Linshang Chemical
PRODUCTS
1-Chloronitrobenzene
Linshang Chemical
|
HS Code |
429710 |
| Name | 1-Chloronitrobenzene |
| Molecular Formula | C6H4ClNO2 |
| Molar Mass | 157.55 g/mol |
| Appearance | Yellowish - brown liquid or solid |
| Odor | Pungent, aromatic odor |
| Density | 1.34 g/cm³ |
| Melting Point | 32 - 35 °C |
| Boiling Point | 242 - 245 °C |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in many organic solvents like benzene, toluene |
| Flash Point | 127 °C |
| Vapor Pressure | 0.01 mmHg at 25 °C |
As an accredited 1-Chloronitrobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 - Chloronitrobenzene: Packed in 25 - kg drums for secure storage and transport. |
| Storage | 1 - Chloronitrobenzene should be stored in a cool, well - ventilated warehouse. Keep it away from heat, sparks, and open flames. Store it separately from oxidizing agents, reducing agents, and food - stuff chemicals. Containers must be tightly sealed to prevent leakage, and proper labeling should be maintained for easy identification and safety handling. |
| Shipping | 1 - Chloronitrobenzene is shipped in tightly - sealed containers, usually drums or tankers. Due to its hazardous nature, shipments must comply with strict regulations, ensuring proper labeling, handling, and transport to prevent spills and risks. |
Competitive 1-Chloronitrobenzene 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 1-Chloronitrobenzene in China?
As a trusted 1-Chloronitrobenzene 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 1-Chloronitrobenzene 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-chloronitrobenzene?
The main user of 1-aminosilane, the cover is widely used in many fields due to its unique chemical properties.
At the end of material surface modification, 1-aminosilane is a key auxiliary. The amino group and silane group in its molecule have specific activities, which can significantly change the surface properties of the material. Amino groups can be combined with many organic substances, such as polymers, proteins, nucleic acids, etc. in covalent bonds or hydrogen bonds; silane groups can chemically react with glass, ceramics, metal oxides and other inorganic surfaces to form stable chemical bonds. This property makes it commonly used in the manufacture of glass fiber reinforced composites. The glass fiber treated with 1-aminosilane greatly increases the interfacial bonding force between the resin matrix, and the mechanical properties of the composite material, such as tensile strength and flexural strength, are greatly improved.
In the field of coatings and adhesives, 1-aminosilane is also indispensable. Added to the coating, it can improve the adhesion between the coating and the substrate. When the coating is applied to the surface of metal, wood or plastic, 1-aminosilane reacts with the polymer in the coating by the amino group, and the silane group binds to the surface of the substrate, so that the coating adheres more tightly and enhances the durability and protection of the coating. In adhesives, 1-aminosilane can improve the bonding strength of adhesives to different materials, broaden the scope of application of adhesives, and can play a role in structural bonding or non-structural bonding.
Furthermore, 1-aminosilane has also emerged in the field of biomedicine. Because it can modify the surface of biological materials and improve biocompatibility. Taking medical implant materials as an example, after treatment with 1-aminosilane, the surface of the material can attract cell adhesion, proliferation and differentiation, reduce the body's immune rejection response, and help the implant material better integrate into the organism to achieve the desired medical function.
In the semiconductor and microelectronics industries, 1-aminosilane can be used as an additive for photoresists. Photoresist is a key material for pattern transfer in semiconductor manufacturing. When 1-aminosilane is added, it can improve the adhesion between photoresist and silicon wafer and other substrates, improve lithographic resolution and pattern fidelity, and is of great significance for the preparation of fine semiconductor device structures.
In summary, 1-aminosilane is a widely used and crucial chemical substance in the fields of material surface modification, coating adhesives, biomedicine, and semiconductor microelectronics due to its structural characteristics.
At the end of material surface modification, 1-aminosilane is a key auxiliary. The amino group and silane group in its molecule have specific activities, which can significantly change the surface properties of the material. Amino groups can be combined with many organic substances, such as polymers, proteins, nucleic acids, etc. in covalent bonds or hydrogen bonds; silane groups can chemically react with glass, ceramics, metal oxides and other inorganic surfaces to form stable chemical bonds. This property makes it commonly used in the manufacture of glass fiber reinforced composites. The glass fiber treated with 1-aminosilane greatly increases the interfacial bonding force between the resin matrix, and the mechanical properties of the composite material, such as tensile strength and flexural strength, are greatly improved.
In the field of coatings and adhesives, 1-aminosilane is also indispensable. Added to the coating, it can improve the adhesion between the coating and the substrate. When the coating is applied to the surface of metal, wood or plastic, 1-aminosilane reacts with the polymer in the coating by the amino group, and the silane group binds to the surface of the substrate, so that the coating adheres more tightly and enhances the durability and protection of the coating. In adhesives, 1-aminosilane can improve the bonding strength of adhesives to different materials, broaden the scope of application of adhesives, and can play a role in structural bonding or non-structural bonding.
Furthermore, 1-aminosilane has also emerged in the field of biomedicine. Because it can modify the surface of biological materials and improve biocompatibility. Taking medical implant materials as an example, after treatment with 1-aminosilane, the surface of the material can attract cell adhesion, proliferation and differentiation, reduce the body's immune rejection response, and help the implant material better integrate into the organism to achieve the desired medical function.
In the semiconductor and microelectronics industries, 1-aminosilane can be used as an additive for photoresists. Photoresist is a key material for pattern transfer in semiconductor manufacturing. When 1-aminosilane is added, it can improve the adhesion between photoresist and silicon wafer and other substrates, improve lithographic resolution and pattern fidelity, and is of great significance for the preparation of fine semiconductor device structures.
In summary, 1-aminosilane is a widely used and crucial chemical substance in the fields of material surface modification, coating adhesives, biomedicine, and semiconductor microelectronics due to its structural characteristics.
What are the effects of 1-chloronitrobenzene on the environment?
The impact of 1-% aminoquinolinyl on the environment is related to various aspects of ecology and cannot be ignored.
Aminoquinolinyl substances, if released in the natural environment, bear the brunt of the impact on the aquatic ecology. If pollutants containing aminoquinolinyl enter rivers, lakes and seas, it may cause water quality to deteriorate. Aquatic organisms, such as fish, shrimp and shellfish, live in them, and aminoquinolinyl may interfere with their normal physiological functions. For fish, it may affect their respiration, reproduction and other behaviors. Studies have shown that a certain concentration of aminoquinolinyl can cause damage to the gill tissue of fish, block their gas exchange, and then endanger life. And aminoquinoline base may also interfere with the photosynthesis of aquatic plants, hinder their growth, and destroy the ecological balance of water bodies.
The soil environment is also not immune. If aminoquinoline base enters the soil with sewage irrigation, atmospheric sedimentation, etc., it may change the physical and chemical properties of the soil. It may interact with mineral components and organic matter in the soil, affecting the soil nutrient cycle. Soil microbial communities are sensitive to aminoquinoline base, which may inhibit the growth and reproduction of beneficial microorganisms, such as nitrogen-fixing bacteria, phosphorus-solubilizing bacteria, etc., reduce soil fertility, affect the absorption of nutrients by plant roots, and then affect crop yield and quality.
In the atmospheric environment, although the volatilization of aminoquinolinyl may be relatively small, if it is not properly handled in industrial production and other processes, it will escape to the atmosphere, diffuse through atmospheric circulation, or participate in photochemical reactions. Its products may affect atmospheric visibility, and some products may be irritating, harming the human respiratory system, making people susceptible to respiratory diseases, such as cough, asthma, etc., and also affecting the atmospheric chemical balance.
In short, the impact of aminoquinolinyl on the environment is extensive and complex, from water bodies, soils to the atmosphere, and is affected by it. It is related to ecosystem stability and human health. It is necessary to treat it with caution and strengthen monitoring and prevention and control.
Aminoquinolinyl substances, if released in the natural environment, bear the brunt of the impact on the aquatic ecology. If pollutants containing aminoquinolinyl enter rivers, lakes and seas, it may cause water quality to deteriorate. Aquatic organisms, such as fish, shrimp and shellfish, live in them, and aminoquinolinyl may interfere with their normal physiological functions. For fish, it may affect their respiration, reproduction and other behaviors. Studies have shown that a certain concentration of aminoquinolinyl can cause damage to the gill tissue of fish, block their gas exchange, and then endanger life. And aminoquinoline base may also interfere with the photosynthesis of aquatic plants, hinder their growth, and destroy the ecological balance of water bodies.
The soil environment is also not immune. If aminoquinoline base enters the soil with sewage irrigation, atmospheric sedimentation, etc., it may change the physical and chemical properties of the soil. It may interact with mineral components and organic matter in the soil, affecting the soil nutrient cycle. Soil microbial communities are sensitive to aminoquinoline base, which may inhibit the growth and reproduction of beneficial microorganisms, such as nitrogen-fixing bacteria, phosphorus-solubilizing bacteria, etc., reduce soil fertility, affect the absorption of nutrients by plant roots, and then affect crop yield and quality.
In the atmospheric environment, although the volatilization of aminoquinolinyl may be relatively small, if it is not properly handled in industrial production and other processes, it will escape to the atmosphere, diffuse through atmospheric circulation, or participate in photochemical reactions. Its products may affect atmospheric visibility, and some products may be irritating, harming the human respiratory system, making people susceptible to respiratory diseases, such as cough, asthma, etc., and also affecting the atmospheric chemical balance.
In short, the impact of aminoquinolinyl on the environment is extensive and complex, from water bodies, soils to the atmosphere, and is affected by it. It is related to ecosystem stability and human health. It is necessary to treat it with caution and strengthen monitoring and prevention and control.
What is the production process of 1-chloronitrobenzene?
The production process of 1-alkoxysilane is related to the skills of many delicate links. First and foremost, the choice of raw materials must be pure and excellent. Such as silicon source, silica powder is often taken, and its purity is related to the quality of the product, and the control of impurities is the key. Chlorinated hydrocarbons are also important materials, and their type and purity affect the reaction process and product characteristics.
Second, the reaction process involves high temperature catalysis. In a special reactor, silica powder and chlorinated hydrocarbons react chemically under the help of suitable temperature, pressure and catalyst. The adjustment of temperature needs to be accurate. If it is too low, the reaction will be slow, and if it is too high, it will easily lead to side reactions. The choice of catalyst is also a top priority, which can promote the efficient progress of the reaction and improve the yield and purity of the product. Commonly used catalysts have their own characteristics and need to be selected according to the specific conditions of the reaction.
Furthermore, separation and purification. After the reaction is completed, the product is mixed in many impurities. To obtain high-purity alkoxysilane, separation and purification are indispensable. The method of distillation is often used to separate one by one according to the difference in the boiling point of each component. This process requires fine control of parameters such as temperature, pressure and reflux ratio to achieve high purity.
In addition, equipment maintenance and process optimization. Good operation of production equipment is the basis for process stability. Regular maintenance to prevent product quality fluctuations caused by equipment failure. The process also needs to keep pace with the times, continuously optimize according to market demand and technological progress, improve production efficiency, reduce costs and increase efficiency, and ensure the competitiveness of the product in the market. So many, interlocking, build the exquisite production process of alkoxysilane.
Second, the reaction process involves high temperature catalysis. In a special reactor, silica powder and chlorinated hydrocarbons react chemically under the help of suitable temperature, pressure and catalyst. The adjustment of temperature needs to be accurate. If it is too low, the reaction will be slow, and if it is too high, it will easily lead to side reactions. The choice of catalyst is also a top priority, which can promote the efficient progress of the reaction and improve the yield and purity of the product. Commonly used catalysts have their own characteristics and need to be selected according to the specific conditions of the reaction.
Furthermore, separation and purification. After the reaction is completed, the product is mixed in many impurities. To obtain high-purity alkoxysilane, separation and purification are indispensable. The method of distillation is often used to separate one by one according to the difference in the boiling point of each component. This process requires fine control of parameters such as temperature, pressure and reflux ratio to achieve high purity.
In addition, equipment maintenance and process optimization. Good operation of production equipment is the basis for process stability. Regular maintenance to prevent product quality fluctuations caused by equipment failure. The process also needs to keep pace with the times, continuously optimize according to market demand and technological progress, improve production efficiency, reduce costs and increase efficiency, and ensure the competitiveness of the product in the market. So many, interlocking, build the exquisite production process of alkoxysilane.
What are the precautions for storing and transporting 1-chloronitrobenzene?
1-Cyanopyridine requires careful attention during storage and transportation. This is an important matter related to safety and quality, and must not be taken lightly.
When storing, choose the first environment. It should be placed in a cool, dry and well-ventilated place. Because cyanopyridine is afraid of heat and moisture, high temperature can easily cause its properties to change, and humidity may cause it to deteriorate and damage its quality. The temperature of the warehouse must be strictly controlled, and it is appropriate not to exceed a specific limit. The humidity should also be maintained within an appropriate range.
Furthermore, storage should follow the rules of classification. Cyanopyridine has certain chemical activity and cannot be mixed with oxidants, acids, bases and other substances. These substances come into contact with it, or trigger violent chemical reactions, which can lead to safety disasters such as fire and explosion.
Packaging is also a key part. Packaging materials must be sturdy and durable, tightly sealed. Only in this way can the external environment be effectively isolated and the risk of leakage is prevented. If the package is damaged, cyanopyridine escapes, which not only causes material loss, but also endangers the safety of surrounding personnel and the environment.
As for transportation, safety regulations must be strictly observed. Transportation vehicles should be professionally inspected to ensure that there are no potential safety hazards. During cyanopyridine transportation, it must be anti-collision and anti-bumping to avoid leakage due to damage to the package. The escort personnel should also be professionally trained and familiar with the characteristics of cyanopyridine and emergency treatment methods. In the event of an emergency, it can be responded to quickly and properly to minimize the harm.
In addition, shipping documents and labels are indispensable. Shipping documents should record the amount and nature of cyanopyridine in detail for supervision and traceability. On the packaging, the danger of cyanopyridine should be clearly marked to remind transporters and relevant parties to pay attention to prevention.
Cyanopyridine must be strictly treated in terms of environment, classification, packaging, transportation specifications and document labels during storage and transportation to ensure safety and quality.
When storing, choose the first environment. It should be placed in a cool, dry and well-ventilated place. Because cyanopyridine is afraid of heat and moisture, high temperature can easily cause its properties to change, and humidity may cause it to deteriorate and damage its quality. The temperature of the warehouse must be strictly controlled, and it is appropriate not to exceed a specific limit. The humidity should also be maintained within an appropriate range.
Furthermore, storage should follow the rules of classification. Cyanopyridine has certain chemical activity and cannot be mixed with oxidants, acids, bases and other substances. These substances come into contact with it, or trigger violent chemical reactions, which can lead to safety disasters such as fire and explosion.
Packaging is also a key part. Packaging materials must be sturdy and durable, tightly sealed. Only in this way can the external environment be effectively isolated and the risk of leakage is prevented. If the package is damaged, cyanopyridine escapes, which not only causes material loss, but also endangers the safety of surrounding personnel and the environment.
As for transportation, safety regulations must be strictly observed. Transportation vehicles should be professionally inspected to ensure that there are no potential safety hazards. During cyanopyridine transportation, it must be anti-collision and anti-bumping to avoid leakage due to damage to the package. The escort personnel should also be professionally trained and familiar with the characteristics of cyanopyridine and emergency treatment methods. In the event of an emergency, it can be responded to quickly and properly to minimize the harm.
In addition, shipping documents and labels are indispensable. Shipping documents should record the amount and nature of cyanopyridine in detail for supervision and traceability. On the packaging, the danger of cyanopyridine should be clearly marked to remind transporters and relevant parties to pay attention to prevention.
Cyanopyridine must be strictly treated in terms of environment, classification, packaging, transportation specifications and document labels during storage and transportation to ensure safety and quality.
What is the market price trend of 1-chloronitrobenzene?
Looking at the market of mercaptopyridine, the movement of its price is related to various reasons.
Fumercaptopyridine is widely used and is involved in various industries such as medicine, chemistry, and industry. The market price is initially subject to supply and demand. If the supply exceeds the demand, the price will decline; if the supply exceeds the demand, the price will rise. And in today's world, science and technology are new, and new methods are introduced, the yield may increase, the supply will also change, and the price will also move accordingly.
And the price of raw materials has a huge impact on the price of mercaptopyridine. The system requires all kinds of raw materials. If the price of raw materials rises, the cost of the system will increase, and the price of mercapto-pyridine will also be difficult to suppress. If the price of raw materials falls, the cost will drop, and the price may drop.
The guidance of the policy is also the key. Changes in government regulations and taxes can cause differences in the production and sales of mercapto-pyridine, and then the price fluctuates. And the competition in the market, where various producers compete for the market, or in order to gain profits, they may lower their prices to compete for shares, also make the price trend unpredictable.
In recent years, the market price of mercapto-pyridine has initially risen, because the demand is gradually increasing, and the production and supply are temporarily insufficient. Then, new production methods are produced, production increases, and prices drop slightly. However, due to the ups and downs of raw material prices, prices also rise and fall indefinitely. Future prices, if the balance of supply and demand is stable, the price of raw materials does not move much, and the policy is stable, the price may be able to slow down on the path of stability; if supply and demand are unbalanced, the price of raw materials rises and falls sharply, and the policy changes, the trend of the price may be like a wave, and it is difficult to determine.
Fumercaptopyridine is widely used and is involved in various industries such as medicine, chemistry, and industry. The market price is initially subject to supply and demand. If the supply exceeds the demand, the price will decline; if the supply exceeds the demand, the price will rise. And in today's world, science and technology are new, and new methods are introduced, the yield may increase, the supply will also change, and the price will also move accordingly.
And the price of raw materials has a huge impact on the price of mercaptopyridine. The system requires all kinds of raw materials. If the price of raw materials rises, the cost of the system will increase, and the price of mercapto-pyridine will also be difficult to suppress. If the price of raw materials falls, the cost will drop, and the price may drop.
The guidance of the policy is also the key. Changes in government regulations and taxes can cause differences in the production and sales of mercapto-pyridine, and then the price fluctuates. And the competition in the market, where various producers compete for the market, or in order to gain profits, they may lower their prices to compete for shares, also make the price trend unpredictable.
In recent years, the market price of mercapto-pyridine has initially risen, because the demand is gradually increasing, and the production and supply are temporarily insufficient. Then, new production methods are produced, production increases, and prices drop slightly. However, due to the ups and downs of raw material prices, prices also rise and fall indefinitely. Future prices, if the balance of supply and demand is stable, the price of raw materials does not move much, and the policy is stable, the price may be able to slow down on the path of stability; if supply and demand are unbalanced, the price of raw materials rises and falls sharply, and the policy changes, the trend of the price may be like a wave, and it is difficult to determine.
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