Linshang Chemical
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[Benzenesulfonyl(Chloro)Amino]Sodium
Linshang Chemical
|
HS Code |
998324 |
| Chemical Formula | C6H5ClNNaO2S |
| Molecular Weight | 213.62 g/mol |
| Appearance | Solid |
| Color | White to off - white |
| Odor | Odorless |
| Solubility In Water | Soluble |
| Melting Point | N/A (decomposes) |
| Ph | N/A (depends on concentration in solution) |
| Stability | Stable under normal conditions |
| Hazard Class | Irritant (to eyes, skin, respiratory system) |
As an accredited [Benzenesulfonyl(Chloro)Amino]Sodium factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 - gram pack of [benzenesulfonyl(chloro)amino]sodium in a sealed chemical - grade bag. |
| Storage | **Storage of [benzenesulfonyl(chloro)amino]sodium**: 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 contact with moisture and air, as it may react. Separate it from incompatible substances like oxidizing agents, reducing agents, and bases to avoid potential chemical reactions. |
| Shipping | [Benzenesulfonyl(chloro)amino]sodium is shipped in well - sealed, corrosion - resistant containers. It adheres to strict chemical shipping regulations, ensuring proper handling to prevent spills and maintain safety during transit. |
Competitive [Benzenesulfonyl(Chloro)Amino]Sodium 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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What is the chemical structure of [benzenesulfonyl (chloro) amino] sodium
Alas! If you want to know the name of "[benzenesulfonyl (chloro) amino] sodium", I will analyze it. This is the name of a compound, and it can be deduced from the name.
The first word "benzenesulfonyl" shows that it contains a benzenesulfonyl group. Benzene, the aromatic group of six yuan, is solid and consists of six carbon atoms in a common phase. The sulfonyl group, that is, -SO 2O -, is above the benzene group. Therefore, the shape of the benzenesulfonyl group is the phase of the benzenesulfonyl group.
Then " (chloro) amino", which means it contains chlorinated amino groups. The amino group, -NH 2O, and the chlorine amino group, or the chlorine atom replaces one atom in the amino group to form -NHCl.
The end of the "sodium" indicates that the substance is the same. There is no compound that can be synthesized, or there is a sub-part of the compound that can be synthesized.
As mentioned above, the reduction of "[benzenesulfonyl (chloro) amino] sodium" is probably the benzenesulfonyl group that is connected to the chlorine amino group, and the whole group is formed. With respect to benzene, a sulfonyl group is replaced by a sulfonyl group, and another oxygen atom of the sulfonyl group can be the chlorine amino phase, and the whole group is the first child, and the second child is balanced.
The first word "benzenesulfonyl" shows that it contains a benzenesulfonyl group. Benzene, the aromatic group of six yuan, is solid and consists of six carbon atoms in a common phase. The sulfonyl group, that is, -SO 2O -, is above the benzene group. Therefore, the shape of the benzenesulfonyl group is the phase of the benzenesulfonyl group.
Then " (chloro) amino", which means it contains chlorinated amino groups. The amino group, -NH 2O, and the chlorine amino group, or the chlorine atom replaces one atom in the amino group to form -NHCl.
The end of the "sodium" indicates that the substance is the same. There is no compound that can be synthesized, or there is a sub-part of the compound that can be synthesized.
As mentioned above, the reduction of "[benzenesulfonyl (chloro) amino] sodium" is probably the benzenesulfonyl group that is connected to the chlorine amino group, and the whole group is formed. With respect to benzene, a sulfonyl group is replaced by a sulfonyl group, and another oxygen atom of the sulfonyl group can be the chlorine amino phase, and the whole group is the first child, and the second child is balanced.
What are the main uses of [benzenesulfonyl (chloro) amino acids] sodium
[Benzenesulfonyl (chlorine) amino] sodium salt has a wide range of uses. In the field of industry, it can be used as an important raw material for organic synthesis. This compound can participate in many chemical reactions and help create various complex organic compounds. It often plays a key role in the preparation of fine chemical products, such as the preparation of pharmaceutical intermediates and dye intermediates with specific structures. With its unique chemical structure, specific functional groups can be introduced into the reaction to lay the foundation for the construction of the target product.
In the field of materials science, [benzenesulfonyl (chlorine) amino] sodium salt can also be used. Or it can be used as a modifier to add to some polymer materials. By interacting with the polymer chain, it can change the physical and chemical properties of the material, such as improving the stability and corrosion resistance of the material, and even affecting the optical properties of the material, expanding the application range of materials in different fields.
Furthermore, in the field of scientific research and exploration, as a unique chemical reagent, it provides chemical researchers with a variety of research possibilities. It can be used to explore new reaction paths, reveal new chemical phenomena, and is of great significance to promote the development of organic chemistry theory and the development of new synthesis methods. Due to its special chemical properties, it can trigger unique chemical reactions under laboratory conditions, providing assistance for the expansion of the boundaries of chemical knowledge.
In the field of materials science, [benzenesulfonyl (chlorine) amino] sodium salt can also be used. Or it can be used as a modifier to add to some polymer materials. By interacting with the polymer chain, it can change the physical and chemical properties of the material, such as improving the stability and corrosion resistance of the material, and even affecting the optical properties of the material, expanding the application range of materials in different fields.
Furthermore, in the field of scientific research and exploration, as a unique chemical reagent, it provides chemical researchers with a variety of research possibilities. It can be used to explore new reaction paths, reveal new chemical phenomena, and is of great significance to promote the development of organic chemistry theory and the development of new synthesis methods. Due to its special chemical properties, it can trigger unique chemical reactions under laboratory conditions, providing assistance for the expansion of the boundaries of chemical knowledge.
What are the physical properties of [benzenesulfonyl (chloro) amino] sodium
Sodium [benzenesulfonyl (chlorine) amino] is also an organic compound. Its physical properties are quite unique, let me come one by one.
Looking at its shape, under normal circumstances, this substance is mostly white powder, with a fine texture, like the first snow in winter, sprinkling on the world. Its color is pure, free of variegated colors, and it shines slightly under light, as if it contains endless mysteries.
When it comes to solubility, this compound shows its unique properties in water. It can be partially dissolved in water, just like a swimming fish entering water. Although it is not completely integrated, it can also make love with water. When dissolved, the aqueous solution is slightly clear, and occasionally shimmering, just like a sparkling lake. However, in organic solvents, such as ethanol, ether, etc., their solubility is different. In ethanol, the degree of solubility is slightly higher, and it seems to be more intimately intertwined with ethanol molecules to form a uniform mixed system; in ether, the solubility is relatively weak, only a small amount can be dissolved, just like watching fire from the shore, and it is difficult to completely melt.
Its melting point is also one of the important physical properties. Experiments have determined that the melting point of this substance is within a specific temperature range. When the temperature gradually rises to near the melting point, sodium [benzenesulfonyl (chloro) amino] is awakened like a sleeping spirit and begins to transform from solid to liquid. At first, the edge softens slightly, just like the beginning of spring snow melting, and then gradually spreads until it completely turns into a liquid, a process like a wonderful transformation.
In addition, its density cannot be ignored. Compared with common substances, sodium [benzenesulfonyl (chlorine) amino] has a moderate density, neither as light as a feather nor as heavy as a rock. When placed in the hand, you can feel that its weight is just right, not too heavy, nor as light as nothing. This moderate density lays the foundation for its many practical applications.
Looking at its shape, under normal circumstances, this substance is mostly white powder, with a fine texture, like the first snow in winter, sprinkling on the world. Its color is pure, free of variegated colors, and it shines slightly under light, as if it contains endless mysteries.
When it comes to solubility, this compound shows its unique properties in water. It can be partially dissolved in water, just like a swimming fish entering water. Although it is not completely integrated, it can also make love with water. When dissolved, the aqueous solution is slightly clear, and occasionally shimmering, just like a sparkling lake. However, in organic solvents, such as ethanol, ether, etc., their solubility is different. In ethanol, the degree of solubility is slightly higher, and it seems to be more intimately intertwined with ethanol molecules to form a uniform mixed system; in ether, the solubility is relatively weak, only a small amount can be dissolved, just like watching fire from the shore, and it is difficult to completely melt.
Its melting point is also one of the important physical properties. Experiments have determined that the melting point of this substance is within a specific temperature range. When the temperature gradually rises to near the melting point, sodium [benzenesulfonyl (chloro) amino] is awakened like a sleeping spirit and begins to transform from solid to liquid. At first, the edge softens slightly, just like the beginning of spring snow melting, and then gradually spreads until it completely turns into a liquid, a process like a wonderful transformation.
In addition, its density cannot be ignored. Compared with common substances, sodium [benzenesulfonyl (chlorine) amino] has a moderate density, neither as light as a feather nor as heavy as a rock. When placed in the hand, you can feel that its weight is just right, not too heavy, nor as light as nothing. This moderate density lays the foundation for its many practical applications.
What is the preparation method of [benzenesulfonyl (chloro) amino] sodium
To prepare sodium [benzenesulfonyl (chloride) amino] chloride, you can do it according to the following method.
Take benzenesulfonic acid first, and make it co-heat with sulfoxide chloride in an appropriate way. In this two phase, the hydroxyl group of benzenesulfonic acid is replaced by a chlorine atom, so benzenesulfonyl chloride is obtained. The reaction also requires attention to the temperature, duration and dosage of sulfoxide chloride, and in a well-ventilated manner, because sulfoxide chloride is corrosive and harmful to the escaping gas.
When benzenesulfonyl chloride is obtained, it is slowly added to the ammonia solution containing an appropriate amount of sodium hydroxide. In this process, the chlorine atom of benzenesulfonyl chloride is combined with the amino group of ammonia. At the same time, sodium hydroxide can maintain the alkaline environment of the reaction system and help the reaction proceed to the right, and finally obtain sodium [benzenesulfonyl (chloride) amino].
When operating, it is necessary to control the temperature in a suitable range to avoid side reactions. And stir well to make the reactants fully contact. After the reaction is completed, or the method of crystallization and filtration can be used to extract sodium [benzenesulfonyl (chloride) amino] from the reaction mixture, and then wash and dry with an appropriate solvent to obtain a pure product. Although this preparation method is not the only one, it can obtain satisfactory results according to this step.
Take benzenesulfonic acid first, and make it co-heat with sulfoxide chloride in an appropriate way. In this two phase, the hydroxyl group of benzenesulfonic acid is replaced by a chlorine atom, so benzenesulfonyl chloride is obtained. The reaction also requires attention to the temperature, duration and dosage of sulfoxide chloride, and in a well-ventilated manner, because sulfoxide chloride is corrosive and harmful to the escaping gas.
When benzenesulfonyl chloride is obtained, it is slowly added to the ammonia solution containing an appropriate amount of sodium hydroxide. In this process, the chlorine atom of benzenesulfonyl chloride is combined with the amino group of ammonia. At the same time, sodium hydroxide can maintain the alkaline environment of the reaction system and help the reaction proceed to the right, and finally obtain sodium [benzenesulfonyl (chloride) amino].
When operating, it is necessary to control the temperature in a suitable range to avoid side reactions. And stir well to make the reactants fully contact. After the reaction is completed, or the method of crystallization and filtration can be used to extract sodium [benzenesulfonyl (chloride) amino] from the reaction mixture, and then wash and dry with an appropriate solvent to obtain a pure product. Although this preparation method is not the only one, it can obtain satisfactory results according to this step.
What are the precautions when using [benzenesulfonyl (chloro) amino] sodium
When using sodium [benzenesulfonyl (chloro) amino], there are many matters that must be observed.
First, when examining the properties of this thing. It is necessary to observe its color, state, taste, etc., and know its normal appearance, in order to understand its essence. If the color and taste are abnormal, it is feared that its quality will change, so it must be used with caution.
Second, consider its stability. This thing can change its properties in different environments, whether warm or wet, or in contact with other things. Therefore, when using it, make sure that the environment is suitable, so as not to lose its effectiveness due to external disturbances, or even change, causing danger.
Third, pay attention to the reaction between it and other things. This is the key. When using it, you must first know that it and the things you use, or they are compatible with each other, or they repel each other. If you mix it blindly, you don't know its nature. Once the reaction is intense, the lighter one will damage the object, and the heavier one will endanger the human body. It will be too late to regret it.
Fourth, the user should have the corresponding knowledge and skills. Unless you are familiar with the nature of this thing and use the chemical method well, you should not use it rashly. You must go through study, know what it is and why it is, before you can start, so as to ensure the safety of use.
Fifth, the aftermath should not be ignored. After use, the disposal of the rest should be in accordance with the rules and should not be discarded at will. Or recycle, or properly dispose of, to avoid polluting the environment and harming future generations.
First, when examining the properties of this thing. It is necessary to observe its color, state, taste, etc., and know its normal appearance, in order to understand its essence. If the color and taste are abnormal, it is feared that its quality will change, so it must be used with caution.
Second, consider its stability. This thing can change its properties in different environments, whether warm or wet, or in contact with other things. Therefore, when using it, make sure that the environment is suitable, so as not to lose its effectiveness due to external disturbances, or even change, causing danger.
Third, pay attention to the reaction between it and other things. This is the key. When using it, you must first know that it and the things you use, or they are compatible with each other, or they repel each other. If you mix it blindly, you don't know its nature. Once the reaction is intense, the lighter one will damage the object, and the heavier one will endanger the human body. It will be too late to regret it.
Fourth, the user should have the corresponding knowledge and skills. Unless you are familiar with the nature of this thing and use the chemical method well, you should not use it rashly. You must go through study, know what it is and why it is, before you can start, so as to ensure the safety of use.
Fifth, the aftermath should not be ignored. After use, the disposal of the rest should be in accordance with the rules and should not be discarded at will. Or recycle, or properly dispose of, to avoid polluting the environment and harming future generations.
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