Linshang Chemical
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Tetrachloro-1,2-Benzenedicarboxylic Acid
Linshang Chemical
|
HS Code |
666854 |
| Chemical Formula | C8H2Cl4O4 |
| Molecular Weight | 303.91 g/mol |
| Appearance | Solid |
| Melting Point | 248 - 250 °C |
| Solubility In Water | Low solubility |
| Solubility In Organic Solvents | Soluble in some organic solvents like acetone |
| Stability | Stable under normal conditions |
| Hazard Class | Harmful if swallowed, inhaled or in contact with skin |
As an accredited Tetrachloro-1,2-Benzenedicarboxylic Acid factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of Tetrachloro - 1,2 - benzenedicarboxylic Acid packaged in a sealed plastic bag. |
| Storage | Tetrachloro - 1,2 - benzenedicarboxylic acid should be stored in a cool, dry, well - ventilated area, away from heat sources and ignition points. It should be kept in a tightly - sealed container to prevent moisture absorption and exposure to air. Store it separately from incompatible substances like strong oxidizing agents and bases to avoid potential chemical reactions. |
| Shipping | Tetrachloro - 1,2 - benzenedicarboxylic acid is a chemical. Shipping requires proper containment in corrosion - resistant containers. It must follow strict regulations due to its potentially hazardous nature, with documentation for safe transport. |
Competitive Tetrachloro-1,2-Benzenedicarboxylic Acid 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
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As a trusted Tetrachloro-1,2-Benzenedicarboxylic Acid manufacturer, we deliver:
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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 Tetrachloro-1,2-Benzenedicarboxylic Acid 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 main use of Tetrachloro-1,2-2-benzenedicarboxylic Acid?
Tetrachloro-1,2-benzenedicarboxylic acid (Tetrachloro-1,2-benzenedicarboxylic Acid), this material is widely used. In the field of chemical industry, it is often used as a raw material for the synthesis of special polymers. Its participation in the polymerization reaction can make the resulting polymer have unique properties, such as excellent chemical resistance, hot topic stability, suitable for the manufacture of protective coatings for chemical equipment, high temperature engineering plastics, etc.
In terms of materials science, the materials made on this basis exhibit good flame retardancy due to the structural characteristics of tetrachloro-1,2-benzenedicarboxylic acid. This property makes related materials widely used in the fields of electronic and electrical product shells, building insulation materials, etc., effectively improving the fire safety performance of materials.
In the path of scientific research and exploration, it is also an important intermediate in organic synthesis. By modifying it through various chemical reactions, chemists can synthesize many organic compounds with novel structures and unique functions, promote the development of organic chemistry, and provide a key material basis for new drug research and development, new material creation, etc. In short, tetrachloro-1,2-phthalic acid has important value in many fields such as chemical industry, materials, and scientific research, and plays an indispensable role.
In terms of materials science, the materials made on this basis exhibit good flame retardancy due to the structural characteristics of tetrachloro-1,2-benzenedicarboxylic acid. This property makes related materials widely used in the fields of electronic and electrical product shells, building insulation materials, etc., effectively improving the fire safety performance of materials.
In the path of scientific research and exploration, it is also an important intermediate in organic synthesis. By modifying it through various chemical reactions, chemists can synthesize many organic compounds with novel structures and unique functions, promote the development of organic chemistry, and provide a key material basis for new drug research and development, new material creation, etc. In short, tetrachloro-1,2-phthalic acid has important value in many fields such as chemical industry, materials, and scientific research, and plays an indispensable role.
What are the environmental effects of Tetrachloro-2-benzenedicarboxylic Acid?
Tetrachloro-1,2-benzenedicarboxylic acid (Tetrachloro-1,2-benzenedicarboxylic Acid) has a significant impact on the environment. This substance contains chlorine atoms, has high chemical stability, is difficult to degrade, and can remain in the environment for a long time.
In soil, tetrachloro-1,2-benzenedicarboxylic acid can cause damage to the soil structure, resulting in poor aeration and water retention, which in turn affects the growth of plant roots. Plant roots are difficult to stretch and absorb nutrients, inhibit plant development, or reduce crop yield.
In water bodies, this substance will cause water quality to deteriorate. Because it is toxic, or endangers the life of aquatic organisms. After fish, shellfish and other aquatic organisms are exposed to or ingested, their physiological functions may be damaged, their reproductive capacity will be reduced, and the population number will decrease. And tetrachloro-1,2-phthalic acid can be enriched through the food chain, ultimately endangering human health.
In the atmospheric environment, if it evaporates into the air or interacts with other pollutants, it forms secondary pollutants, which affects air quality, causes more severe weather such as smog, and threatens the health of human respiratory system.
In short, tetrachloro-1,2-phthalic acid has a negative impact on the soil, water, and atmosphere of the environment. It needs to be paid attention to, properly controlled and managed to ensure the safety of the ecological environment.
In soil, tetrachloro-1,2-benzenedicarboxylic acid can cause damage to the soil structure, resulting in poor aeration and water retention, which in turn affects the growth of plant roots. Plant roots are difficult to stretch and absorb nutrients, inhibit plant development, or reduce crop yield.
In water bodies, this substance will cause water quality to deteriorate. Because it is toxic, or endangers the life of aquatic organisms. After fish, shellfish and other aquatic organisms are exposed to or ingested, their physiological functions may be damaged, their reproductive capacity will be reduced, and the population number will decrease. And tetrachloro-1,2-phthalic acid can be enriched through the food chain, ultimately endangering human health.
In the atmospheric environment, if it evaporates into the air or interacts with other pollutants, it forms secondary pollutants, which affects air quality, causes more severe weather such as smog, and threatens the health of human respiratory system.
In short, tetrachloro-1,2-phthalic acid has a negative impact on the soil, water, and atmosphere of the environment. It needs to be paid attention to, properly controlled and managed to ensure the safety of the ecological environment.
What are the production methods of Tetrachloro 2-benzenedicarboxylic Acid?
The preparation method of tetrachloro-1,2-benzenedicarboxylic acid (Tetrachloro-1,2-benzenedicarboxylic Acid) has various ways.
First, it can be started by a specific aromatic hydrocarbon compound. First, take a suitable benzene-based aromatic hydrocarbon, put it in a suitable reaction vessel, add an appropriate amount of catalyst, such as some metal halides. Then, under controlled temperature and pressure conditions, introduce chlorine gas. This reaction requires careful regulation of the flow rate of chlorine gas and the reaction time, so that the aromatics are gradually chlorinated to form chlorine-containing aromatic intermediates. This intermediate is then reacted with a specific carboxylation reagent, such as carbon dioxide, in a specific reaction medium and catalytic system. After complex chemical transformation, tetrachloro-1,2-phthalic acid can be obtained.
Second, other chlorine-containing organic compounds can also be used as raw materials. Select a suitable chlorine-containing precursor, whose structure needs to be related to the target product. Place it in a specific reaction environment, through a series of substitution, addition and other reaction steps. For example, nucleophilic substitution is first carried out, and the required substituent is introduced to change the structure and activity of the molecule. Subsequently, through oxidation and other processes, the suitable group is converted into a carboxyl group. After careful operation in multiple steps, tetrachloro-1,2-phthalic acid can also be prepared.
Third, biosynthesis can also be used. Find specific microbial strains with unique metabolic pathways that can use specific substrates as raw materials to gradually synthesize tetrachloro-1,2-phthalic acid through biocatalytic reactions under mild conditions with the help of enzymes in microorganisms. This method requires precise control of the culture conditions of microorganisms, such as temperature, pH, nutrients, etc., to ensure the normal growth of microorganisms and efficient catalysis.
First, it can be started by a specific aromatic hydrocarbon compound. First, take a suitable benzene-based aromatic hydrocarbon, put it in a suitable reaction vessel, add an appropriate amount of catalyst, such as some metal halides. Then, under controlled temperature and pressure conditions, introduce chlorine gas. This reaction requires careful regulation of the flow rate of chlorine gas and the reaction time, so that the aromatics are gradually chlorinated to form chlorine-containing aromatic intermediates. This intermediate is then reacted with a specific carboxylation reagent, such as carbon dioxide, in a specific reaction medium and catalytic system. After complex chemical transformation, tetrachloro-1,2-phthalic acid can be obtained.
Second, other chlorine-containing organic compounds can also be used as raw materials. Select a suitable chlorine-containing precursor, whose structure needs to be related to the target product. Place it in a specific reaction environment, through a series of substitution, addition and other reaction steps. For example, nucleophilic substitution is first carried out, and the required substituent is introduced to change the structure and activity of the molecule. Subsequently, through oxidation and other processes, the suitable group is converted into a carboxyl group. After careful operation in multiple steps, tetrachloro-1,2-phthalic acid can also be prepared.
Third, biosynthesis can also be used. Find specific microbial strains with unique metabolic pathways that can use specific substrates as raw materials to gradually synthesize tetrachloro-1,2-phthalic acid through biocatalytic reactions under mild conditions with the help of enzymes in microorganisms. This method requires precise control of the culture conditions of microorganisms, such as temperature, pH, nutrients, etc., to ensure the normal growth of microorganisms and efficient catalysis.
What are the physicochemical properties of Tetrachloro-2-benzenedicarboxylic Acid?
Tetrachloro-1,2-benzenedicarboxylic acid (Tetrachloro-1,2-benzenedicarboxylic Acid) is an organic compound. Its physical and chemical properties are particularly important and are involved in many fields.
As far as physical properties are concerned, this compound is usually in a solid state at room temperature. Its color may be white to light yellow powder, and the texture is fine. Looking at its melting point, it is about a specific value. This property causes it to undergo a phase change at a specific temperature. Its boiling point also has a specific value. When this temperature is reached, the substance will change from liquid to gaseous state.
As for solubility, it has a certain solubility in common organic solvents, such as ethanol and ether. However, in water, the solubility is relatively low. This difference in solubility is actually determined by its molecular structure and polarity.
Let's talk about chemical properties again. Tetrachloro-1,2-benzene acid is acidic. Because its molecular structure contains carboxyl groups, it can release protons under appropriate conditions, neutralize with bases, and generate corresponding salts. At the same time, due to the presence of chlorine atoms on the benzene ring, it has certain chemical stability. However, under specific reaction conditions, such as high temperature and strong oxidant action, the chlorine atoms on the benzene ring may undergo a substitution reaction, replacing with other functional groups, and then forming new compounds. In addition, the substance can also participate in the esterification reaction, and the carboxyl group and alcohol can form ester compounds under the action of the catalyst, which is of great significance in the field of organic synthesis.
As far as physical properties are concerned, this compound is usually in a solid state at room temperature. Its color may be white to light yellow powder, and the texture is fine. Looking at its melting point, it is about a specific value. This property causes it to undergo a phase change at a specific temperature. Its boiling point also has a specific value. When this temperature is reached, the substance will change from liquid to gaseous state.
As for solubility, it has a certain solubility in common organic solvents, such as ethanol and ether. However, in water, the solubility is relatively low. This difference in solubility is actually determined by its molecular structure and polarity.
Let's talk about chemical properties again. Tetrachloro-1,2-benzene acid is acidic. Because its molecular structure contains carboxyl groups, it can release protons under appropriate conditions, neutralize with bases, and generate corresponding salts. At the same time, due to the presence of chlorine atoms on the benzene ring, it has certain chemical stability. However, under specific reaction conditions, such as high temperature and strong oxidant action, the chlorine atoms on the benzene ring may undergo a substitution reaction, replacing with other functional groups, and then forming new compounds. In addition, the substance can also participate in the esterification reaction, and the carboxyl group and alcohol can form ester compounds under the action of the catalyst, which is of great significance in the field of organic synthesis.
What to watch for when storing and transporting Tetrachloro-2-benzenedicarboxylic Acid
Tetrachloro-1,2-phthalic acid. When storing and transporting this substance, many matters need to be paid attention to.
First, when storing, find a cool, dry and well-ventilated place. Due to its nature or fear of moisture and heat, if placed in a humid place, it is susceptible to water vapor erosion, resulting in damage to its quality; if placed in a high temperature environment, it may cause chemical changes, or even risk safety. Keep the storage place away from fire, heat sources, and must not mix with oxidants, alkalis, etc., to prevent chemical reactions. It must be stored in a sealed container, so that it can be protected from external environmental interference and maintain stability.
Second, when transporting, be careful. Transport vehicles must be clean, dry and free of other debris to prevent contamination of this material. The loading process must be handled lightly, and must not be handled brutally to avoid packaging damage. During transportation, the ambient temperature and humidity should be closely monitored and should not exceed the appropriate range. If passing through a high temperature area, necessary cooling measures should be taken; in case of wet weather, it is necessary to be prepared to prevent moisture and rain. In addition, transport personnel must be familiar with the characteristics of this material and emergency treatment methods. In the event of an accident, they can respond quickly and properly to ensure the safety of personnel and the environment. In short, the storage and transportation of tetrachloro-1,2-phthalic acid should be handled in a fine and cautious manner to ensure safety.
First, when storing, find a cool, dry and well-ventilated place. Due to its nature or fear of moisture and heat, if placed in a humid place, it is susceptible to water vapor erosion, resulting in damage to its quality; if placed in a high temperature environment, it may cause chemical changes, or even risk safety. Keep the storage place away from fire, heat sources, and must not mix with oxidants, alkalis, etc., to prevent chemical reactions. It must be stored in a sealed container, so that it can be protected from external environmental interference and maintain stability.
Second, when transporting, be careful. Transport vehicles must be clean, dry and free of other debris to prevent contamination of this material. The loading process must be handled lightly, and must not be handled brutally to avoid packaging damage. During transportation, the ambient temperature and humidity should be closely monitored and should not exceed the appropriate range. If passing through a high temperature area, necessary cooling measures should be taken; in case of wet weather, it is necessary to be prepared to prevent moisture and rain. In addition, transport personnel must be familiar with the characteristics of this material and emergency treatment methods. In the event of an accident, they can respond quickly and properly to ensure the safety of personnel and the environment. In short, the storage and transportation of tetrachloro-1,2-phthalic acid should be handled in a fine and cautious manner to ensure safety.
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