Linshang Chemical
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4-Chlorobenzenesulfonic Acid 2,3-Dibromo-Propyl Este
Linshang Chemical
|
HS Code |
841040 |
| Chemical Formula | C9H9Br2ClO3S |
| Molecular Weight | 380.49 |
As an accredited 4-Chlorobenzenesulfonic Acid 2,3-Dibromo-Propyl Este factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of 4 - chlorobenzenesulfonic Acid 2,3 - dibromo - propyl Este in sealed plastic bags. |
| Storage | 4 - Chlorobenzenesulfonic Acid 2,3 - dibromo - propyl Este should be stored 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. Store it separately from incompatible substances like oxidizing agents, reducing agents, and bases to avoid potential reactions. |
| Shipping | 4 - Chlorobenzenesulfonic Acid 2,3 - dibromo - propyl Este should be shipped in well - sealed, corrosion - resistant containers. Ensure compliance with chemical transportation regulations to prevent leakage and ensure safe transit. |
Competitive 4-Chlorobenzenesulfonic Acid 2,3-Dibromo-Propyl Este prices that fit your budget—flexible terms and customized quotes for every order.
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Tel: +8615365006308
Email: info@alchemist-chem.com
Where to Buy 4-Chlorobenzenesulfonic Acid 2,3-Dibromo-Propyl Este in China?
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As a leading 4-Chlorobenzenesulfonic Acid 2,3-Dibromo-Propyl Este 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 4-chlorobenzenesulfonic Acid 2,3-dibromo-propyl Este?
4-Chlorobenzenesulfonic acid-2,3-dibromopropyl ester has a wide range of uses. In the field of industry, it is often used as a key intermediate in organic synthesis. This is because the compound has a specific chemical structure and activity, and can play a unique role in many chemical reactions. It can help chemists create various complex organic compounds, such as synthesizing polymers with special functions, pharmaceutical intermediates, etc.
In the field of materials science, it also has outstanding performance. Or it can participate in the process of material modification, which can be integrated into the molecular structure of materials through chemical reactions to change the physical and chemical properties of materials, such as improving the stability and corrosion resistance of materials, so that the materials can be more durable and have better properties in different environments to meet various application needs.
In the field of drug research and development, its potential value cannot be underestimated. Due to its chemical properties, it may be used as the basic structure of lead compounds. Chemists explore new compounds with biological activities by modifying and optimizing their structures, in order to develop new drugs with excellent efficacy and small side effects, and contribute to human health.
In the field of agriculture, it may be used to create new pesticides. With its chemical activity, it can inhibit or kill pests, pathogens, etc., escort the growth of crops, improve the yield and quality of agricultural products, and contribute to the sustainable development of agriculture. In short, 4-chlorobenzenesulfonic acid-2,3-dibromopropyl ester plays an important role in many fields, providing assistance for the development of many industries.
In the field of materials science, it also has outstanding performance. Or it can participate in the process of material modification, which can be integrated into the molecular structure of materials through chemical reactions to change the physical and chemical properties of materials, such as improving the stability and corrosion resistance of materials, so that the materials can be more durable and have better properties in different environments to meet various application needs.
In the field of drug research and development, its potential value cannot be underestimated. Due to its chemical properties, it may be used as the basic structure of lead compounds. Chemists explore new compounds with biological activities by modifying and optimizing their structures, in order to develop new drugs with excellent efficacy and small side effects, and contribute to human health.
In the field of agriculture, it may be used to create new pesticides. With its chemical activity, it can inhibit or kill pests, pathogens, etc., escort the growth of crops, improve the yield and quality of agricultural products, and contribute to the sustainable development of agriculture. In short, 4-chlorobenzenesulfonic acid-2,3-dibromopropyl ester plays an important role in many fields, providing assistance for the development of many industries.
4-chlorobenzenesulfonic the physical properties of Acid 2,3-dibromo-propyl Este
4-Chlorobenzenesulfonic acid-2,3-dibromopropyl ester is one of the organic compounds. Its physical properties are particularly important for its application in various fields.
Looking at its properties, under room temperature and pressure, or as a solid state, it is often white to light yellow powder or crystalline. This form is conducive to storage and transportation, and in many chemical reactions, this form can make the reaction interface fully contact and promote the reaction.
When it comes to melting point, it has a specific melting point value, which is quite fixed due to the stability of the compound structure. Knowing the melting point, the purity of this compound can be determined by the method of melting point measurement. If the purity is high, the melting point range is narrow and approaches the theoretical value; if it contains impurities, the melting point decreases and the melting range becomes wider.
The boiling point is also a key physical property. Under specific pressure conditions, when the boiling point is reached, the compound changes from liquid to gaseous state. The boiling point reflects the strength of its intermolecular forces, which is of great significance to its separation and purification processes. In distillation and other operations, it can be effectively separated from other substances according to the difference in boiling points.
In terms of solubility, 4-chlorobenzenesulfonic acid-2,3-dibromopropyl ester behaves differently in different solvents. In organic solvents such as ethanol and acetone, it may have a certain solubility. Due to the similar miscibility principle, its organic structure makes it interact with organic solvents. In water, the solubility may be limited, because although there are polar groups in the molecule, the overall hydrophobicity is strong. This solubility characteristic provides an important reference in material extraction, reaction medium selection, etc.
Density is also a key consideration. Its density determines its location in the mixture, which has a great impact on the liquid-liquid separation operation. Depending on the density difference, means such as liquid separation can be used to achieve separation from other liquids.
In summary, the physical properties of 4-chlorobenzenesulfonic acid-2,3-dibromopropyl ester, such as properties, melting point, boiling point, solubility and density, are of indispensable value in its research, production and application.
Looking at its properties, under room temperature and pressure, or as a solid state, it is often white to light yellow powder or crystalline. This form is conducive to storage and transportation, and in many chemical reactions, this form can make the reaction interface fully contact and promote the reaction.
When it comes to melting point, it has a specific melting point value, which is quite fixed due to the stability of the compound structure. Knowing the melting point, the purity of this compound can be determined by the method of melting point measurement. If the purity is high, the melting point range is narrow and approaches the theoretical value; if it contains impurities, the melting point decreases and the melting range becomes wider.
The boiling point is also a key physical property. Under specific pressure conditions, when the boiling point is reached, the compound changes from liquid to gaseous state. The boiling point reflects the strength of its intermolecular forces, which is of great significance to its separation and purification processes. In distillation and other operations, it can be effectively separated from other substances according to the difference in boiling points.
In terms of solubility, 4-chlorobenzenesulfonic acid-2,3-dibromopropyl ester behaves differently in different solvents. In organic solvents such as ethanol and acetone, it may have a certain solubility. Due to the similar miscibility principle, its organic structure makes it interact with organic solvents. In water, the solubility may be limited, because although there are polar groups in the molecule, the overall hydrophobicity is strong. This solubility characteristic provides an important reference in material extraction, reaction medium selection, etc.
Density is also a key consideration. Its density determines its location in the mixture, which has a great impact on the liquid-liquid separation operation. Depending on the density difference, means such as liquid separation can be used to achieve separation from other liquids.
In summary, the physical properties of 4-chlorobenzenesulfonic acid-2,3-dibromopropyl ester, such as properties, melting point, boiling point, solubility and density, are of indispensable value in its research, production and application.
4-chlorobenzenesulfonic chemical properties of Acid 2,3-dibromo-propyl Este
4-Chlorobenzenesulfonic acid-2,3-dibromopropyl ester, this is a kind of organic compound. Its chemical properties are quite unique, let me explain in detail.
Looking at its structure, it contains benzenesulfonic acid radical and haloalkyl ester structure. In this compound, benzenesulfonic acid groups give it a certain acidity. Sulfonic acid groups (-SO 🥰 H) can dissociate hydrogen ions under suitable conditions, showing acidic characteristics, and can neutralize with alkali substances to generate corresponding salts.
Furthermore, the chlorine and bromine atoms in the molecule also have significant chemical activity. The presence of halogen atoms makes this compound prone to nucleophilic substitution reactions. The high electronegativity of the halogen atom causes the carbon atom connected to it to have a partial positive charge, which is easy to be attacked by nucleophiles, and the halogen atom is replaced by a nucleophilic group. For example, in an alkaline environment, nucleophilic reagents such as hydroxyl (-OH) can attack the carbon atom connected to the halogen atom, resulting in the formation of new compounds.
The properties of the 2,3-dibromopropyl ester moiety and ester group (-COO -) cannot be ignored. Ester groups can undergo hydrolysis under acidic or alkaline conditions. Hydrolysis under acidic conditions produces corresponding carboxylic acids and alcohols; hydrolysis under alkaline conditions is more thorough, resulting in carboxylic salts and alcohols. This hydrolysis reaction is a typical reaction of ester compounds.
In addition, in view of the existence of halogenated alkyl groups, the compound may also undergo elimination reactions under certain conditions. When subjected to the action of bases and other reagents, the halogen atom and the hydrogen atom on the adjacent carbon atom can be removed to form unsaturated bonds, forming olefin compounds.
In summary, 4-chlorobenzenesulfonic acid-2,3-dibromopropyl ester has various chemical properties such as acidic, nucleophilic substitution, hydrolysis, and elimination due to its unique structure, and may have important applications in organic synthesis and other fields.
Looking at its structure, it contains benzenesulfonic acid radical and haloalkyl ester structure. In this compound, benzenesulfonic acid groups give it a certain acidity. Sulfonic acid groups (-SO 🥰 H) can dissociate hydrogen ions under suitable conditions, showing acidic characteristics, and can neutralize with alkali substances to generate corresponding salts.
Furthermore, the chlorine and bromine atoms in the molecule also have significant chemical activity. The presence of halogen atoms makes this compound prone to nucleophilic substitution reactions. The high electronegativity of the halogen atom causes the carbon atom connected to it to have a partial positive charge, which is easy to be attacked by nucleophiles, and the halogen atom is replaced by a nucleophilic group. For example, in an alkaline environment, nucleophilic reagents such as hydroxyl (-OH) can attack the carbon atom connected to the halogen atom, resulting in the formation of new compounds.
The properties of the 2,3-dibromopropyl ester moiety and ester group (-COO -) cannot be ignored. Ester groups can undergo hydrolysis under acidic or alkaline conditions. Hydrolysis under acidic conditions produces corresponding carboxylic acids and alcohols; hydrolysis under alkaline conditions is more thorough, resulting in carboxylic salts and alcohols. This hydrolysis reaction is a typical reaction of ester compounds.
In addition, in view of the existence of halogenated alkyl groups, the compound may also undergo elimination reactions under certain conditions. When subjected to the action of bases and other reagents, the halogen atom and the hydrogen atom on the adjacent carbon atom can be removed to form unsaturated bonds, forming olefin compounds.
In summary, 4-chlorobenzenesulfonic acid-2,3-dibromopropyl ester has various chemical properties such as acidic, nucleophilic substitution, hydrolysis, and elimination due to its unique structure, and may have important applications in organic synthesis and other fields.
4-chlorobenzenesulfonic Acid 2,3-dibromo-propyl Este in the production process
4-Chlorobenzenesulfonic acid 2,3-dibromopropyl ester requires careful attention during production.
First, it is related to the quality of raw materials. The quality of raw materials is directly related to the quality of products. Raw materials such as 4-chlorobenzenesulfonic acid and 2,3-dibromopropanol must be strictly controlled for their purity and impurity content. If the raw materials are impure or contain too many impurities, it is feared that the reaction by-products will increase, and the purity of the product will not reach the expected level, which will affect subsequent applications.
Second, the reaction conditions are the key. In terms of temperature, precise regulation is required. This reaction is quite sensitive to temperature. If the temperature is too high, it may cause the reaction rate to be too fast, causing the side reactions to intensify; if the temperature is too low, the reaction rate will be slow and the production efficiency will be reduced. The pressure should not be ignored, and the appropriate pressure will help the reaction to proceed in the expected direction and ensure the smooth reaction. The dosage and activity of the catalyst also affect the reaction process. If the dosage is too small, the catalytic effect will be poor; if the dosage is too large, it may increase the cost and other side reactions.
Third, safety protection should not be underestimated. The raw materials and products used in the production process may be corrosive, toxic and other dangerous characteristics. 4-Chlorobenzenesulfonic acid is corrosive, and complete protective equipment must be worn during operation, such as protective clothing, gloves, goggles, etc., to prevent it At the same time, the production site should be equipped with good ventilation facilities to discharge harmful gases in time to ensure the health and safety of operators.
Fourth, equipment maintenance is also a priority. Reactors, pipelines and other equipment used in production need to be regularly overhauled and maintained. Ensure that the equipment does not leak, otherwise not only waste raw materials and products, but also may cause safety accidents. And the cleaning of the equipment must be in place to prevent impurity residues from affecting subsequent production.
Fifth, quality monitoring runs through the whole process. From raw material input to product output, every step should be strictly monitored. Through chemical analysis, instrument testing and other means, key indicators such as product purity and content are controlled to ensure that the final product meets Quality Standards.
First, it is related to the quality of raw materials. The quality of raw materials is directly related to the quality of products. Raw materials such as 4-chlorobenzenesulfonic acid and 2,3-dibromopropanol must be strictly controlled for their purity and impurity content. If the raw materials are impure or contain too many impurities, it is feared that the reaction by-products will increase, and the purity of the product will not reach the expected level, which will affect subsequent applications.
Second, the reaction conditions are the key. In terms of temperature, precise regulation is required. This reaction is quite sensitive to temperature. If the temperature is too high, it may cause the reaction rate to be too fast, causing the side reactions to intensify; if the temperature is too low, the reaction rate will be slow and the production efficiency will be reduced. The pressure should not be ignored, and the appropriate pressure will help the reaction to proceed in the expected direction and ensure the smooth reaction. The dosage and activity of the catalyst also affect the reaction process. If the dosage is too small, the catalytic effect will be poor; if the dosage is too large, it may increase the cost and other side reactions.
Third, safety protection should not be underestimated. The raw materials and products used in the production process may be corrosive, toxic and other dangerous characteristics. 4-Chlorobenzenesulfonic acid is corrosive, and complete protective equipment must be worn during operation, such as protective clothing, gloves, goggles, etc., to prevent it At the same time, the production site should be equipped with good ventilation facilities to discharge harmful gases in time to ensure the health and safety of operators.
Fourth, equipment maintenance is also a priority. Reactors, pipelines and other equipment used in production need to be regularly overhauled and maintained. Ensure that the equipment does not leak, otherwise not only waste raw materials and products, but also may cause safety accidents. And the cleaning of the equipment must be in place to prevent impurity residues from affecting subsequent production.
Fifth, quality monitoring runs through the whole process. From raw material input to product output, every step should be strictly monitored. Through chemical analysis, instrument testing and other means, key indicators such as product purity and content are controlled to ensure that the final product meets Quality Standards.
4-chlorobenzenesulfonic the environmental impact of Acid 2,3-dibromo-propyl Este
4-Chlorobenzenesulfonic acid-2,3-dibromopropyl ester, this chemical has a heavy impact on the environment. Its chemical properties are relatively active, and once it enters the environment, it will cause many complex changes.
In water bodies, this compound may be toxic to aquatic organisms due to its own structural characteristics. 2,3-dibromopropyl ester partially contains bromine atoms, and bromine may interfere with the physiological metabolism of aquatic organisms in water. For example, it may affect important physiological processes such as respiration and reproduction of fish. Its ester-based structure may also be hydrolyzed under the action of aquatic microorganisms, and the resulting products may be more toxic, and will change the chemical composition of the water body and affect the ecological balance of the water body.
In the soil environment, 4-chlorobenzenesulfonate ions may adsorb with soil particles, changing the physical and chemical properties of the soil. The presence of chlorine atoms enhances the stability of the compounds, which are not easily degraded by soil microorganisms and accumulate in the soil. This not only affects the growth of plant roots in the soil, but also may initialize into the groundwater system with rainwater, threatening the safety of groundwater resources.
In the atmospheric environment, although its volatility is relatively limited, photochemical reactions may occur under specific conditions, such as high temperature and strong light. The decomposition products of 4-chlorobenzenesulfonic acid-2,3-dibromopropyl ester may react with other pollutants in the atmosphere to form new harmful substances, such as participating in the formation of complex air pollution phenomena such as photochemical smog, which in turn affects air quality, endangers human health and the stability of the entire ecosystem. In conclusion, the impact of this compound on the environment is extensive and far-reaching, and it needs to be highly regarded and properly controlled.
In water bodies, this compound may be toxic to aquatic organisms due to its own structural characteristics. 2,3-dibromopropyl ester partially contains bromine atoms, and bromine may interfere with the physiological metabolism of aquatic organisms in water. For example, it may affect important physiological processes such as respiration and reproduction of fish. Its ester-based structure may also be hydrolyzed under the action of aquatic microorganisms, and the resulting products may be more toxic, and will change the chemical composition of the water body and affect the ecological balance of the water body.
In the soil environment, 4-chlorobenzenesulfonate ions may adsorb with soil particles, changing the physical and chemical properties of the soil. The presence of chlorine atoms enhances the stability of the compounds, which are not easily degraded by soil microorganisms and accumulate in the soil. This not only affects the growth of plant roots in the soil, but also may initialize into the groundwater system with rainwater, threatening the safety of groundwater resources.
In the atmospheric environment, although its volatility is relatively limited, photochemical reactions may occur under specific conditions, such as high temperature and strong light. The decomposition products of 4-chlorobenzenesulfonic acid-2,3-dibromopropyl ester may react with other pollutants in the atmosphere to form new harmful substances, such as participating in the formation of complex air pollution phenomena such as photochemical smog, which in turn affects air quality, endangers human health and the stability of the entire ecosystem. In conclusion, the impact of this compound on the environment is extensive and far-reaching, and it needs to be highly regarded and properly controlled.
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