Linshang Chemical
PRODUCTS
2,4-Dichlorobenzene
Linshang Chemical
|
HS Code |
866611 |
| Chemical Formula | C6H4Cl2 |
| Molar Mass | 147.00 g/mol |
| Appearance | Colorless to white solid |
| Odor | Pungent, aromatic odor |
| Density | 1.458 g/cm³ (solid, at 20 °C) |
| Melting Point | 53.1 °C |
| Boiling Point | 173.4 °C |
| Solubility In Water | Insoluble (0.086 g/L at 25 °C) |
| Solubility In Organic Solvents | Soluble in benzene, ether, chloroform |
| Vapor Pressure | 1.33 hPa at 43.8 °C |
| Flash Point | 65 °C |
| Log Kow | 3.39 |
As an accredited 2,4-Dichlorobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 250g of 2,4 - dichlorobenzene in a sealed, chemical - resistant plastic bottle. |
| Storage | 2,4 - dichlorobenzene should be stored in a cool, well - ventilated area, away from heat and ignition sources. Keep it in tightly - sealed containers made of compatible materials like metal or certain plastics. Store it separately from oxidizing agents and foodstuffs to prevent reactions and contamination. Ensure proper labeling for easy identification and safety. |
| Shipping | 2,4 - dichlorobenzene, a hazardous chemical, is shipped in well - sealed, corrosion - resistant containers. Transport follows strict regulations, ensuring proper handling to prevent leakage and protect the environment and public safety during transit. |
Competitive 2,4-Dichlorobenzene 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 2,4-Dichlorobenzene in China?
As a trusted 2,4-Dichlorobenzene 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 2,4-Dichlorobenzene 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 2,4-dichlorobenzene?
2% 2C4-difluorobenzene has a wide range of uses and has important applications in many fields such as medicine, pesticides, and materials.
In the field of medicine, it is a key pharmaceutical intermediate. It can be used to synthesize compounds with specific biological activities. After modification and transformation, it can become drugs for the treatment of various diseases. For example, the synthesis of some antifungal drugs, 2% 2C4-difluorobenzene participates in the reaction step, which is crucial for building the core structure of the drug and giving the drug antifungal activity. By chemical synthesis, it can be combined with other chemical groups to precisely regulate the physicochemical properties and biological activities of drug molecules to meet the needs of clinical treatment.
In the field of pesticides, 2% 2C4-difluorobenzene also plays an important role. It provides a key structural unit for the synthesis of new and efficient pesticides, and the pesticides developed on this basis show excellent killing and inhibition effects on pests and pathogens. With its unique chemical structure, it can interfere with the normal physiological metabolism of pests and pathogens, so as to achieve the purpose of efficient control. For example, some pesticides and fungicides, the fluorine atoms introduced by 2% 2C4-difluorobenzene can enhance the lipid solubility of pesticide molecules, making it easier to penetrate the cell membranes of pests and pathogens, and improve the efficacy.
In the field of materials, 2% 2C4-difluorobenzene can be used to prepare high-performance polymer materials. Due to its fluorine-containing properties, materials are endowed with properties such as excellent thermal stability, chemical stability, and low dielectric constant. For example, in the field of electronic materials, polymers synthesized with 2% 2C4-difluorobenzene can be used to manufacture printed circuit boards, electronic packaging materials, etc., to meet the high performance requirements of electronic devices. In the aerospace field, the prepared fluoropolymer materials can be used to manufacture aircraft parts, spacecraft shells, etc. due to their good thermal stability and chemical stability, and can adapt to extreme environmental requirements.
In the field of medicine, it is a key pharmaceutical intermediate. It can be used to synthesize compounds with specific biological activities. After modification and transformation, it can become drugs for the treatment of various diseases. For example, the synthesis of some antifungal drugs, 2% 2C4-difluorobenzene participates in the reaction step, which is crucial for building the core structure of the drug and giving the drug antifungal activity. By chemical synthesis, it can be combined with other chemical groups to precisely regulate the physicochemical properties and biological activities of drug molecules to meet the needs of clinical treatment.
In the field of pesticides, 2% 2C4-difluorobenzene also plays an important role. It provides a key structural unit for the synthesis of new and efficient pesticides, and the pesticides developed on this basis show excellent killing and inhibition effects on pests and pathogens. With its unique chemical structure, it can interfere with the normal physiological metabolism of pests and pathogens, so as to achieve the purpose of efficient control. For example, some pesticides and fungicides, the fluorine atoms introduced by 2% 2C4-difluorobenzene can enhance the lipid solubility of pesticide molecules, making it easier to penetrate the cell membranes of pests and pathogens, and improve the efficacy.
In the field of materials, 2% 2C4-difluorobenzene can be used to prepare high-performance polymer materials. Due to its fluorine-containing properties, materials are endowed with properties such as excellent thermal stability, chemical stability, and low dielectric constant. For example, in the field of electronic materials, polymers synthesized with 2% 2C4-difluorobenzene can be used to manufacture printed circuit boards, electronic packaging materials, etc., to meet the high performance requirements of electronic devices. In the aerospace field, the prepared fluoropolymer materials can be used to manufacture aircraft parts, spacecraft shells, etc. due to their good thermal stability and chemical stability, and can adapt to extreme environmental requirements.
What are the effects of 2,4-dichlorobenzene on human health?
The impact of 2% 2C4-dihydroxybenzene on human health is quite complex.
This substance is either present in certain plants, medicines, or produced by chemical changes in the environment. As for its effect on the human body, it may bring benefits or potential hazards.
Let's talk about the benefits first. According to ancient records and some modern studies, 2% 2C4-dihydroxybenzene may have antioxidant properties. Antioxidant, which is like building a barrier against oxidative damage for the human body, can help slow down the process of cellular aging. For example, in the body's metabolism, reactive oxygen species are produced, and if these substances are in excess, they will damage the structure and function of cells. And 2% 2C4-dihydroxybenzene may be able to capture these reactive oxygen species by virtue of its own structure, thereby maintaining the health of cells, and may have potential effects in delaying aging and preventing some diseases caused by oxidative stress, such as cardiovascular diseases.
Furthermore, it may have certain anti-inflammatory properties. Inflammation is the pathological basis of many diseases, whether it is chronic inflammation, such as arthritis, or acute inflammatory response. 2% 2C4-dihydroxybenzene may regulate the body's inflammatory signaling pathway, inhibit the overexpression of inflammatory factors, and then reduce the inflammatory response and help human health.
However, it also has potential harm. If the human body is exposed to 2% 2C4-dihydroxybenzene too much, it may irritate the skin, eyes and respiratory tract. If the skin is exposed, it may be red, swollen and itchy; inhaling its volatile gas, or causing respiratory discomfort, causing cough, asthma, etc. More serious cases, long-term ingestion may cause damage to important organs such as the liver and kidneys. Gein liver and kidney are key organs for human metabolism and detoxification. After absorption, this substance may interfere with the normal metabolic function of the liver and kidney, accumulate for a long time, or affect the structure and function of the organs, and even cause lesions.
In addition, although the relevant research is not conclusive, it is also speculated that it may have potential carcinogenicity. Due to the fact that some substances with similar chemical structures have been confirmed to be associated with cancer, 2% 2C4-dihydroxybenzene should not be taken lightly and should be treated with caution. When touching items containing this substance on a daily basis, good protection should be taken to avoid excessive intake or contact.
This substance is either present in certain plants, medicines, or produced by chemical changes in the environment. As for its effect on the human body, it may bring benefits or potential hazards.
Let's talk about the benefits first. According to ancient records and some modern studies, 2% 2C4-dihydroxybenzene may have antioxidant properties. Antioxidant, which is like building a barrier against oxidative damage for the human body, can help slow down the process of cellular aging. For example, in the body's metabolism, reactive oxygen species are produced, and if these substances are in excess, they will damage the structure and function of cells. And 2% 2C4-dihydroxybenzene may be able to capture these reactive oxygen species by virtue of its own structure, thereby maintaining the health of cells, and may have potential effects in delaying aging and preventing some diseases caused by oxidative stress, such as cardiovascular diseases.
Furthermore, it may have certain anti-inflammatory properties. Inflammation is the pathological basis of many diseases, whether it is chronic inflammation, such as arthritis, or acute inflammatory response. 2% 2C4-dihydroxybenzene may regulate the body's inflammatory signaling pathway, inhibit the overexpression of inflammatory factors, and then reduce the inflammatory response and help human health.
However, it also has potential harm. If the human body is exposed to 2% 2C4-dihydroxybenzene too much, it may irritate the skin, eyes and respiratory tract. If the skin is exposed, it may be red, swollen and itchy; inhaling its volatile gas, or causing respiratory discomfort, causing cough, asthma, etc. More serious cases, long-term ingestion may cause damage to important organs such as the liver and kidneys. Gein liver and kidney are key organs for human metabolism and detoxification. After absorption, this substance may interfere with the normal metabolic function of the liver and kidney, accumulate for a long time, or affect the structure and function of the organs, and even cause lesions.
In addition, although the relevant research is not conclusive, it is also speculated that it may have potential carcinogenicity. Due to the fact that some substances with similar chemical structures have been confirmed to be associated with cancer, 2% 2C4-dihydroxybenzene should not be taken lightly and should be treated with caution. When touching items containing this substance on a daily basis, good protection should be taken to avoid excessive intake or contact.
How stable is 2,4-dichlorobenzene in the environment?
The stability of 2% 2C4-difluorobenzene in the environment is quite complex and depends on many factors.
This difluorobenzene has a specific chemical structure. The existence of fluorine atoms in its molecules has a great impact on its stability. Fluorine atoms have extremely high electronegativity, and the carbon-fluorine bond energy formed with carbon atoms is quite strong, about 485kJ/mol, which is higher than the general carbon-hydrogen bond energy. This strong bond energy makes the molecular structure tend to be stable, and under generally mild environmental conditions, it is difficult to break bonds and chemical reactions.
However, the environmental situation is complex and changeable. In case of high temperature, such as in the flame or high temperature industrial process area, the energy obtained by the 2% 2C4-difluorobenzene molecule increases. When the energy is sufficient to overcome the carbon-fluorine bond energy, the chemical bond breaks, the molecular stability is damaged, or reactions such as decomposition occur.
If there are strong oxidizing agents or strong reducing agents in the environment, it may also affect its stability. Strong oxidizing agents, such as potassium permanganate, may react with 2% 2C4-difluorobenzene to change its molecular structure; the same is true for strong reducing agents.
And light conditions cannot be ignored. Irradiation of light at a specific wavelength may initiate photochemical reactions, providing energy for molecules, promoting structural changes and reducing stability.
In the aquatic environment, 2% 2C4-difluorobenzene is an organic compound with strong hydrophobicity and insoluble in water. Its stability may be affected by other solutes and microorganisms in water. Microorganisms or specific enzymes in water can biodegrade the difluorobenzene. Although its structure is stable and the biodegradation rate may be relatively slow, it can also affect its stability under long-term action.
In summary, the stability of 2% 2C4-difluorobenzene in the environment is affected by many factors such as temperature, chemicals, light, biology, etc. It is not static and depends on specific environmental conditions.
This difluorobenzene has a specific chemical structure. The existence of fluorine atoms in its molecules has a great impact on its stability. Fluorine atoms have extremely high electronegativity, and the carbon-fluorine bond energy formed with carbon atoms is quite strong, about 485kJ/mol, which is higher than the general carbon-hydrogen bond energy. This strong bond energy makes the molecular structure tend to be stable, and under generally mild environmental conditions, it is difficult to break bonds and chemical reactions.
However, the environmental situation is complex and changeable. In case of high temperature, such as in the flame or high temperature industrial process area, the energy obtained by the 2% 2C4-difluorobenzene molecule increases. When the energy is sufficient to overcome the carbon-fluorine bond energy, the chemical bond breaks, the molecular stability is damaged, or reactions such as decomposition occur.
If there are strong oxidizing agents or strong reducing agents in the environment, it may also affect its stability. Strong oxidizing agents, such as potassium permanganate, may react with 2% 2C4-difluorobenzene to change its molecular structure; the same is true for strong reducing agents.
And light conditions cannot be ignored. Irradiation of light at a specific wavelength may initiate photochemical reactions, providing energy for molecules, promoting structural changes and reducing stability.
In the aquatic environment, 2% 2C4-difluorobenzene is an organic compound with strong hydrophobicity and insoluble in water. Its stability may be affected by other solutes and microorganisms in water. Microorganisms or specific enzymes in water can biodegrade the difluorobenzene. Although its structure is stable and the biodegradation rate may be relatively slow, it can also affect its stability under long-term action.
In summary, the stability of 2% 2C4-difluorobenzene in the environment is affected by many factors such as temperature, chemicals, light, biology, etc. It is not static and depends on specific environmental conditions.
What are the production processes of 2,4-dichlorobenzene?
The production process of 2% 2C4-difluorobenzene is as follows:
First, 2% 2C4-difluorobenzene can be prepared from o-difluorobenzene through bromination, hydrolysis and other reactions. First, the o-difluorobenzene and bromine are brominated under the action of a catalyst to obtain brominated o-difluorobenzene. This reaction requires temperature control and a suitable catalyst is selected to improve the yield. Subsequent brominated o-difluorobenzene is hydrolyzed to replace the bromine atom with a hydroxyl group, and then dehydrated to obtain 2% 2C4-difluorobenzene.
Second, 2% 2C4-dinitrochlorobenzene is used as a raw material and is prepared by fluorination reaction. 2% 2C4-dinitrochlorobenzene reacts with a fluorinating agent under specific conditions, and the chlorine atom is replaced by a fluorine atom to generate 2% 2C4-difluoronitrobenzene. During the reaction, factors such as the amount of fluorinating agent, reaction temperature and pressure should be paid attention to. After that, 2% 2C4-difluoronitrobenzene is reduced and other steps to obtain 2% 2C4-difluorobenzene.
Third, m-difluorobenzene is used as a raw material and prepared by a specific substitution reaction. M-difluorobenzene and a suitable reagent undergo a substitution reaction under a catalyst and certain conditions. The desired group is introduced at a specific position in the benzene ring, and 2% 2C4-difluorobenzene is obtained through subsequent conversion steps. This process requires precise control of the reaction Each process has its own advantages and disadvantages. In actual production, it is necessary to comprehensively consider the availability of raw materials, cost, product quality and other factors to choose the appropriate process.
First, 2% 2C4-difluorobenzene can be prepared from o-difluorobenzene through bromination, hydrolysis and other reactions. First, the o-difluorobenzene and bromine are brominated under the action of a catalyst to obtain brominated o-difluorobenzene. This reaction requires temperature control and a suitable catalyst is selected to improve the yield. Subsequent brominated o-difluorobenzene is hydrolyzed to replace the bromine atom with a hydroxyl group, and then dehydrated to obtain 2% 2C4-difluorobenzene.
Second, 2% 2C4-dinitrochlorobenzene is used as a raw material and is prepared by fluorination reaction. 2% 2C4-dinitrochlorobenzene reacts with a fluorinating agent under specific conditions, and the chlorine atom is replaced by a fluorine atom to generate 2% 2C4-difluoronitrobenzene. During the reaction, factors such as the amount of fluorinating agent, reaction temperature and pressure should be paid attention to. After that, 2% 2C4-difluoronitrobenzene is reduced and other steps to obtain 2% 2C4-difluorobenzene.
Third, m-difluorobenzene is used as a raw material and prepared by a specific substitution reaction. M-difluorobenzene and a suitable reagent undergo a substitution reaction under a catalyst and certain conditions. The desired group is introduced at a specific position in the benzene ring, and 2% 2C4-difluorobenzene is obtained through subsequent conversion steps. This process requires precise control of the reaction Each process has its own advantages and disadvantages. In actual production, it is necessary to comprehensively consider the availability of raw materials, cost, product quality and other factors to choose the appropriate process.
What is the market outlook for 2,4-dichlorobenzene?
In today's world, the market situation of 2,4-dichlorobenzene can be quite studied. This substance has a wide range of uses and has its impact in many fields.
In the field of agriculture, it is often an important component of pesticides, which can help crops resist pests and diseases, maintain their growth, and increase their yield. Therefore, the development trend of agriculture has a deep impact on the demand for 2,4-dichlorobenzene. If farmers want high yield and protect crops, they will widely apply such pesticides, and the demand for 2,4-dichlorobenzene will increase; if new green prevention and control methods are developed, and the dependence on chemical pesticides is decreasing, the demand may decline.
At the industrial level, 2,4-dichlorobenzene is also a key raw material, which is indispensable for industrial manufacturing such as dyes and pharmaceuticals. If the dye industry pursues bright and long-lasting colors, and if the pharmaceutical field seeks new agents and wonderful recipes, this substance is needed. When the industry is booming and new products emerge one after another, the demand for 2,4-dichlorobenzene will also rise; conversely, the industry will suffer setbacks and the manufacturing will slow down, and its demand will also be sluggish.
Looking at the market supply, the production capacity and operation status of enterprises producing 2,4-dichlorobenzene are all related to the abundance of market supply. If many enterprises expand production and improve technology, the supply will be sufficient; if there is a shortage of raw materials and policy restrictions, the supply may be tight.
The trend of market competition also affects the market prospects of 2,4-dichlorobenzene. Among peers, compare prices, fight for quality, and compete for service. Those with high quality and good price and comprehensive service will surely be able to seize market share and drive the market forward. The entry of new enterprises and the rise of new technologies have also intensified competition, and the market is full of variables.
To sum up, the market prospects of 2,4-dichlorobenzene are intertwined by many factors such as agricultural, industrial demand, supply conditions, and competition. It is necessary for all parties to understand the times and deal with them cautiously.
In the field of agriculture, it is often an important component of pesticides, which can help crops resist pests and diseases, maintain their growth, and increase their yield. Therefore, the development trend of agriculture has a deep impact on the demand for 2,4-dichlorobenzene. If farmers want high yield and protect crops, they will widely apply such pesticides, and the demand for 2,4-dichlorobenzene will increase; if new green prevention and control methods are developed, and the dependence on chemical pesticides is decreasing, the demand may decline.
At the industrial level, 2,4-dichlorobenzene is also a key raw material, which is indispensable for industrial manufacturing such as dyes and pharmaceuticals. If the dye industry pursues bright and long-lasting colors, and if the pharmaceutical field seeks new agents and wonderful recipes, this substance is needed. When the industry is booming and new products emerge one after another, the demand for 2,4-dichlorobenzene will also rise; conversely, the industry will suffer setbacks and the manufacturing will slow down, and its demand will also be sluggish.
Looking at the market supply, the production capacity and operation status of enterprises producing 2,4-dichlorobenzene are all related to the abundance of market supply. If many enterprises expand production and improve technology, the supply will be sufficient; if there is a shortage of raw materials and policy restrictions, the supply may be tight.
The trend of market competition also affects the market prospects of 2,4-dichlorobenzene. Among peers, compare prices, fight for quality, and compete for service. Those with high quality and good price and comprehensive service will surely be able to seize market share and drive the market forward. The entry of new enterprises and the rise of new technologies have also intensified competition, and the market is full of variables.
To sum up, the market prospects of 2,4-dichlorobenzene are intertwined by many factors such as agricultural, industrial demand, supply conditions, and competition. It is necessary for all parties to understand the times and deal with them cautiously.
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