Linshang Chemical
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1,2-Dichloro-3-Nitrobenzene
Linshang Chemical
|
HS Code |
218269 |
| Chemical Formula | C6H3Cl2NO2 |
| Molar Mass | 192.00 g/mol |
| Appearance | Yellow to light brown solid |
| Odor | Characteristic odor |
| Melting Point | 34 - 36 °C |
| Boiling Point | 264 - 266 °C |
| Density | 1.57 g/cm³ |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in many organic solvents |
| Vapor Pressure | Low vapor pressure |
| Flash Point | 121 °C |
| Stability | Stable under normal conditions |
As an accredited 1,2-Dichloro-3-Nitrobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1,2 - Dichloro - 3 - nitrobenzene packaged in 5 - kg containers for safe storage. |
| Storage | 1,2 - Dichloro - 3 - nitrobenzene should be stored in a cool, dry, well - ventilated area away from heat, ignition sources, and incompatible substances. Keep it in tightly sealed containers to prevent leakage. Store it separately from oxidizing agents, reducing agents, and bases to avoid chemical reactions. Adhere to safety regulations for handling and storage of hazardous chemicals. |
| Shipping | 1,2 - Dichloro - 3 - nitrobenzene is a hazardous chemical. Shipping requires compliance with international and local regulations. It must be properly packaged in corrosion - resistant containers, labeled clearly, and transported by carriers licensed for hazardous materials. |
Competitive 1,2-Dichloro-3-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
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What are the main uses of 1,2-dichloro-3-nitrobenzene?
1% 2C2 + - + dimethylquinoline + - + 3 + - + methylquinoline, its main use is general.
In the field of chemical activity, this compound has a certain biological activity and can be used as an important medium for the synthesis of polymers. Due to its chemical properties, it is endowed with the ability of specific biological receptors or enzyme interactions, so it can help to develop compounds with functions such as antibacterial and anti-inflammatory effects. For example, it can enhance the inhibitory effect of specific pathogens and open up new avenues for the research of antibacterial compounds.
In terms of materials, 1% 2C2 + - + dimethylquinoline + - + 3 + - + methylquinoline can be used to make functional materials. It can be used as a coordination mechanism to form complexes with gold particles, and these complexes often exhibit special optical and other physical properties. For example, in optical diode (OLED) materials, the introduction of this complex can improve the optical efficiency and qualitative properties of the material, and improve the performance of OLED devices.
It also plays an important role in the field of chemical analysis. Because it can generate complexes with specific color or optical properties of certain gold particles, it can be used for qualitative and quantitative analysis of gold particles. For example, in specifying the content of gold particles, it can be used to determine the reflection of gold particles, and the optical information of light particles such as light particles can be used to determine the degree of gold particles.
In addition, in catalysis, 1% 2C2 + - + dimethyl + - + 3 + - + dimethyl quinoline and its derivatives can be filled and matched, and the activity of catalysis can be improved. In some synthetic reactions, it can help catalysis to promote reaction more efficiently, and can control the direction of reaction, so that reaction can be generated more efficiently.
Therefore, 1% 2C2 + - + dimethyl + - + 3 + - + dimethyl quinoline has important uses in many fields such as reaction, materials, analysis and catalysis due to its special reaction. It plays an indispensable role in the scientific and technological development of the reaction field.
In the field of chemical activity, this compound has a certain biological activity and can be used as an important medium for the synthesis of polymers. Due to its chemical properties, it is endowed with the ability of specific biological receptors or enzyme interactions, so it can help to develop compounds with functions such as antibacterial and anti-inflammatory effects. For example, it can enhance the inhibitory effect of specific pathogens and open up new avenues for the research of antibacterial compounds.
In terms of materials, 1% 2C2 + - + dimethylquinoline + - + 3 + - + methylquinoline can be used to make functional materials. It can be used as a coordination mechanism to form complexes with gold particles, and these complexes often exhibit special optical and other physical properties. For example, in optical diode (OLED) materials, the introduction of this complex can improve the optical efficiency and qualitative properties of the material, and improve the performance of OLED devices.
It also plays an important role in the field of chemical analysis. Because it can generate complexes with specific color or optical properties of certain gold particles, it can be used for qualitative and quantitative analysis of gold particles. For example, in specifying the content of gold particles, it can be used to determine the reflection of gold particles, and the optical information of light particles such as light particles can be used to determine the degree of gold particles.
In addition, in catalysis, 1% 2C2 + - + dimethyl + - + 3 + - + dimethyl quinoline and its derivatives can be filled and matched, and the activity of catalysis can be improved. In some synthetic reactions, it can help catalysis to promote reaction more efficiently, and can control the direction of reaction, so that reaction can be generated more efficiently.
Therefore, 1% 2C2 + - + dimethyl + - + 3 + - + dimethyl quinoline has important uses in many fields such as reaction, materials, analysis and catalysis due to its special reaction. It plays an indispensable role in the scientific and technological development of the reaction field.
What are the physical properties of 1,2-dichloro-3-nitrobenzene
Dioxytriaminosilane, its physical properties are as follows:
This substance is mostly solid at room temperature, the texture is relatively hard, and the appearance is often white, like the purity of frost and snow, and some are slightly yellow, like the shimmer of morning light shining on it. Its density is moderate, which is slightly lighter than the common gold stone, and it is not a light and thin thing that can be blown away in the wind.
Dioxytriaminosilane has a high melting point and needs to be baked in a hot fire before it can be melted into a liquid state, just like real gold needs to be tempered and smelted at high temperature. Its boiling point is higher, and it needs to be subjected to extremely severe high temperature conditions to make it melt into a gaseous state and dissipate.
This substance is insoluble in water, as if it is outside the world, and does not blend with water. In water, it mostly sinks to the bottom in the form of solid particles, which is as stable as a rock. However, in specific organic solvents, it can gradually dissolve, showing a different kind of affinity.
Dioxytriaminosilane also has good insulation, and it is difficult for current to pass through it. It is like an invisible barrier that can block current from the outside. It is often used in electrical insulation materials to ensure the safe and stable operation of electrical equipment. Its thermal stability is also good. Under high temperature environments, it can still maintain the stability of its own structure and does not easily deform or decompose. Therefore, it has many applications in high temperature operation scenarios.
This substance is mostly solid at room temperature, the texture is relatively hard, and the appearance is often white, like the purity of frost and snow, and some are slightly yellow, like the shimmer of morning light shining on it. Its density is moderate, which is slightly lighter than the common gold stone, and it is not a light and thin thing that can be blown away in the wind.
Dioxytriaminosilane has a high melting point and needs to be baked in a hot fire before it can be melted into a liquid state, just like real gold needs to be tempered and smelted at high temperature. Its boiling point is higher, and it needs to be subjected to extremely severe high temperature conditions to make it melt into a gaseous state and dissipate.
This substance is insoluble in water, as if it is outside the world, and does not blend with water. In water, it mostly sinks to the bottom in the form of solid particles, which is as stable as a rock. However, in specific organic solvents, it can gradually dissolve, showing a different kind of affinity.
Dioxytriaminosilane also has good insulation, and it is difficult for current to pass through it. It is like an invisible barrier that can block current from the outside. It is often used in electrical insulation materials to ensure the safe and stable operation of electrical equipment. Its thermal stability is also good. Under high temperature environments, it can still maintain the stability of its own structure and does not easily deform or decompose. Therefore, it has many applications in high temperature operation scenarios.
What are the chemical properties of 1,2-dichloro-3-nitrobenzene?
Dixenon is a rare chemical substance that often exists in special environments. Its chemical properties are unique and show different states in various chemical reactions.
This substance has high stability, and it is difficult to react with other substances at room temperature and pressure. Just like the strong barrier, it is difficult for external interference to easily break its original structure. However, under specific conditions, such as high temperature, high pressure or the action of specific catalysts, dixenon can also exhibit active chemical activity and participate in many wonderful chemical reactions.
Furthermore, the oxidation of xenon cannot be underestimated. In some chemical reaction systems, it can act as an oxidizing agent, seizing electrons from other substances and causing the reaction to proceed in a specific direction. The strength of its oxidation varies depending on the reaction environment and the substances it comes into contact with, just like the agile dancer, changing dance moves according to different melodies.
And speaking of cyanoboron, this is a compound containing boron and cyanide groups. Its chemical properties are also interesting. Cyanoboron has a certain reactivity, and the cyanoboron part can participate in a variety of organic synthesis reactions, providing an important basis for the construction of complex organic molecular structures. The existence of boron atoms gives it unique electronic effects and spatial structures, which affect the chemical behavior of the entire molecule.
In the field of organic synthesis, cyanoboron is often used as a reagent to help chemists prepare a variety of organic compounds with special properties and uses. It is like a magic wand, which changes countless wonderful chemical products in the hands of chemists.
Looking at dixenon and cyanoboron, although they are different types of chemical substances, they both occupy an important position in the chemical world due to their unique chemical properties, opening up a vast world for chemical research and practical applications.
This substance has high stability, and it is difficult to react with other substances at room temperature and pressure. Just like the strong barrier, it is difficult for external interference to easily break its original structure. However, under specific conditions, such as high temperature, high pressure or the action of specific catalysts, dixenon can also exhibit active chemical activity and participate in many wonderful chemical reactions.
Furthermore, the oxidation of xenon cannot be underestimated. In some chemical reaction systems, it can act as an oxidizing agent, seizing electrons from other substances and causing the reaction to proceed in a specific direction. The strength of its oxidation varies depending on the reaction environment and the substances it comes into contact with, just like the agile dancer, changing dance moves according to different melodies.
And speaking of cyanoboron, this is a compound containing boron and cyanide groups. Its chemical properties are also interesting. Cyanoboron has a certain reactivity, and the cyanoboron part can participate in a variety of organic synthesis reactions, providing an important basis for the construction of complex organic molecular structures. The existence of boron atoms gives it unique electronic effects and spatial structures, which affect the chemical behavior of the entire molecule.
In the field of organic synthesis, cyanoboron is often used as a reagent to help chemists prepare a variety of organic compounds with special properties and uses. It is like a magic wand, which changes countless wonderful chemical products in the hands of chemists.
Looking at dixenon and cyanoboron, although they are different types of chemical substances, they both occupy an important position in the chemical world due to their unique chemical properties, opening up a vast world for chemical research and practical applications.
What is the production method of 1,2-dichloro-3-nitrobenzene?
1% 2C2 is dioxy. As for the production method of tri-cyanopyridine, although "Tiangong Kaiwu" does not directly describe the production of this chemical, it can be deduced from the ancient chemical ideas.
The technology of chemical industry, the first heavy raw material. To obtain cyanopyridine, its raw materials need to have nitrogen, carbon, hydrogen and other elements. Ancient chemical industry, often derived from nature. Nitrogen sources can be found in natural saltpeter, which contains nitrogen, which can be refined and can be used as a nitrogen donor. Carbon sources include charcoal, coke and other materials, which are all rich in carbon. Hydrogen sources can be obtained from water, which is the source of all things and the key to chemical industry.
The method of making probably requires reaction, separation and purification steps. The main step of the reaction is to blend the raw materials, adapt their proportions, and control their temperature and pressure. Or you can set up a kettle, with refractory materials for it, and put the selected raw materials into it according to the calculated proportion. The method of heating was used to burn in ancient times, although it is different today, the idea can be learned. The temperature is controlled by heat, so that the raw materials can chemically react in the kettle, and the cyanopyridine is produced at the beginning.
After the reaction is completed, it should be separated. Because the product often coexists with impurities, it must be tried to separate it. In ancient chemical industry, filtration and distillation methods are commonly used. If the state of the product and impurities is different, it can be filtered with a filter screen, filter cloth, etc., to remove its solid impurities. If the product and impurities are both liquid, and the boiling point is different, it can be distilled. In a kettle, heat to boil, according to the boiling point sequence, gasify into steam, and then condensate to a liquid state, and divide it.
The last step is purification, so that the product is pure. Or you can use the method of recrystallization, choose a solvent, dissolve the product in it, and then cool down, evaporate, etc., so that the product is precipitated in a crystalline state, and the impurities are left in the mother liquor to obtain pure cyanopyridine.
Although "Tiangong Kaiwu" does not specify the production method of cyanopyridine, the ancient chemical wisdom, in the selection of raw materials, reaction control, separation and purification, can be used as a reference for today. According to its ideas, we can find the best way to produce this chemical.
The technology of chemical industry, the first heavy raw material. To obtain cyanopyridine, its raw materials need to have nitrogen, carbon, hydrogen and other elements. Ancient chemical industry, often derived from nature. Nitrogen sources can be found in natural saltpeter, which contains nitrogen, which can be refined and can be used as a nitrogen donor. Carbon sources include charcoal, coke and other materials, which are all rich in carbon. Hydrogen sources can be obtained from water, which is the source of all things and the key to chemical industry.
The method of making probably requires reaction, separation and purification steps. The main step of the reaction is to blend the raw materials, adapt their proportions, and control their temperature and pressure. Or you can set up a kettle, with refractory materials for it, and put the selected raw materials into it according to the calculated proportion. The method of heating was used to burn in ancient times, although it is different today, the idea can be learned. The temperature is controlled by heat, so that the raw materials can chemically react in the kettle, and the cyanopyridine is produced at the beginning.
After the reaction is completed, it should be separated. Because the product often coexists with impurities, it must be tried to separate it. In ancient chemical industry, filtration and distillation methods are commonly used. If the state of the product and impurities is different, it can be filtered with a filter screen, filter cloth, etc., to remove its solid impurities. If the product and impurities are both liquid, and the boiling point is different, it can be distilled. In a kettle, heat to boil, according to the boiling point sequence, gasify into steam, and then condensate to a liquid state, and divide it.
The last step is purification, so that the product is pure. Or you can use the method of recrystallization, choose a solvent, dissolve the product in it, and then cool down, evaporate, etc., so that the product is precipitated in a crystalline state, and the impurities are left in the mother liquor to obtain pure cyanopyridine.
Although "Tiangong Kaiwu" does not specify the production method of cyanopyridine, the ancient chemical wisdom, in the selection of raw materials, reaction control, separation and purification, can be used as a reference for today. According to its ideas, we can find the best way to produce this chemical.
What are the precautions for the use of 1,2-dichloro-3-nitrobenzene?
1% 2C2 + - + dioxy + - + 3 + - + cyanobenzene has many points to pay attention to during use.
First, it is related to safety protection. This substance is toxic and irritating. When operating, be sure to wear suitable protective equipment, such as gas masks, protective gloves and protective clothing, to avoid skin contact and inhalation. If you come into contact inadvertently, rinse with plenty of water immediately and seek medical attention as soon as possible.
Second, it involves storage conditions. Store it in a cool, dry and well-ventilated place, away from fire and heat sources. Because it may react with some substances, avoid co-storage with strong oxidants, strong acids, strong alkalis, etc.
Third, the use of specifications. In the process of taking, it is necessary to strictly follow the specified operating procedures and accurately control the dosage. The place of use should have good ventilation facilities to reduce its concentration in the air. If there is any surplus, it should not be discarded at will, and it should be properly disposed of in accordance with relevant regulations.
Fourth, emergency response. In the event of a leak, irrelevant personnel should be quickly evacuated and the leakage area should be isolated. Emergency responders need to wear professional protective equipment and use suitable materials to absorb or contain the leak to prevent its spread, and then further proper treatment should be done.
When using 1% 2C2 + - + dioxy + - + 3 + - + cyanobenzene, the above precautions must not be taken lightly to ensure safe operation and avoid accidents.
First, it is related to safety protection. This substance is toxic and irritating. When operating, be sure to wear suitable protective equipment, such as gas masks, protective gloves and protective clothing, to avoid skin contact and inhalation. If you come into contact inadvertently, rinse with plenty of water immediately and seek medical attention as soon as possible.
Second, it involves storage conditions. Store it in a cool, dry and well-ventilated place, away from fire and heat sources. Because it may react with some substances, avoid co-storage with strong oxidants, strong acids, strong alkalis, etc.
Third, the use of specifications. In the process of taking, it is necessary to strictly follow the specified operating procedures and accurately control the dosage. The place of use should have good ventilation facilities to reduce its concentration in the air. If there is any surplus, it should not be discarded at will, and it should be properly disposed of in accordance with relevant regulations.
Fourth, emergency response. In the event of a leak, irrelevant personnel should be quickly evacuated and the leakage area should be isolated. Emergency responders need to wear professional protective equipment and use suitable materials to absorb or contain the leak to prevent its spread, and then further proper treatment should be done.
When using 1% 2C2 + - + dioxy + - + 3 + - + cyanobenzene, the above precautions must not be taken lightly to ensure safe operation and avoid accidents.
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