogen atoms can be introduced into the benzene ring.
N-trichloromethylthioalkyl-4-methylbenzene sulfonamide is rich in chemical properties and can be used as a key intermediate in the field of organic synthesis to construct more complex organic molecular structures.
First of all, its physical properties are usually solid, but the specific melting point varies depending on factors such as purity. The appearance may be white to off-white powders, which can exhibit different solubility in specific organic solvents. In case of polar organic solvents, such as dichloromethane, chloroform, etc., there is a certain tendency to dissolve. This property is due to the interaction between the groups contained in its molecular structure and the solvent molecules.
The chemical properties are discussed, and the structural parts of trichloromethylthioalkyl and benzenesulfonamide in its molecules are both active. In trichloromethyl thioalkyl, the chlorine atom has high electronegativity, which makes the group quite electrophilic. Under appropriate reaction conditions, it can participate in nucleophilic substitution reactions. In case of nucleophiles containing active hydrogen, such as alcohols and amines, chlorine atoms can be replaced to form new sulfur-containing organic compounds.
And the benzene sulfonamide part, the sulfonamide group has both a certain degree of acidity and alkalinity. Under basic conditions, the hydrogen on the nitrogen atom of the sulfonamide group can be replaced by metal ions to form corresponding salts. In an acidic environment, it can combine with protons and exhibit alkali-like properties. In addition, the benzene ring part can undergo aromatic electrophilic substitution reaction, because the electron cloud density on the benzene ring is affected by methyl and sulfonamide groups, and there are differences in distribution, which changes the reactivity of the benzene ring to electrophilic reagents at specific positions. For example, in the presence of appropriate catalysts, halogenation reactions can occur with halogenating agents, and halogen atoms can be introduced into the benzene ring.
N-trichloromethylthioalkyl-4-methylbenzene sulfonamide is rich in chemical properties and can be used as a key intermediate in the field of organic synthesis to construct more complex organic molecular structures.
What is N-trichloromethylsulfanyl-4-methylbenzenesulfonamide synthesis method?
There are currently methods for preparing N-trichloromethylthioalkyl-4-methylbenzenesulfonamide, which are described in detail below.
First, 4-methylbenzenesulfonamide is used as the starting material, which is the basis of the reaction. Place it in an appropriate reaction vessel and add an appropriate amount of solvent to fully dissolve the raw material to create a suitable reaction environment. The selected solvent must be compatible with the reactants and can effectively disperse the reactant molecules to promote their mutual contact and reaction.
Then, slowly add a reagent containing trichloromethylthioalkyl to this solution system. When adding reagents, when carefully controlling the rate, the reaction may be more intense. The key to this step of the reaction lies in the substitution reaction of trichloromethylthioalkyl with a specific atom or group in 4-methylbenzenesulfonamide. During the reaction process, the temperature needs to be precisely controlled. If the temperature is too high, or side reactions will occur, and the product will be impure; if the temperature is too low, the reaction rate will be slow and time-consuming. After experimental investigation, the reaction temperature is often maintained in a specific range, such as between [X] ° C and [X] ° C, to ensure the efficient and stable progress of the reaction. When the
reaction proceeds, a stirring device may be required to allow the reactants to be fully mixed to ensure a uniform reaction. And to monitor the reaction process in a timely manner, thin-layer chromatography or other suitable analytical methods can be used. When the reaction reaches the desired level, the reaction is terminated.
After the reaction is terminated, the reaction mixture needs to be treated. First, the target product is initially separated from the reaction system by appropriate separation methods, such as filtration and extraction. Then a series of purification steps, such as recrystallization, column chromatography, etc., are used to remove impurities and improve the purity of the product. During recrystallization, a suitable solvent is selected to dissolve the product at high temperature, and pure crystallization is precipitated after cooling. Column chromatography is based on the difference in the partition coefficient between the product and impurities between the stationary phase and the mobile phase to achieve separation. After these steps, a relatively pure N-trichloromethylthioalkyl-4-methylbenzenesulfonamide can be obtained.
First, 4-methylbenzenesulfonamide is used as the starting material, which is the basis of the reaction. Place it in an appropriate reaction vessel and add an appropriate amount of solvent to fully dissolve the raw material to create a suitable reaction environment. The selected solvent must be compatible with the reactants and can effectively disperse the reactant molecules to promote their mutual contact and reaction.
Then, slowly add a reagent containing trichloromethylthioalkyl to this solution system. When adding reagents, when carefully controlling the rate, the reaction may be more intense. The key to this step of the reaction lies in the substitution reaction of trichloromethylthioalkyl with a specific atom or group in 4-methylbenzenesulfonamide. During the reaction process, the temperature needs to be precisely controlled. If the temperature is too high, or side reactions will occur, and the product will be impure; if the temperature is too low, the reaction rate will be slow and time-consuming. After experimental investigation, the reaction temperature is often maintained in a specific range, such as between [X] ° C and [X] ° C, to ensure the efficient and stable progress of the reaction. When the
reaction proceeds, a stirring device may be required to allow the reactants to be fully mixed to ensure a uniform reaction. And to monitor the reaction process in a timely manner, thin-layer chromatography or other suitable analytical methods can be used. When the reaction reaches the desired level, the reaction is terminated.
After the reaction is terminated, the reaction mixture needs to be treated. First, the target product is initially separated from the reaction system by appropriate separation methods, such as filtration and extraction. Then a series of purification steps, such as recrystallization, column chromatography, etc., are used to remove impurities and improve the purity of the product. During recrystallization, a suitable solvent is selected to dissolve the product at high temperature, and pure crystallization is precipitated after cooling. Column chromatography is based on the difference in the partition coefficient between the product and impurities between the stationary phase and the mobile phase to achieve separation. After these steps, a relatively pure N-trichloromethylthioalkyl-4-methylbenzenesulfonamide can be obtained.
N-trichloromethylsulfanyl-4-methylbenzenesulfonamide what are the precautions during use
N-trichloromethylthioalkyl-4-methylbenzenesulfonamide is a special chemical substance, and many matters need to be paid attention to during use.
Be the first to bear the brunt, and safety protection must be comprehensive. This substance is potentially toxic and irritating, and protective equipment is indispensable when it comes into contact. Operators must wear protective clothing and carefully select materials to ensure airtight to prevent it from contaminating the skin. And wear protective gloves, which are tough and avoid breakage. Eye protection should not be underestimated. Goggles need to have a clear field of vision and be well sealed to prevent the substance from splashing in and damaging the eyes. The choice of masks should be those that can filter harmful gases and particles to protect the safety of the respiratory system.
Storage also requires extra care. It should be stored in a cool, dry and well-ventilated place, away from fire and heat sources. Due to its lively nature, high temperatures or open flames can easily cause dangerous reactions. At the same time, it should be placed separately from oxidants, acids, alkalis and other substances. Due to its unique chemical properties, it can mix with other substances or cause severe chemical reactions, endangering safety.
When used, the operating environment must be well ventilated. If used in a closed space, the volatile gaseous components of the substance are easy to accumulate, which not only endangers human health, but also may cause serious consequences such as explosion. Ventilation equipment should be checked regularly to ensure normal operation and timely discharge of harmful gases.
Furthermore, the operation method should be precise and standardized during use. Follow the established operating procedures, and do not change the dose or steps without authorization. Take accurate measurements, do not increase or decrease at will, and avoid accidents caused by improper dosage. Focus on the operation process and avoid distractions to ensure the accuracy and safety of the operation.
Waste disposal should not be ignored. Do not discard at will, because it is potentially harmful. It is necessary to follow relevant regulations and adopt professional treatment methods to ensure harmless treatment and avoid pollution to the environment.
In short, when using N-trichloromethylthioalkyl-4-methylbenzenesulfonamide, safety is always the top priority, and all links must be strictly controlled to prevent problems before they occur.
Be the first to bear the brunt, and safety protection must be comprehensive. This substance is potentially toxic and irritating, and protective equipment is indispensable when it comes into contact. Operators must wear protective clothing and carefully select materials to ensure airtight to prevent it from contaminating the skin. And wear protective gloves, which are tough and avoid breakage. Eye protection should not be underestimated. Goggles need to have a clear field of vision and be well sealed to prevent the substance from splashing in and damaging the eyes. The choice of masks should be those that can filter harmful gases and particles to protect the safety of the respiratory system.
Storage also requires extra care. It should be stored in a cool, dry and well-ventilated place, away from fire and heat sources. Due to its lively nature, high temperatures or open flames can easily cause dangerous reactions. At the same time, it should be placed separately from oxidants, acids, alkalis and other substances. Due to its unique chemical properties, it can mix with other substances or cause severe chemical reactions, endangering safety.
When used, the operating environment must be well ventilated. If used in a closed space, the volatile gaseous components of the substance are easy to accumulate, which not only endangers human health, but also may cause serious consequences such as explosion. Ventilation equipment should be checked regularly to ensure normal operation and timely discharge of harmful gases.
Furthermore, the operation method should be precise and standardized during use. Follow the established operating procedures, and do not change the dose or steps without authorization. Take accurate measurements, do not increase or decrease at will, and avoid accidents caused by improper dosage. Focus on the operation process and avoid distractions to ensure the accuracy and safety of the operation.
Waste disposal should not be ignored. Do not discard at will, because it is potentially harmful. It is necessary to follow relevant regulations and adopt professional treatment methods to ensure harmless treatment and avoid pollution to the environment.
In short, when using N-trichloromethylthioalkyl-4-methylbenzenesulfonamide, safety is always the top priority, and all links must be strictly controlled to prevent problems before they occur.
What is the market outlook for N-trichloromethylsulfanyl-4-methylbenzenesulfonamide?
Nowadays, there is N-trichloromethylthioalkyl-4-methylbenzenesulfonamide, and its market prospect is related to many aspects. This substance has potential value in the chemical industry or in the creation of new materials. At present, the chemical industry has a growing demand for novel and performance-specific materials. If this compound can exhibit unique chemical properties, such as excellent stability and reactivity, it will surely attract the attention of material developers.
In the field of pharmaceutical chemistry, it may become a lead compound. Nowadays, pharmaceutical research and development often explores novel structures with biological activity. Its unique molecular structure may interact with biological targets. If it is delicately modified and deeply studied, it may open the path to the creation of a new class of drugs.
However, its market expansion also poses challenges. If the preparation process is complicated and costly, it will limit its large-scale production and application. And the market takes time to accept new compounds, and it needs to go through rigorous safety assessments, regulatory reviews and other processes. But over time, if we can overcome technical problems, optimize production processes, reduce costs, and pass safety reviews, we will be able to emerge in the fields of materials, medicine, etc., win a broad market space, and contribute to the progress of the chemical and pharmaceutical industries.
In the field of pharmaceutical chemistry, it may become a lead compound. Nowadays, pharmaceutical research and development often explores novel structures with biological activity. Its unique molecular structure may interact with biological targets. If it is delicately modified and deeply studied, it may open the path to the creation of a new class of drugs.
However, its market expansion also poses challenges. If the preparation process is complicated and costly, it will limit its large-scale production and application. And the market takes time to accept new compounds, and it needs to go through rigorous safety assessments, regulatory reviews and other processes. But over time, if we can overcome technical problems, optimize production processes, reduce costs, and pass safety reviews, we will be able to emerge in the fields of materials, medicine, etc., win a broad market space, and contribute to the progress of the chemical and pharmaceutical industries.
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