Linshang Chemical
PRODUCTS
2,3,4-Dichloronitrobenzene
Linshang Chemical
|
HS Code |
558289 |
| Chemical Formula | C6H2Cl2NO2 |
| Molecular Weight | 192.99 |
| Appearance | Yellow to brownish - yellow crystals |
| Odor | Pungent odor |
| Melting Point | 57 - 60 °C |
| Boiling Point | 255 - 257 °C |
| Density | 1.69 g/cm³ |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in benzene, toluene, xylene, etc. |
| Vapor Pressure | Low vapor pressure |
As an accredited 2,3,4-Dichloronitrobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 25 - kg drum packaging for 2,3,4 - dichloronitrobenzene chemical. |
| Storage | 2,3,4 - dichloronitrobenzene should be stored in a cool, dry, well - ventilated area. Keep it away from sources of ignition, heat, and incompatible substances like strong oxidizers and reducing agents. Store in a tightly - sealed container to prevent leakage. This helps maintain its stability and reduces the risk of hazardous reactions or environmental contamination. |
| Shipping | 2,3,4 - dichloronitrobenzene is a hazardous chemical. Shipping requires compliance with strict regulations. It must be properly packaged in approved containers, labeled clearly, and transported by carriers licensed for such hazardous substances. |
Competitive 2,3,4-Dichloronitrobenzene 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 2,3,4-Dichloronitrobenzene in China?
As a trusted 2,3,4-Dichloronitrobenzene manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
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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 2,3,4-Dichloronitrobenzene 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 2,3,4-dichloronitrobenzene?
The main use of 2% 2C3% 2C4-dihydrofuranylnaphthalene is particularly important. This substance has its uses in many fields.
In the field of pharmaceutical chemistry, 2% 2C3% 2C4-dihydrofuranylnaphthalene is often a key intermediate. Physicians want to make specific drugs, often rely on this as a basis to build complex molecular structures. Because of its special chemical structure, it can be combined with specific targets in organisms, helping pharmaceutical developers to make more targeted and better therapeutic agents, which is expected to overcome difficult diseases and bring good news to patients.
In materials science, 2% 2C3% 2C4-dihydrofuranylnaphthalene also has extraordinary performance. Material craftsmen can use it to participate in the synthesis of special polymer materials. Such materials may have excellent mechanical properties or good optical properties, such as for the manufacture of high-transparency and tough optical lenses, or for the preparation of high-performance electronic component packaging materials to ensure the stable operation of electronic devices.
Furthermore, in the art of organic synthesis, 2% 2C3% 2C4-dihydrofuranylnaphthalene is a powerful tool for organic chemists. They can use it as a starting material to derive a wide range of organic compounds with different structures through ingenious reactions. This helps to expand the research scope of organic chemistry, explore new reaction paths and compound characteristics, and promote the continuous progress of organic synthetic chemistry. From this perspective, 2% 2C3% 2C4-dihydrofuranylnaphthalene plays an important role in many aspects such as medicine, materials, organic synthesis, etc. It is an indispensable chemical substance and has a profound impact on the development of related fields.
In the field of pharmaceutical chemistry, 2% 2C3% 2C4-dihydrofuranylnaphthalene is often a key intermediate. Physicians want to make specific drugs, often rely on this as a basis to build complex molecular structures. Because of its special chemical structure, it can be combined with specific targets in organisms, helping pharmaceutical developers to make more targeted and better therapeutic agents, which is expected to overcome difficult diseases and bring good news to patients.
In materials science, 2% 2C3% 2C4-dihydrofuranylnaphthalene also has extraordinary performance. Material craftsmen can use it to participate in the synthesis of special polymer materials. Such materials may have excellent mechanical properties or good optical properties, such as for the manufacture of high-transparency and tough optical lenses, or for the preparation of high-performance electronic component packaging materials to ensure the stable operation of electronic devices.
Furthermore, in the art of organic synthesis, 2% 2C3% 2C4-dihydrofuranylnaphthalene is a powerful tool for organic chemists. They can use it as a starting material to derive a wide range of organic compounds with different structures through ingenious reactions. This helps to expand the research scope of organic chemistry, explore new reaction paths and compound characteristics, and promote the continuous progress of organic synthetic chemistry. From this perspective, 2% 2C3% 2C4-dihydrofuranylnaphthalene plays an important role in many aspects such as medicine, materials, organic synthesis, etc. It is an indispensable chemical substance and has a profound impact on the development of related fields.
What are the physical properties of 2,3,4-dichloronitrobenzene?
The physical properties of 2% 2C3% 2C4-dihydrofuranylbenzene are as follows:
This substance is mostly solid at room temperature, and its appearance is usually white to light yellow powder or crystalline, fine and uniform, with a certain luster.
In terms of melting point, it is about a specific temperature range. This temperature range allows it to change from solid to liquid under corresponding conditions. This characteristic is crucial in many processes involving the transformation of material states.
Its solubility also has characteristics. In common organic solvents such as ethanol and acetone, it has a certain solubility and can be partially or completely dissolved. This characteristic makes it possible to disperse well in chemical reactions or substance extraction and separation processes using these solvents as a medium. Participate in the reaction or be separated and extracted. However, in water, its solubility is very small and it is difficult to dissolve in water, which is related to the interaction between the polarity of water molecules and the molecular structure of the substance itself.
Furthermore, its density is also an important physical property. The specific density value makes it exhibit corresponding spatial distribution and settlement characteristics when mixed with other substances or in a specific system. When mixed with liquids of different densities, stratification and other phenomena can occur according to density differences, which can be used in separation and purification or the construction of specific systems.
In addition, the stability of the substance is acceptable under certain conditions. It can maintain its own structure and properties relatively stable at room temperature and pressure without special chemical substances or extreme environmental influences. However, under specific conditions such as high temperature, strong acid and alkali or strong oxidizing agent, its structure may change, resulting in changes in physical properties.
This substance is mostly solid at room temperature, and its appearance is usually white to light yellow powder or crystalline, fine and uniform, with a certain luster.
In terms of melting point, it is about a specific temperature range. This temperature range allows it to change from solid to liquid under corresponding conditions. This characteristic is crucial in many processes involving the transformation of material states.
Its solubility also has characteristics. In common organic solvents such as ethanol and acetone, it has a certain solubility and can be partially or completely dissolved. This characteristic makes it possible to disperse well in chemical reactions or substance extraction and separation processes using these solvents as a medium. Participate in the reaction or be separated and extracted. However, in water, its solubility is very small and it is difficult to dissolve in water, which is related to the interaction between the polarity of water molecules and the molecular structure of the substance itself.
Furthermore, its density is also an important physical property. The specific density value makes it exhibit corresponding spatial distribution and settlement characteristics when mixed with other substances or in a specific system. When mixed with liquids of different densities, stratification and other phenomena can occur according to density differences, which can be used in separation and purification or the construction of specific systems.
In addition, the stability of the substance is acceptable under certain conditions. It can maintain its own structure and properties relatively stable at room temperature and pressure without special chemical substances or extreme environmental influences. However, under specific conditions such as high temperature, strong acid and alkali or strong oxidizing agent, its structure may change, resulting in changes in physical properties.
What are the chemical properties of 2,3,4-dichloronitrobenzene?
The chemical properties of 2% 2C3% 2C4 -dihydrofuranylnaphthalene can be investigated. This substance contains the structure of furan and naphthalene, and the fusion of the two gives it its unique properties.
In terms of stability, the furan ring has a certain activity, and the dihydrogen state slightly changes its electron cloud distribution, which is slightly more stable than the furan body. However, the naphthalene ring is a fused ring aromatic hydrocarbon, rich in electrons, aromatic, and also stable to a certain extent. The coexistence of the two causes the stability of the substance to be between them, and it can be relatively stable under mild conditions. In severe environments such as strong oxidants and high temperatures, it may react.
On reactivity, due to its electron-rich, it is easily attacked by electrophilic reagents. The α position of the naphthalene ring has a high electron cloud density, and electrophilic substitution is often initiated here. The dihydrogen part of the furan ring can participate in the addition reaction, such as with halogens, hydrogen halides and other electrophilic reagents, according to the Markov rule. And if the active group is connected outside the ring, it will increase its reactivity.
In terms of solubility, it has a certain lipid solubility. Due to the structure of aromatics and furans containing multiple carbons, it is soluble in organic solvents such as benzene, toluene and chloroform. However, because it has no strong hydrophilic group, it has little solubility in water.
Spectral properties are also interesting. In the infrared spectrum, the characteristic vibration peaks of the furan ring and the naphthalene ring are clearly distinguishable, such as the C-O stretching vibration of the furan ring and the C = C stretching vibration of the naphthalene ring. In the nuclear magnetic resonance spectrum, the hydrogen nuclei and carbon nuclei in different environments show unique chemical shifts, which can determine their structure and purity.
In summary, 2% 2C3% 2C4 -dihydrofuranyl naphthalene is active and stable due to its unique structure. Its chemical properties are valuable for research and application in organic synthesis, materials science and other fields.
In terms of stability, the furan ring has a certain activity, and the dihydrogen state slightly changes its electron cloud distribution, which is slightly more stable than the furan body. However, the naphthalene ring is a fused ring aromatic hydrocarbon, rich in electrons, aromatic, and also stable to a certain extent. The coexistence of the two causes the stability of the substance to be between them, and it can be relatively stable under mild conditions. In severe environments such as strong oxidants and high temperatures, it may react.
On reactivity, due to its electron-rich, it is easily attacked by electrophilic reagents. The α position of the naphthalene ring has a high electron cloud density, and electrophilic substitution is often initiated here. The dihydrogen part of the furan ring can participate in the addition reaction, such as with halogens, hydrogen halides and other electrophilic reagents, according to the Markov rule. And if the active group is connected outside the ring, it will increase its reactivity.
In terms of solubility, it has a certain lipid solubility. Due to the structure of aromatics and furans containing multiple carbons, it is soluble in organic solvents such as benzene, toluene and chloroform. However, because it has no strong hydrophilic group, it has little solubility in water.
Spectral properties are also interesting. In the infrared spectrum, the characteristic vibration peaks of the furan ring and the naphthalene ring are clearly distinguishable, such as the C-O stretching vibration of the furan ring and the C = C stretching vibration of the naphthalene ring. In the nuclear magnetic resonance spectrum, the hydrogen nuclei and carbon nuclei in different environments show unique chemical shifts, which can determine their structure and purity.
In summary, 2% 2C3% 2C4 -dihydrofuranyl naphthalene is active and stable due to its unique structure. Its chemical properties are valuable for research and application in organic synthesis, materials science and other fields.
What is the production method of 2,3,4-dichloronitrobenzene?
2% 2C3% 2C4 -dihydrofuranyl naphthalene, the method of preparation is quite complicated, but it can be studied in detail in books, as follows.
First, various raw materials need to be prepared, and the appropriate naphthalene and the compound containing dihydrofuran group are selected. To combine the two, a catalyst is often required to promote their reaction. The catalyst should be selected according to the characteristics of the reaction, or an acid, or a metal complex or the like.
In the reactor, control the temperature and pressure, so that the naphthalene and the compound containing dihydrofuran group are mixed in a certain proportion, add a catalyst, and stir slowly. Temperature control is crucial. If it is too high, there will be many side reactions, and if it is too low, the reaction will be slow. When it is maintained in moderation, adjust it according to the reaction process.
After the reaction is completed, impurities are often mixed in the product, so it needs to be purified. The method of purification is either distillation, which uses the difference in boiling point to separate the product and impurities; or extraction, which selects the solvent, so that the product and impurities are separated into different phases.
In addition, when operating, protection should not be ignored. All raw materials, products, or toxic, or flammable, should be prepared according to regulations, such as gas masks, fire extinguishers, etc., to ensure the safety of people and the environment.
All of these are necessary for the preparation of 2% 2C3% 2C4-dihydrofuranyl naphthalene, but the actual operation still needs to be changed according to the situation, and the details can be studied in detail to obtain good results.
First, various raw materials need to be prepared, and the appropriate naphthalene and the compound containing dihydrofuran group are selected. To combine the two, a catalyst is often required to promote their reaction. The catalyst should be selected according to the characteristics of the reaction, or an acid, or a metal complex or the like.
In the reactor, control the temperature and pressure, so that the naphthalene and the compound containing dihydrofuran group are mixed in a certain proportion, add a catalyst, and stir slowly. Temperature control is crucial. If it is too high, there will be many side reactions, and if it is too low, the reaction will be slow. When it is maintained in moderation, adjust it according to the reaction process.
After the reaction is completed, impurities are often mixed in the product, so it needs to be purified. The method of purification is either distillation, which uses the difference in boiling point to separate the product and impurities; or extraction, which selects the solvent, so that the product and impurities are separated into different phases.
In addition, when operating, protection should not be ignored. All raw materials, products, or toxic, or flammable, should be prepared according to regulations, such as gas masks, fire extinguishers, etc., to ensure the safety of people and the environment.
All of these are necessary for the preparation of 2% 2C3% 2C4-dihydrofuranyl naphthalene, but the actual operation still needs to be changed according to the situation, and the details can be studied in detail to obtain good results.
What are the precautions for using 2,3,4-dichloronitrobenzene?
2% 2C3% 2C4 -Dihydroxybenzyl requires attention to many matters during use. This is a fine chemical substance, and when using it, the first thing to pay attention to is safety protection. Because it has certain chemical activity, contact may damage the skin and eyes, so be sure to wear complete protective equipment, such as gloves, goggles, and beware of direct contact.
Furthermore, its storage is also critical. It should be stored in a dry, cool and well-ventilated place, away from fire sources and oxidants. Due to its active chemical properties, improper storage or deterioration will affect the use effect.
When using, it is important to accurately control the dosage. Excessive use or unexpected chemical reactions not only waste raw materials, but also cause safety hazards. During the operation, it should be carried out under professional equipment and environment, such as in a fume hood, to disperse possible harmful gases.
In addition, it is necessary to have a deep understanding of its chemical reaction characteristics. Know what kind of substances it is prone to react with and what the reaction conditions are to effectively avoid dangerous situations. Waste after use should not be discarded at will, and should be properly disposed of in accordance with relevant regulations to prevent environmental pollution.
In short, the use of 2% 2C3% 2C4 -dihydroxybenzyl should not be ignored in terms of safety, storage, dosage, reaction characteristics and waste disposal, so as to ensure the safety and effectiveness of the use process.
Furthermore, its storage is also critical. It should be stored in a dry, cool and well-ventilated place, away from fire sources and oxidants. Due to its active chemical properties, improper storage or deterioration will affect the use effect.
When using, it is important to accurately control the dosage. Excessive use or unexpected chemical reactions not only waste raw materials, but also cause safety hazards. During the operation, it should be carried out under professional equipment and environment, such as in a fume hood, to disperse possible harmful gases.
In addition, it is necessary to have a deep understanding of its chemical reaction characteristics. Know what kind of substances it is prone to react with and what the reaction conditions are to effectively avoid dangerous situations. Waste after use should not be discarded at will, and should be properly disposed of in accordance with relevant regulations to prevent environmental pollution.
In short, the use of 2% 2C3% 2C4 -dihydroxybenzyl should not be ignored in terms of safety, storage, dosage, reaction characteristics and waste disposal, so as to ensure the safety and effectiveness of the use process.
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