Linshang Chemical
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1,2-Benzenedicarboxylic Acid, 4-Chloro-, Monosodium Salt
Linshang Chemical
|
HS Code |
446282 |
| Chemical Name | 1,2-Benzenedicarboxylic Acid, 4-Chloro-, Monosodium Salt |
| Molecular Formula | C8H4ClNaO4 |
| Molar Mass | 222.56 g/mol |
| Appearance | Typically a solid (powder or crystalline form) |
| Solubility | Soluble in water to some extent |
| Ph Aqueous Solution | Basic (due to the sodium salt) |
| Melting Point | Varies, specific value needs further research |
| Odor | Odorless or faint odor |
| Stability | Stable under normal conditions, but may react with strong acids or bases |
As an accredited 1,2-Benzenedicarboxylic Acid, 4-Chloro-, Monosodium Salt factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 25 - kg bags of 4 - chloro - 1,2 - benzenedicarboxylic acid monosodium salt packaging. |
| Storage | 1,2 - Benzenedicarboxylic Acid, 4 - chloro -, Monosodium Salt should be stored in a cool, dry place away from direct sunlight. Keep it in a well - sealed container to prevent moisture absorption and contamination. Store it separately from incompatible substances like strong acids and bases to avoid chemical reactions that could pose safety risks or degrade the compound. |
| Shipping | 1,2 - Benzenedicarboxylic Acid, 4 - chloro -, Monosodium Salt is shipped in sealed, corrosion - resistant containers. Compliance with chemical shipping regulations ensures safe transportation, safeguarding both handlers and the environment. |
Competitive 1,2-Benzenedicarboxylic Acid, 4-Chloro-, Monosodium Salt 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
Where to Buy 1,2-Benzenedicarboxylic Acid, 4-Chloro-, Monosodium Salt in China?
As a trusted 1,2-Benzenedicarboxylic Acid, 4-Chloro-, Monosodium Salt 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 1,2-Benzenedicarboxylic Acid, 4-Chloro-, Monosodium Salt 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 chemical properties of 1,2-benzoic acid, 4-chloro-, monosodium salt?
The chemical properties of 1% 2C2-phthalic acid, 4-chloro-, monosodium salt are also involved in the field of chemistry. This compound is acidic, because there is a carboxyl group in the structure of the phthalic acid, it can release hydrogen ions under appropriate conditions, showing the characteristics of acid.
Its monosodium salt is obtained from the carboxyl group of the phthalic acid and sodium salt. This salt has the properties of a salt, which can be dissolved in water and ionize sodium ions and corresponding acid ions. Its solubility and stability are also affected by the chlorine atom in the molecule. The electronegativity of the chlorine atom is large, which can affect the distribution of the electron cloud of the molecule, and then affect the physical and chemical properties of the compound.
In addition, due to the presence of benzene ring structure, this compound also has some commonalities of aromatic compounds, such as electrophilic substitution reaction. The conjugate system of benzene ring makes its electron cloud density distribution have certain characteristics, making it reactive to specific reagents. The substitution position of 4-chlorine also affects the check point and activity of electrophilic substitution reaction.
Overall, the chemical properties of 1% 2C2-phthalic acid, 4-chloro-, monosodium salt are determined by the structure of benzene ring, carboxyl group, chlorine atom and sodium salt, and exhibit various chemical behaviors under different reaction conditions.
Its monosodium salt is obtained from the carboxyl group of the phthalic acid and sodium salt. This salt has the properties of a salt, which can be dissolved in water and ionize sodium ions and corresponding acid ions. Its solubility and stability are also affected by the chlorine atom in the molecule. The electronegativity of the chlorine atom is large, which can affect the distribution of the electron cloud of the molecule, and then affect the physical and chemical properties of the compound.
In addition, due to the presence of benzene ring structure, this compound also has some commonalities of aromatic compounds, such as electrophilic substitution reaction. The conjugate system of benzene ring makes its electron cloud density distribution have certain characteristics, making it reactive to specific reagents. The substitution position of 4-chlorine also affects the check point and activity of electrophilic substitution reaction.
Overall, the chemical properties of 1% 2C2-phthalic acid, 4-chloro-, monosodium salt are determined by the structure of benzene ring, carboxyl group, chlorine atom and sodium salt, and exhibit various chemical behaviors under different reaction conditions.
What are the uses of 1,2-benzoic acid, 4-chloro-, monosodium salts?
1% 2C2-octadiacetic acid, 4-fluoro-, monopotassium salt, has a wide range of uses. In the field of medicine, it is often used as a raw material for active pharmaceutical ingredients. With its special chemical structure, it can also participate in the construction of drug molecules to help drugs exert specific effects, such as regulating human physiology and fighting diseases.
In the agricultural field, it may be used as an adjuvant to pesticides. It can improve the physical and chemical properties of pesticides, such as enhancing the solubility and dispersion of pesticides, so that pesticides cover the surface of crops more evenly, enhancing the efficacy, and helping to reduce the adverse effects of pesticides on the environment.
In the chemical industry, this compound also has its uses. Or as a key monomer for the synthesis of special polymer materials, through polymerization reactions, to generate polymer polymers with specific properties, used to make high-performance plastics, fibers and other materials to meet the stringent requirements of different industrial fields for material properties.
Or in the preparation of some fine chemical products, it acts as an important intermediate, through a series of chemical reactions, converted into fine chemicals with higher added value, such as special fragrances, cosmetic additives, etc., to meet people's pursuit of high-quality life.
In the agricultural field, it may be used as an adjuvant to pesticides. It can improve the physical and chemical properties of pesticides, such as enhancing the solubility and dispersion of pesticides, so that pesticides cover the surface of crops more evenly, enhancing the efficacy, and helping to reduce the adverse effects of pesticides on the environment.
In the chemical industry, this compound also has its uses. Or as a key monomer for the synthesis of special polymer materials, through polymerization reactions, to generate polymer polymers with specific properties, used to make high-performance plastics, fibers and other materials to meet the stringent requirements of different industrial fields for material properties.
Or in the preparation of some fine chemical products, it acts as an important intermediate, through a series of chemical reactions, converted into fine chemicals with higher added value, such as special fragrances, cosmetic additives, etc., to meet people's pursuit of high-quality life.
What is the production method of 1,2-benzoic acid, 4-chloro-, monosodium salt?
1%2C2-%E8%8B%AF%E4%BA%8C%E7%94%B2%E9%85%B8%2C4-%E6%B0%AF-%2C%E5%8D%95%E9%92%A0%E7%9B%90%E7%9A%84%E7%94%9F%E4%BA%A7%E6%96%B9%E6%B3%95%E5%A6%82%E4%B8%8B%EF%BC%9A
Start with a specific starting material, and according to the ancient method, it is often taken from natural raw materials rich in this material. Prepare a pure starting material first, and then finely grind it to make its particles uniform, which facilitates subsequent reactions.
Enter a special kettle for the second time and bake it at a moderate heat. During this period, the heat should be carefully adjusted, not too much or too little. Observe its changes, add or subtract the heat in a timely manner, so that the material gradually reacts in the kettle.
Then, add an appropriate amount of auxiliary agent. This agent must be selected from a good one and cast it in a precise proportion. When adding the medicine, pour it in slowly, and stir it evenly with a delicate utensil to make the medicine fully blend with the material and promote a smooth reaction.
After the reaction is completed, the product is moved to a condenser. Let it cool naturally, or apply moderate air cooling to stabilize the shape of the product.
After that, through multiple fine filtration processes, its impurities are removed to obtain a pure 1%2C2-%E8%8B%AF%E4%BA%8C%E7%94%B2%E9%85%B8%2C4-%E6%B0%AF-%2C%E5%8D%95%E9%92%A0%E7%9B%90. In this process, the filter screen must be suitable to filter out impurities without causing excessive loss of the product.
At the end of the special container, it is properly sealed and placed in a cool and dry place to prevent its qualitative change, so as to obtain a good product.
Start with a specific starting material, and according to the ancient method, it is often taken from natural raw materials rich in this material. Prepare a pure starting material first, and then finely grind it to make its particles uniform, which facilitates subsequent reactions.
Enter a special kettle for the second time and bake it at a moderate heat. During this period, the heat should be carefully adjusted, not too much or too little. Observe its changes, add or subtract the heat in a timely manner, so that the material gradually reacts in the kettle.
Then, add an appropriate amount of auxiliary agent. This agent must be selected from a good one and cast it in a precise proportion. When adding the medicine, pour it in slowly, and stir it evenly with a delicate utensil to make the medicine fully blend with the material and promote a smooth reaction.
After the reaction is completed, the product is moved to a condenser. Let it cool naturally, or apply moderate air cooling to stabilize the shape of the product.
After that, through multiple fine filtration processes, its impurities are removed to obtain a pure 1%2C2-%E8%8B%AF%E4%BA%8C%E7%94%B2%E9%85%B8%2C4-%E6%B0%AF-%2C%E5%8D%95%E9%92%A0%E7%9B%90. In this process, the filter screen must be suitable to filter out impurities without causing excessive loss of the product.
At the end of the special container, it is properly sealed and placed in a cool and dry place to prevent its qualitative change, so as to obtain a good product.
What are the environmental effects of 1,2-benzoic acid, 4-chloro-, and monosodium salts?
The environmental effects of 1% 2C2-phthalic acid, 4-chloro-, monosodium salts are quite complex. This compound is in the environment because of its chemical properties, or has diverse effects on various organisms.
In aquatic ecosystems, if 1% 2C2-phthalic acid, 4-chloro-, monosodium salts are released into water in large quantities, it may interfere with the normal physiological functions of aquatic organisms. Fish may be exposed to this substance, which may hinder their physiological processes such as respiration, metabolism and reproduction. For example, it may affect the gas exchange in the gills of fish, making them breathing difficulties and even asphyxiation. At the same time, for aquatic plants, this compound may interfere with their photosynthesis, hinder their growth and development, and then affect the balance of the food chain of the entire aquatic ecosystem.
In the soil environment, if the substance accumulates too much, it may change the physical and chemical properties of the soil. Or affect the community structure and function of soil microorganisms, inhibit the growth and reproduction of beneficial microorganisms in the soil, and then affect the nutrient cycle and transformation of the soil. In this way, plants ingest nutrients from the soil or are disturbed, resulting in poor plant growth, and crop yield and quality may also decrease.
In terms of atmospheric environment, although 1% 2C2-phthalic acid, 4-chlorine, and monosodium salts are usually not widely present in the gaseous state, but in specific production processes or waste treatment, if aerosols or dust containing these substances are generated, they can be dispersed in the air or inhaled by humans and animals, causing damage to the respiratory system. Long-term exposure to this environment may cause health problems such as respiratory inflammation and lung diseases.
In conclusion, the impact of 1% 2C2-phthalic acid, 4-chloro-, and monosodium salts on the environment involves multiple ecological aspects, and needs to be paid attention to and further studied in order to find effective prevention and control measures and reduce their harm to the environment and organisms.
In aquatic ecosystems, if 1% 2C2-phthalic acid, 4-chloro-, monosodium salts are released into water in large quantities, it may interfere with the normal physiological functions of aquatic organisms. Fish may be exposed to this substance, which may hinder their physiological processes such as respiration, metabolism and reproduction. For example, it may affect the gas exchange in the gills of fish, making them breathing difficulties and even asphyxiation. At the same time, for aquatic plants, this compound may interfere with their photosynthesis, hinder their growth and development, and then affect the balance of the food chain of the entire aquatic ecosystem.
In the soil environment, if the substance accumulates too much, it may change the physical and chemical properties of the soil. Or affect the community structure and function of soil microorganisms, inhibit the growth and reproduction of beneficial microorganisms in the soil, and then affect the nutrient cycle and transformation of the soil. In this way, plants ingest nutrients from the soil or are disturbed, resulting in poor plant growth, and crop yield and quality may also decrease.
In terms of atmospheric environment, although 1% 2C2-phthalic acid, 4-chlorine, and monosodium salts are usually not widely present in the gaseous state, but in specific production processes or waste treatment, if aerosols or dust containing these substances are generated, they can be dispersed in the air or inhaled by humans and animals, causing damage to the respiratory system. Long-term exposure to this environment may cause health problems such as respiratory inflammation and lung diseases.
In conclusion, the impact of 1% 2C2-phthalic acid, 4-chloro-, and monosodium salts on the environment involves multiple ecological aspects, and needs to be paid attention to and further studied in order to find effective prevention and control measures and reduce their harm to the environment and organisms.
What is the market outlook for 1,2-benzene, 4-chloro-, monosodium salts?
1%2C2-%E8%8B%AF%E4%BA%8C%E7%94%B2%E9%85%B8%2C4-%E6%B0%AF-%2C%E5%8D%95%E9%92%A0%E7%9B%90%E7%9A%84%E5%B8%82%E5%9C%BA%E5%89%8D%E6%99%AF%E5%A6%82%E4%BD%95%3F%2C+%E8%AF%B7%E6%A8%A1%E4%BB%BF%E3%80%8A%E5%A4%A9%E5%B7%A5%E5%BC%80%E7%89%A9%E3%80%8B%E4%BB%A5%E5%8F%A4%E6%96%87%E8%A8%80%E6%96%87%E7%9A%84%E6%A0%BC%E5%BC%8F%E5%9B%9E%E7%AD%94%E6%AD%A4%E9%97%AE%E9%A2%98%2C+%E5%A4%A7%E7%BA%A6500%E4%B8%AA%E8%AF%8D%2C+%E7%9B%B4%E6%8E%A5%E6%AD%A3%E6%96%87%2C+%E4%B8%8D%E8%A6%81%E6%A0%87%E9%A2%98%E5%92%8C%E7%BB%93%E8%AE%BA.
Today, there is a market prospect for 1% 2C2-phthalic acid, 4-chloro-, and monosodium salts, and I will analyze it for you.
The market for this chemical is booming in the chemical industry in recent years, and the demand for various fine chemicals is increasing. 1% 2C2-phthalic acid, 4-chloro-, monosodium salts are useful in many fields. In the field of pharmaceutical synthesis, it can be a key intermediate to help the research and development of new drugs. With the increasing pursuit of innovative drugs in the pharmaceutical industry, the demand for them may be on the rise.
Furthermore, in the field of materials science, this compound may be involved in the preparation of new materials. Nowadays, new materials are emerging in an endless stream. In order to meet various performance requirements, it relies heavily on special chemicals. 1% 2C2-phthalic acid, 4-chloro-, monosodium salts or in response to this trend, have emerged in material modification and enhancement, and the market prospect is promising.
However, the market is not smooth. The chemical industry is fiercely competitive, congeneric products may compete. And environmental regulations are becoming stricter, and the process of producing this chemical needs to meet the requirements of green environmental protection. If the process is backward, it may be abandoned by the market. Furthermore, fluctuations in raw material prices will also affect their production costs and market prices, which in turn will affect the market prospects.
In summary, if 1% 2C2-phthalic acid, 4-chloro-, and monosodium salts can comply with industry trends, improve processes, control costs, and meet the challenges of competition and environmental protection, they will surely be able to win a place in the market, and the prospects are quite promising.
Today, there is a market prospect for 1% 2C2-phthalic acid, 4-chloro-, and monosodium salts, and I will analyze it for you.
The market for this chemical is booming in the chemical industry in recent years, and the demand for various fine chemicals is increasing. 1% 2C2-phthalic acid, 4-chloro-, monosodium salts are useful in many fields. In the field of pharmaceutical synthesis, it can be a key intermediate to help the research and development of new drugs. With the increasing pursuit of innovative drugs in the pharmaceutical industry, the demand for them may be on the rise.
Furthermore, in the field of materials science, this compound may be involved in the preparation of new materials. Nowadays, new materials are emerging in an endless stream. In order to meet various performance requirements, it relies heavily on special chemicals. 1% 2C2-phthalic acid, 4-chloro-, monosodium salts or in response to this trend, have emerged in material modification and enhancement, and the market prospect is promising.
However, the market is not smooth. The chemical industry is fiercely competitive, congeneric products may compete. And environmental regulations are becoming stricter, and the process of producing this chemical needs to meet the requirements of green environmental protection. If the process is backward, it may be abandoned by the market. Furthermore, fluctuations in raw material prices will also affect their production costs and market prices, which in turn will affect the market prospects.
In summary, if 1% 2C2-phthalic acid, 4-chloro-, and monosodium salts can comply with industry trends, improve processes, control costs, and meet the challenges of competition and environmental protection, they will surely be able to win a place in the market, and the prospects are quite promising.
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