Linshang Chemical
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4-Amino-6-(Trichlorovinyl)-1,3-Benzenedisulfonamide
Linshang Chemical
|
HS Code |
255027 |
| Chemical Formula | C8H6Cl3N3O4S2 |
| Molecular Weight | 376.64 g/mol |
As an accredited 4-Amino-6-(Trichlorovinyl)-1,3-Benzenedisulfonamide factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of 4 - amino - 6 - (trichlorovinyl) - 1,3 - benzenedisulfonamide in sealed plastic bags. |
| Storage | Store 4 - amino - 6 - (trichlorovinyl)-1,3 - benzenedisulfonamide in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. It should be stored in a tightly sealed container to prevent moisture absorption and potential reactions. Avoid storing near incompatible substances to ensure its stability and safety. |
| Shipping | 4 - amino - 6 - (trichlorovinyl)-1,3 - benzenedisulfonamide is a chemical. Shipping should follow strict hazardous materials regulations. It must be properly packaged to prevent leakage, with clear labels indicating its nature for safe transportation. |
Competitive 4-Amino-6-(Trichlorovinyl)-1,3-Benzenedisulfonamide prices that fit your budget—flexible terms and customized quotes for every order.
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As a leading 4-Amino-6-(Trichlorovinyl)-1,3-Benzenedisulfonamide 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 4-amino-6- (trichlorovinyl) -1,1 3-benzenedisulfonamide?
4 - amino - 6- (trichlorovinyl) - 1,3 - benzenedisulfonamide, its chemical properties are exquisite. The core of this compound is benzene, which is the aromatic properties commonly found in chemical processes. Its qualitative properties are derived from its specific π sub-molecules, just like the ancient city of Gucheng Guo, which can be dried outside the world.
At the 1st and 3rd positions of benzene, there is a disulfonamido group. Sulfonamido - SO ² NH ², in this group, the sulfur atom is divided into two oxygen atoms and an amino group. The properties of thioxy are low, so that the sulfonamido group is a certain water-based, such as a boat encountering water and has the meaning of harmony. And there are solitary ions on the nitrogen atom of the amino group, which can be formed. The physical and chemical properties of the chemical compounds are deeply affected, just like the marriage of the ancients, which makes the family of chemical properties.
And in the fourth position of benzene, there is an amino group - NH ². The amino group is a group with molecular properties, which can increase the density of the children of benzene, making the benzene group more likely to be replaced by benzene, such as the increase in troops in the city, the improvement of soldiers, and the easier to attack.
Furthermore, in the sixth position of benzene, there is trichlorovinyl - CCl = CHCl. In this group, the properties of the chlorine atom are improved, and the absorber effect is clear, which can change the properties of the whole molecule, and trichloroethylene can generate multiple reactions such as addition and polymerization, such as the ancient ones.
In this way, the transformation of 4-amino-6- (trichlorovinyl) -1,3-benzenedisulfonamide, each group affects each other and interacts with each other to jointly determine its transformation properties and activities, forming a delicate system of transformation.
At the 1st and 3rd positions of benzene, there is a disulfonamido group. Sulfonamido - SO ² NH ², in this group, the sulfur atom is divided into two oxygen atoms and an amino group. The properties of thioxy are low, so that the sulfonamido group is a certain water-based, such as a boat encountering water and has the meaning of harmony. And there are solitary ions on the nitrogen atom of the amino group, which can be formed. The physical and chemical properties of the chemical compounds are deeply affected, just like the marriage of the ancients, which makes the family of chemical properties.
And in the fourth position of benzene, there is an amino group - NH ². The amino group is a group with molecular properties, which can increase the density of the children of benzene, making the benzene group more likely to be replaced by benzene, such as the increase in troops in the city, the improvement of soldiers, and the easier to attack.
Furthermore, in the sixth position of benzene, there is trichlorovinyl - CCl = CHCl. In this group, the properties of the chlorine atom are improved, and the absorber effect is clear, which can change the properties of the whole molecule, and trichloroethylene can generate multiple reactions such as addition and polymerization, such as the ancient ones.
In this way, the transformation of 4-amino-6- (trichlorovinyl) -1,3-benzenedisulfonamide, each group affects each other and interacts with each other to jointly determine its transformation properties and activities, forming a delicate system of transformation.
What are the main uses of 4-amino-6- (trichlorovinyl) -1, 3-benzenedisulfonamide
4 - amino - 6- (trichlorovinyl) - 1,3 - benzenedisulfonamide, Chinese name or 4 - amino - 6- (trichlorovinyl) - 1,3 - benzene disulfonamide, this substance is widely used.
In the field of medicine, it is often used as a key intermediate. The Gain structure contains special groups, which have unique chemical activity and can be combined with other compounds through specific chemical reactions to synthesize drugs with specific pharmacological activities. For example, in the development of some antibacterial drugs, the structure can be modified to give the drug better antibacterial properties or enhance the inhibitory effect on specific bacteria, which can help the birth of new antibacterial drugs.
In the field of agriculture, or can be used to develop pesticides. Because of its structural characteristics, or have inhibitory or killing effects on specific pests and diseases. After rational design and modification, it can be made into pesticide products such as insecticides and fungicides, which can help agricultural crops control pests and diseases, and improve crop yield and quality.
In the field of materials science, it also has potential uses. Because its sulfonamide group has certain hydrophilicity and chemical stability, it can be used to prepare special functional materials. For example, in the modification of some polymer materials, the addition of compounds containing this structure can improve the hydrophilicity and antistatic properties of materials, so that materials can be better used in electronics, textile and other industries.
Due to its unique chemical structure, this compound has important uses in medicine, agriculture, materials and other fields, providing a key foundation for technological innovation and Product Research & Development in various fields.
In the field of medicine, it is often used as a key intermediate. The Gain structure contains special groups, which have unique chemical activity and can be combined with other compounds through specific chemical reactions to synthesize drugs with specific pharmacological activities. For example, in the development of some antibacterial drugs, the structure can be modified to give the drug better antibacterial properties or enhance the inhibitory effect on specific bacteria, which can help the birth of new antibacterial drugs.
In the field of agriculture, or can be used to develop pesticides. Because of its structural characteristics, or have inhibitory or killing effects on specific pests and diseases. After rational design and modification, it can be made into pesticide products such as insecticides and fungicides, which can help agricultural crops control pests and diseases, and improve crop yield and quality.
In the field of materials science, it also has potential uses. Because its sulfonamide group has certain hydrophilicity and chemical stability, it can be used to prepare special functional materials. For example, in the modification of some polymer materials, the addition of compounds containing this structure can improve the hydrophilicity and antistatic properties of materials, so that materials can be better used in electronics, textile and other industries.
Due to its unique chemical structure, this compound has important uses in medicine, agriculture, materials and other fields, providing a key foundation for technological innovation and Product Research & Development in various fields.
What are the physical properties of 4-amino-6- (trichlorovinyl) -1,3-benzenedisulfonamide
4-Amino-6- (trichlorovinyl) -1,3-benzenedisulfonamide, this is an organic compound, often referred to as a specific sulfonamide compound. Its physical properties are unique and are crucial for chemical research and industrial applications.
Looking at its properties, under normal temperature and pressure, it is mostly white to light yellow crystalline powder. This color state is convenient for identification and preliminary judgment. In chemical production and laboratory operations, researchers can preliminarily determine the purity and reaction process of the compound by observing the color and morphology.
Melting point is also an important physical property. Its melting point is in a specific temperature range, and the exact melting point varies with purity and measurement conditions, roughly around [X] ° C. The determination of the melting point is of great significance for the purity identification of compounds. If the melting point of the sample is consistent with the theoretical value and the melting range is narrow, it often indicates that the purity is quite high; conversely, if the melting point is deviated and the melting range is wide, it may contain impurities.
In terms of solubility, this compound has limited solubility in water, but it can be soluble in some organic solvents, such as dimethyl sulfoxide (DMSO), N, N-dimethylformamide (DMF), etc. This solubility characteristic has far-reaching implications for its synthesis, separation and application. In organic synthesis, it is crucial to choose a suitable solvent to ensure that the reactants are fully dissolved to facilitate the reaction, and the product can be separated and purified after the reaction by the difference in solubility.
In addition, the density of this compound also has characteristics, about [X] g/cm ³. Density is indispensable for material measurement, reactor design and product quality control in chemical production. Accurate control of density data can ensure accurate material ratio in the production process and avoid product quality problems due to measurement errors.
In summary, the physical properties of 4-amino-6- (trichlorovinyl) -1,3-benzenedisulfonamide white to light yellow crystalline powder morphology, specific melting point, unique solubility and density lay the foundation for its research, production and application in the field of chemistry.
Looking at its properties, under normal temperature and pressure, it is mostly white to light yellow crystalline powder. This color state is convenient for identification and preliminary judgment. In chemical production and laboratory operations, researchers can preliminarily determine the purity and reaction process of the compound by observing the color and morphology.
Melting point is also an important physical property. Its melting point is in a specific temperature range, and the exact melting point varies with purity and measurement conditions, roughly around [X] ° C. The determination of the melting point is of great significance for the purity identification of compounds. If the melting point of the sample is consistent with the theoretical value and the melting range is narrow, it often indicates that the purity is quite high; conversely, if the melting point is deviated and the melting range is wide, it may contain impurities.
In terms of solubility, this compound has limited solubility in water, but it can be soluble in some organic solvents, such as dimethyl sulfoxide (DMSO), N, N-dimethylformamide (DMF), etc. This solubility characteristic has far-reaching implications for its synthesis, separation and application. In organic synthesis, it is crucial to choose a suitable solvent to ensure that the reactants are fully dissolved to facilitate the reaction, and the product can be separated and purified after the reaction by the difference in solubility.
In addition, the density of this compound also has characteristics, about [X] g/cm ³. Density is indispensable for material measurement, reactor design and product quality control in chemical production. Accurate control of density data can ensure accurate material ratio in the production process and avoid product quality problems due to measurement errors.
In summary, the physical properties of 4-amino-6- (trichlorovinyl) -1,3-benzenedisulfonamide white to light yellow crystalline powder morphology, specific melting point, unique solubility and density lay the foundation for its research, production and application in the field of chemistry.
What are the synthesis methods of 4-amino-6- (trichlorovinyl) -1,3-benzenedisulfonamide
To prepare 4 - amino - 6- (trichlorovinyl) - 1,3 - benzenedisulfonamide, the method of chemical synthesis is often followed. There are many methods, and the following numbers are briefly described.
First, you can take a suitable benzene-based compound as the starting material. Select benzene derivatives containing modifiable groups, and introduce sulfonyl groups at specific positions in the benzene ring through sulfonation. At the time of sulfonation, careful temperature control and selection of good sulfonation reagents, such as concentrated sulfuric acid and fuming sulfuric acid, are required to accurately obtain 1,3-benzene disulfonic acid derivatives.
Then, under specific conditions, the derivative reacts with reagents containing trichlorovinyl. In this step, a suitable catalyst must be selected, or a base must be used to assist, in order to facilitate the smooth connection of trichlorovinyl to the designated check point of the benzene ring to form 6- (trichlorovinyl) -1,3-benzenedisulfonamide derivatives.
Finally, the amino group is introduced at another designated position of the benzene ring by reduction and other methods. The reduction process or the method of catalytic hydrogenation, platinum, palladium, etc. are selected as catalysts, or chemical reduction reagents, such as lithium aluminum hydride, are carefully operated to obtain 4-amino-6- (trichlorovinyl) -1,3-benzenedisulfonamide.
Second, or another way. First, the compound containing trichlorovinyl and the benzene ring are prepared by other methods, and then the sulfonation and amination steps are carried out. For example, trichloroethylene and benzene derivatives with specific activities are connected in a suitable reaction, and then the sulfonation is carried out in sequence to control the reaction conditions and introduce the sulfonyl group at the desired position. Finally, the target product is obtained by amination. The key to this path lies in the selection of starting materials and the precise control of each step of the reaction conditions to prevent side reactions from clumping, so as to increase the purity and yield of the product. The whole process of synthesis must be based on chemical principles, carefully observe the reaction changes, and make good use of separation and purification techniques, such as recrystallization and column chromatography, to achieve the purity of the target product.
First, you can take a suitable benzene-based compound as the starting material. Select benzene derivatives containing modifiable groups, and introduce sulfonyl groups at specific positions in the benzene ring through sulfonation. At the time of sulfonation, careful temperature control and selection of good sulfonation reagents, such as concentrated sulfuric acid and fuming sulfuric acid, are required to accurately obtain 1,3-benzene disulfonic acid derivatives.
Then, under specific conditions, the derivative reacts with reagents containing trichlorovinyl. In this step, a suitable catalyst must be selected, or a base must be used to assist, in order to facilitate the smooth connection of trichlorovinyl to the designated check point of the benzene ring to form 6- (trichlorovinyl) -1,3-benzenedisulfonamide derivatives.
Finally, the amino group is introduced at another designated position of the benzene ring by reduction and other methods. The reduction process or the method of catalytic hydrogenation, platinum, palladium, etc. are selected as catalysts, or chemical reduction reagents, such as lithium aluminum hydride, are carefully operated to obtain 4-amino-6- (trichlorovinyl) -1,3-benzenedisulfonamide.
Second, or another way. First, the compound containing trichlorovinyl and the benzene ring are prepared by other methods, and then the sulfonation and amination steps are carried out. For example, trichloroethylene and benzene derivatives with specific activities are connected in a suitable reaction, and then the sulfonation is carried out in sequence to control the reaction conditions and introduce the sulfonyl group at the desired position. Finally, the target product is obtained by amination. The key to this path lies in the selection of starting materials and the precise control of each step of the reaction conditions to prevent side reactions from clumping, so as to increase the purity and yield of the product. The whole process of synthesis must be based on chemical principles, carefully observe the reaction changes, and make good use of separation and purification techniques, such as recrystallization and column chromatography, to achieve the purity of the target product.
4-Amino-6- (trichlorovinyl) -1, 3-benzenedisulfonamide What are the precautions during use?
4-Amino-6- (trichlorovinyl) -1,3-benzenedisulfonamide. When using this substance, many things must be observed.
The first thing to pay attention to is its toxicity. This substance may be toxic and harmful to human health. Therefore, when handling, be sure to wear protective gear, such as protective clothing, gloves, masks, etc., to avoid skin, breathing and contact. If you accidentally touch it, rinse it with plenty of water as soon as possible; if it enters the eye, rinse it immediately and seek medical attention.
The second is related to its stability. It may be unstable in a specific environment and is prone to chemical reactions. Therefore, when storing, it should be placed in a cool, dry and well-ventilated place, away from fire sources, heat sources and oxidants. And it must be placed separately from other chemicals to prevent interaction and cause danger.
Furthermore, during use, it is crucial to accurately control the dose. Because it may have specific effects in reactions and applications, improper dosage will not only fail to achieve the expected results, but also cause unexpected changes. Therefore, it should be used with accurate measuring tools in accordance with established procedures and standards.
In addition, the use of the site is also exquisite. It is necessary to keep the site clean and orderly, with good ventilation facilities to disperse possible harmful gases. After the operation is completed, properly clean up the site, do not allow residues to remain, to prevent pollution of the environment or cause subsequent danger.
Repeat, for related waste, must not be discarded at will. It should be properly disposed of, or recycled, or treated harmlessly according to the prescribed process and method to protect the safety of the environment.
In short, with 4-amino-6- (trichlorovinyl) -1,3-benzenedisulfonamide, we must be cautious and strictly observe all precautions to ensure safety and efficacy.
The first thing to pay attention to is its toxicity. This substance may be toxic and harmful to human health. Therefore, when handling, be sure to wear protective gear, such as protective clothing, gloves, masks, etc., to avoid skin, breathing and contact. If you accidentally touch it, rinse it with plenty of water as soon as possible; if it enters the eye, rinse it immediately and seek medical attention.
The second is related to its stability. It may be unstable in a specific environment and is prone to chemical reactions. Therefore, when storing, it should be placed in a cool, dry and well-ventilated place, away from fire sources, heat sources and oxidants. And it must be placed separately from other chemicals to prevent interaction and cause danger.
Furthermore, during use, it is crucial to accurately control the dose. Because it may have specific effects in reactions and applications, improper dosage will not only fail to achieve the expected results, but also cause unexpected changes. Therefore, it should be used with accurate measuring tools in accordance with established procedures and standards.
In addition, the use of the site is also exquisite. It is necessary to keep the site clean and orderly, with good ventilation facilities to disperse possible harmful gases. After the operation is completed, properly clean up the site, do not allow residues to remain, to prevent pollution of the environment or cause subsequent danger.
Repeat, for related waste, must not be discarded at will. It should be properly disposed of, or recycled, or treated harmlessly according to the prescribed process and method to protect the safety of the environment.
In short, with 4-amino-6- (trichlorovinyl) -1,3-benzenedisulfonamide, we must be cautious and strictly observe all precautions to ensure safety and efficacy.
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