Linshang Chemical
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1,3-Dichloro-2,4-Difluoro-5-Nitrobenzene
Linshang Chemical
|
HS Code |
931619 |
| Chemical Formula | C6HCl2F2NO2 |
| Molar Mass | 229.98 g/mol |
| Appearance | Solid |
| Melting Point | Data needed |
| Boiling Point | Data needed |
| Density | Data needed |
| Solubility In Water | Low solubility |
| Solubility In Organic Solvents | Soluble in common organic solvents |
| Vapor Pressure | Data needed |
| Flash Point | Data needed |
| Pka | Data needed |
| Logp | Data needed |
As an accredited 1,3-Dichloro-2,4-Difluoro-5-Nitrobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | Packaging: 25 kg drums for 1,3 - dichloro - 2,4 - difluoro - 5 - nitrobenzene. |
| Storage | 1,3 - dichloro - 2,4 - difluoro - 5 - nitrobenzene should be stored in a cool, dry, well - ventilated area. Keep it away from heat, ignition sources, and incompatible substances. Store in a tightly closed container, preferably made of corrosion - resistant materials. This helps prevent decomposition, leakage, and potential reactions that could pose safety risks. |
| Shipping | 1,3 - Dichloro - 2,4 - difluoro - 5 - nitrobenzene is a chemical. It should be shipped in well - sealed, corrosion - resistant containers, following strict hazardous materials regulations to ensure safe transport. |
Competitive 1,3-Dichloro-2,4-Difluoro-5-Nitrobenzene 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 leading 1,3-Dichloro-2,4-Difluoro-5-Nitrobenzene 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 1,3-dichloro-2,4-difluoro-5-nitrobenzene?
1% 2C3-dihydro-2% 2C4-diene-5-furanylnaphthalene, although this substance is not detailed in Tiangong Kaiwu, it has a wide range of uses in terms of current knowledge.
In the field of medicine, it may have potential medicinal value. Due to its unique molecular structure, it contains specific functional groups and skeletons, or it can act on specific targets in organisms. By means of modern pharmaceutical chemistry, it can be modified and optimized, or it can be developed into new drugs for the treatment of specific diseases.
In the field of materials science, it may be used as a key raw material for the construction of materials with special properties. Its structure endows it with special physical and chemical properties. By polymerization or compounding, it can prepare materials with unique optical, electrical or mechanical properties, which can be used in optoelectronic devices, high-performance composites and other fields.
In the field of organic synthesis, this compound can be used as a key intermediate due to its unique structure. Organic chemists can take advantage of various organic reactions to derive its structure, build more complex organic molecules, expand the variety of organic compounds, and provide an important cornerstone for the development of organic synthetic chemistry.
Although the "Tiangong Kaiwu" does not specify the use of this product in detail, from the current perspective of science and technology, 1% 2C3-dihydro-2% 2C4-diene-5-furanylnaphthalene has shown important potential uses in many fields such as medicine, materials, and organic synthesis. With the progress of scientific research, more applications may be discovered.
In the field of medicine, it may have potential medicinal value. Due to its unique molecular structure, it contains specific functional groups and skeletons, or it can act on specific targets in organisms. By means of modern pharmaceutical chemistry, it can be modified and optimized, or it can be developed into new drugs for the treatment of specific diseases.
In the field of materials science, it may be used as a key raw material for the construction of materials with special properties. Its structure endows it with special physical and chemical properties. By polymerization or compounding, it can prepare materials with unique optical, electrical or mechanical properties, which can be used in optoelectronic devices, high-performance composites and other fields.
In the field of organic synthesis, this compound can be used as a key intermediate due to its unique structure. Organic chemists can take advantage of various organic reactions to derive its structure, build more complex organic molecules, expand the variety of organic compounds, and provide an important cornerstone for the development of organic synthetic chemistry.
Although the "Tiangong Kaiwu" does not specify the use of this product in detail, from the current perspective of science and technology, 1% 2C3-dihydro-2% 2C4-diene-5-furanylnaphthalene has shown important potential uses in many fields such as medicine, materials, and organic synthesis. With the progress of scientific research, more applications may be discovered.
What are the physical properties of 1,3-dichloro-2,4-difluoro-5-nitrobenzene?
1% 2C3-difluoro-2% 2C4-dichloro-5-trifluoromethylbenzene is a kind of organic compound. Its physical properties are quite unique.
Looking at its appearance, it is often in the form of a colorless to light yellow liquid, with a clear texture and stable existence at room temperature and pressure. Smell it, or have a slight special smell, but its taste is not very pungent, and it is still tolerable.
When it comes to the boiling point, it is about a specific temperature range, which makes the compound change from liquid to gaseous state. This boiling point characteristic is crucial in chemical operations such as separation and purification. It can be precisely separated from the mixture by distillation according to the difference in boiling point.
Its melting point is also an important physical parameter. The specific melting point indicates that when the temperature drops to a certain value, the compound will solidify from a liquid state to a solid state. The melting point is closely related to the intermolecular forces, reflecting the order of molecular arrangement and the strength of interactions.
As for the density, compared with water, there may be a specific numerical relationship. If the density is greater than water, it will sink to the bottom in the aqueous liquid system; if it is less than water, it will float on the water surface. This property can be used in operations such as liquid-liquid separation to determine its location and separation methods.
In terms of solubility, it may exhibit good solubility in organic solvents, such as common ethanol, ether, etc. Due to the principle of similarity and miscibility, its molecular structure is similar to that of organic solvents, so it is easy to mix with each other. However, in water, the solubility may not be good, because the molecular polarity is quite different from that of water molecules.
The volatility of this compound is relatively low under normal conditions, and it is not easy to evaporate into the air quickly. This property makes it less volatile during storage and use and reduces the risk of loss and pollution to the environment. However, under high temperatures or specific conditions, the volatility may be increased, and it is also necessary to pay attention to prevention.
Looking at its appearance, it is often in the form of a colorless to light yellow liquid, with a clear texture and stable existence at room temperature and pressure. Smell it, or have a slight special smell, but its taste is not very pungent, and it is still tolerable.
When it comes to the boiling point, it is about a specific temperature range, which makes the compound change from liquid to gaseous state. This boiling point characteristic is crucial in chemical operations such as separation and purification. It can be precisely separated from the mixture by distillation according to the difference in boiling point.
Its melting point is also an important physical parameter. The specific melting point indicates that when the temperature drops to a certain value, the compound will solidify from a liquid state to a solid state. The melting point is closely related to the intermolecular forces, reflecting the order of molecular arrangement and the strength of interactions.
As for the density, compared with water, there may be a specific numerical relationship. If the density is greater than water, it will sink to the bottom in the aqueous liquid system; if it is less than water, it will float on the water surface. This property can be used in operations such as liquid-liquid separation to determine its location and separation methods.
In terms of solubility, it may exhibit good solubility in organic solvents, such as common ethanol, ether, etc. Due to the principle of similarity and miscibility, its molecular structure is similar to that of organic solvents, so it is easy to mix with each other. However, in water, the solubility may not be good, because the molecular polarity is quite different from that of water molecules.
The volatility of this compound is relatively low under normal conditions, and it is not easy to evaporate into the air quickly. This property makes it less volatile during storage and use and reduces the risk of loss and pollution to the environment. However, under high temperatures or specific conditions, the volatility may be increased, and it is also necessary to pay attention to prevention.
Is the chemical properties of 1,3-dichloro-2,4-difluoro-5-nitrobenzene stable?
1% 2C3-dioxy-2% 2C4-diene-5-carboxylbenzene, this substance has relative stability under certain conditions due to its special chemical structure.
In terms of its molecular structure, two oxygen atoms form a dioxygen structure at positions 1 and 3, which endows the molecule with certain rigidity and stability. Although the diene structure at positions 2 and 4 is unsaturated and easy to participate in reactions such as addition, in a suitable environment, due to factors such as conjugation effects, the overall energy of the molecule can be reduced and its stability can be increased. Furthermore, the carboxyl group at position 5 can further stabilize the molecular system by forming intermolecular forces such as hydrogen bonds.
However, stability is not absolute. If placed under extreme conditions such as high temperature, strong oxidants or strong acids and bases, its chemical bonds will be affected. High temperatures may intensify the thermal movement of molecules, causing some weaker chemical bonds to break; strong oxidants are prone to attack unsaturated diene structures or carboxylic groups, triggering oxidation reactions; strong acids and bases may react with carboxylic groups and change the molecular structure.
Overall, in a conventional mild environment, 1% 2C3-dioxy-2% 2C4-diene-5-carboxybenzene has certain chemical stability, but under extreme conditions, its structure and properties will change.
In terms of its molecular structure, two oxygen atoms form a dioxygen structure at positions 1 and 3, which endows the molecule with certain rigidity and stability. Although the diene structure at positions 2 and 4 is unsaturated and easy to participate in reactions such as addition, in a suitable environment, due to factors such as conjugation effects, the overall energy of the molecule can be reduced and its stability can be increased. Furthermore, the carboxyl group at position 5 can further stabilize the molecular system by forming intermolecular forces such as hydrogen bonds.
However, stability is not absolute. If placed under extreme conditions such as high temperature, strong oxidants or strong acids and bases, its chemical bonds will be affected. High temperatures may intensify the thermal movement of molecules, causing some weaker chemical bonds to break; strong oxidants are prone to attack unsaturated diene structures or carboxylic groups, triggering oxidation reactions; strong acids and bases may react with carboxylic groups and change the molecular structure.
Overall, in a conventional mild environment, 1% 2C3-dioxy-2% 2C4-diene-5-carboxybenzene has certain chemical stability, but under extreme conditions, its structure and properties will change.
What is the production method of 1,3-dichloro-2,4-difluoro-5-nitrobenzene?
For the preparation method of 1% 2C3-difluoro-2% 2C4-dichloro-5-trifluoromethylbenzene, please refer to the ancient method of "Tiangong Kaiwu". With traditional skills and wisdom, you may be able to get something.
If you want to make this substance, prepare all kinds of raw materials first. Find suitable substances containing fluorine, chlorine and methyl, and carefully select them to ensure that the raw materials are pure and free of impurities. If you choose fluoride, check its purity and characteristics so that it can meet the needs of subsequent reactions.
Then set up a stable reaction environment. In a specially made vessel, according to the ancient method, either use a pottery kettle or a copper tripod, and use a suitable material to prevent it from invading with the reactants. Control its temperature and pressure, and slow it down with a slow fire, or according to the nature of the thing, use a fire to urge it to respond quickly. Temperature control is about success or failure, and you can't be careless. If the temperature is too low, the reaction will be slow or ineffective; if the temperature is too high, the thing or quality will change and lose its original intention.
When reacting, observe the change in detail. Watch the change of its color, smell the similarities and differences of its qi, as the ancient law says, use the method of observation and nose smell to explore the progress of the reaction. Adjust its conditions at the right time to make the reaction smooth.
After the reaction is completed, use the ancient method of separation and purification. Or use the method of distillation, depending on the boiling point of the substance, to remove the impurities and keep the pure ones; or use the method of extraction, choose a suitable solvent, so that the desired substance can be extracted in it, and then processed. In this way, after many processes, 1% 2C3-difluoro-2% 2C4-dichloro-5-trifluoromethylbenzene can be obtained. Although the ancient method may be cumbersome, the wisdom in it can also provide ideas for the preparation of today. According to modern technology and the essence of the ancient method, a better method may be obtained.
If you want to make this substance, prepare all kinds of raw materials first. Find suitable substances containing fluorine, chlorine and methyl, and carefully select them to ensure that the raw materials are pure and free of impurities. If you choose fluoride, check its purity and characteristics so that it can meet the needs of subsequent reactions.
Then set up a stable reaction environment. In a specially made vessel, according to the ancient method, either use a pottery kettle or a copper tripod, and use a suitable material to prevent it from invading with the reactants. Control its temperature and pressure, and slow it down with a slow fire, or according to the nature of the thing, use a fire to urge it to respond quickly. Temperature control is about success or failure, and you can't be careless. If the temperature is too low, the reaction will be slow or ineffective; if the temperature is too high, the thing or quality will change and lose its original intention.
When reacting, observe the change in detail. Watch the change of its color, smell the similarities and differences of its qi, as the ancient law says, use the method of observation and nose smell to explore the progress of the reaction. Adjust its conditions at the right time to make the reaction smooth.
After the reaction is completed, use the ancient method of separation and purification. Or use the method of distillation, depending on the boiling point of the substance, to remove the impurities and keep the pure ones; or use the method of extraction, choose a suitable solvent, so that the desired substance can be extracted in it, and then processed. In this way, after many processes, 1% 2C3-difluoro-2% 2C4-dichloro-5-trifluoromethylbenzene can be obtained. Although the ancient method may be cumbersome, the wisdom in it can also provide ideas for the preparation of today. According to modern technology and the essence of the ancient method, a better method may be obtained.
What are the precautions for storing and transporting 1,3-dichloro-2,4-difluoro-5-nitrobenzene?
For 1% 2C3-dioxy-2% 2C4-diene-5-carbonylbenzene, many matters need to be paid attention to during storage and transportation.
Its nature may be unstable, so when storing, the first choice is to choose the environment. It must be placed in a cool, dry and well-ventilated place, and must not be close to fire or heat sources to prevent its properties from changing due to temperature changes, and even dangerous. If it is in a humid environment, it is afraid of chemical changes such as hydrolysis, which will damage its quality.
During transportation, it must be well protected. The utensils used must be clean, dry and well sealed, and there is no risk of leakage. When loading and unloading, the handling should be gentle, do not collide or fall, so as not to damage the packaging and cause it to be exposed. And when transporting, it should be separated from oxidizing agents, reducing agents and other foreign substances. Do not mix, because things of different physical properties meet, or cause severe reactions, endangering safety.
Furthermore, no matter whether it is stored or transported, the logo should be clear. Indicate the name, characteristics, hazards and emergency measures of this object, so that the relevant people can understand at a glance, and in case of emergencies, they can quickly take measures. Anyone involved in the storage and transportation of this object must be familiar with its characteristics and follow the norms, so as to ensure that everything goes smoothly and avoid disaster.
Its nature may be unstable, so when storing, the first choice is to choose the environment. It must be placed in a cool, dry and well-ventilated place, and must not be close to fire or heat sources to prevent its properties from changing due to temperature changes, and even dangerous. If it is in a humid environment, it is afraid of chemical changes such as hydrolysis, which will damage its quality.
During transportation, it must be well protected. The utensils used must be clean, dry and well sealed, and there is no risk of leakage. When loading and unloading, the handling should be gentle, do not collide or fall, so as not to damage the packaging and cause it to be exposed. And when transporting, it should be separated from oxidizing agents, reducing agents and other foreign substances. Do not mix, because things of different physical properties meet, or cause severe reactions, endangering safety.
Furthermore, no matter whether it is stored or transported, the logo should be clear. Indicate the name, characteristics, hazards and emergency measures of this object, so that the relevant people can understand at a glance, and in case of emergencies, they can quickly take measures. Anyone involved in the storage and transportation of this object must be familiar with its characteristics and follow the norms, so as to ensure that everything goes smoothly and avoid disaster.
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