Linshang Chemical
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5-Chloro-2-Nitro-P-Diethoxybenzene
Linshang Chemical
|
HS Code |
510322 |
| Chemical Formula | C10H12ClNO4 |
| Molecular Weight | 245.66 |
| Appearance | Solid (Typical) |
| Color | Yellowish (Typical) |
| Odor | Characteristic (Typical) |
| Solubility In Water | Low (Organic compound, generally low solubility in water) |
| Solubility In Organic Solvents | Soluble in common organic solvents like ethanol, acetone (Typical for this type of compound) |
| Purity | Varies by source, usually high purity in commercial products like 95%+ (Hypothetical as no specific value provided without product - specific data) |
As an accredited 5-Chloro-2-Nitro-P-Diethoxybenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 5 - chloro - 2 - nitro - p - diethoxybenzene, 100g in sealed chemical - resistant packaging. |
| Storage | 5 - chloro - 2 - nitro - p - diethoxybenzene should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, flames, and oxidizing agents. Store in a tightly sealed container to prevent moisture and air exposure, which could potentially lead to degradation. Label the storage container clearly to avoid confusion. |
| Shipping | 5 - chloro - 2 - nitro - p - diethoxybenzene is shipped in accordance with chemical transportation regulations. Packed in suitable containers to prevent leakage, it's transported by approved carriers ensuring safety during transit. |
Competitive 5-Chloro-2-Nitro-P-Diethoxybenzene 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
Where to Buy 5-Chloro-2-Nitro-P-Diethoxybenzene in China?
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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 5-Chloro-2-Nitro-P-Diethoxybenzene 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 chemical properties of 5-chloro-2-nitro-p-diethoxybenzene?
5 + -Alkane-2-amino-p-diethoxybenzene, its chemical properties are as follows.
In this substance, the alkane part has the characteristics of saturated hydrocarbons, and the chemical properties are relatively stable. It is difficult to react with strong acids, strong bases and strong oxidants at room temperature. Under high temperature or light conditions, a substitution reaction can occur. For example, when exposed to halogen elements in light, halogen atoms can replace hydrogen atoms on alkanes.
The amino group (-NH2O) is a functional group with active properties. It is alkaline. Because there are lone pairs of electrons on the nitrogen atom, it can bind to protons (H 🥰), so it can react with acids to form salts. And the nitrogen atom of the amino group can participate in the nucleophilic reaction. Under appropriate conditions, it can attack molecules with electrophilic centers, resulting in substitution, addition and other reactions.
In addition, the p-diethoxy benzene part, ethoxy (-OCH -2 CH
) as the power supply group, can increase the electron cloud density of the benzene ring, making the benzene ring more prone to electrophilic substitution. Similar to the general benzene ring, electrophilic substitution reactions such as halogenation, nitrification, and sulfonation can occur, and due to the localization effect of ethoxy groups, the substituents mainly enter the para-position and ortho-position of the ethoxy group, especially the para-position products.
In addition, different functional groups in the molecule of this substance may interact with each other. The electron action of the amino group may enhance the reactivity of the benzene ring, and the presence of the benzene ring and the alkane part may also affect the alkalinity of the amino group. In short, the chemical properties of 5 + -alkane-2-amino-p-diethoxy benzene are determined by the coordination of its functional groups, and they exhibit various chemical behaviors under different reaction conditions.
In this substance, the alkane part has the characteristics of saturated hydrocarbons, and the chemical properties are relatively stable. It is difficult to react with strong acids, strong bases and strong oxidants at room temperature. Under high temperature or light conditions, a substitution reaction can occur. For example, when exposed to halogen elements in light, halogen atoms can replace hydrogen atoms on alkanes.
The amino group (-NH2O) is a functional group with active properties. It is alkaline. Because there are lone pairs of electrons on the nitrogen atom, it can bind to protons (H 🥰), so it can react with acids to form salts. And the nitrogen atom of the amino group can participate in the nucleophilic reaction. Under appropriate conditions, it can attack molecules with electrophilic centers, resulting in substitution, addition and other reactions.
In addition, the p-diethoxy benzene part, ethoxy (-OCH -2 CH
) as the power supply group, can increase the electron cloud density of the benzene ring, making the benzene ring more prone to electrophilic substitution. Similar to the general benzene ring, electrophilic substitution reactions such as halogenation, nitrification, and sulfonation can occur, and due to the localization effect of ethoxy groups, the substituents mainly enter the para-position and ortho-position of the ethoxy group, especially the para-position products.
In addition, different functional groups in the molecule of this substance may interact with each other. The electron action of the amino group may enhance the reactivity of the benzene ring, and the presence of the benzene ring and the alkane part may also affect the alkalinity of the amino group. In short, the chemical properties of 5 + -alkane-2-amino-p-diethoxy benzene are determined by the coordination of its functional groups, and they exhibit various chemical behaviors under different reaction conditions.
What are the main uses of 5-chloro-2-nitro-p-diethoxybenzene?
5-Hydroxy-2-amino-p-diethoxyanisole, this substance has a wide range of uses. In medicine, it is a key raw material for the synthesis of many drugs. Due to its specific chemical structure and activity, it can be chemically modified and reacted to produce drugs with excellent curative effect, such as drugs with therapeutic effect on specific diseases, which can help human health, or used as model compounds in pharmacological research to help researchers explore the mechanism of drug action and potential uses.
In the chemical industry, it also plays an important role. It can be used as an intermediate in organic synthesis, converted into other high-value compounds through a series of reactions, and used in the production of fine chemicals such as dyes and fragrances. Taking dyes as an example, they can endow dyes with unique color and properties, and improve the quality and application range of dyes.
In the field of materials science, it may participate in the preparation of materials with specific functions. By virtue of its own characteristics, it endows materials with special properties such as electrical conductivity and optical activity, providing possibilities for the development of new materials, and has broad application prospects in the fields of electronic devices and optical materials.
With its unique chemical properties, this substance has applications that cannot be ignored in many fields such as medicine, chemical industry, and materials science, and has the power to promote the development of various fields.
In the chemical industry, it also plays an important role. It can be used as an intermediate in organic synthesis, converted into other high-value compounds through a series of reactions, and used in the production of fine chemicals such as dyes and fragrances. Taking dyes as an example, they can endow dyes with unique color and properties, and improve the quality and application range of dyes.
In the field of materials science, it may participate in the preparation of materials with specific functions. By virtue of its own characteristics, it endows materials with special properties such as electrical conductivity and optical activity, providing possibilities for the development of new materials, and has broad application prospects in the fields of electronic devices and optical materials.
With its unique chemical properties, this substance has applications that cannot be ignored in many fields such as medicine, chemical industry, and materials science, and has the power to promote the development of various fields.
What is the synthesis method of 5-chloro-2-nitro-p-diethoxybenzene?
To prepare 5-bromo-2-amino-p-diethoxy benzene, the method is as follows:
First take an appropriate starting material, use benzene as a group, and introduce ethoxy at a specific position in the benzene ring. Under suitable catalyst and reaction conditions, benzene and haloethane can be connected to the benzene ring according to the principle of nucleophilic substitution reaction. This step requires attention to the reaction temperature, time and catalyst dosage to ensure that the ethoxy group is accurately connected to the target position to obtain a benzene derivative containing diethoxy.
Then, bromine atoms are introduced into the derivative. Liquid bromine can be selected as the bromine source. Under the catalysis of suitable catalysts, such as iron filings or iron tribromide, the bromine and the benzene ring undergo electrophilic substitution reaction. Due to the positioning effect of ethoxy groups on the benzene ring, bromine atoms can be guided to preferentially access specific positions. In this process, the reaction parameters should also be fine-tuned to make bromine atoms accurately access the required check points to obtain benzene compounds containing diethoxy groups and bromine.
The last step is to realize the introduction of amino groups. By means of nitro reduction, the benzene compounds containing bromine and diethoxy groups can be nitrified with concentrated nitric acid and concentrated sulfuric acid mixed acids, and nitro groups can be introduced at suitable positions. This process requires strict conditions such as reaction temperature and acid concentration ratio, and requires careful operation. After the introduction of nitro groups, the nitro groups are reduced to amino groups with suitable reducing agents, such as iron and hydrochloric acid, to obtain 5-bromo-2-amino-p-diethoxybenzene.
Each step of the reaction requires fine control of the reaction conditions, and the products in each step need to be properly separated and purified to ensure the purity and yield of the final product.
First take an appropriate starting material, use benzene as a group, and introduce ethoxy at a specific position in the benzene ring. Under suitable catalyst and reaction conditions, benzene and haloethane can be connected to the benzene ring according to the principle of nucleophilic substitution reaction. This step requires attention to the reaction temperature, time and catalyst dosage to ensure that the ethoxy group is accurately connected to the target position to obtain a benzene derivative containing diethoxy.
Then, bromine atoms are introduced into the derivative. Liquid bromine can be selected as the bromine source. Under the catalysis of suitable catalysts, such as iron filings or iron tribromide, the bromine and the benzene ring undergo electrophilic substitution reaction. Due to the positioning effect of ethoxy groups on the benzene ring, bromine atoms can be guided to preferentially access specific positions. In this process, the reaction parameters should also be fine-tuned to make bromine atoms accurately access the required check points to obtain benzene compounds containing diethoxy groups and bromine.
The last step is to realize the introduction of amino groups. By means of nitro reduction, the benzene compounds containing bromine and diethoxy groups can be nitrified with concentrated nitric acid and concentrated sulfuric acid mixed acids, and nitro groups can be introduced at suitable positions. This process requires strict conditions such as reaction temperature and acid concentration ratio, and requires careful operation. After the introduction of nitro groups, the nitro groups are reduced to amino groups with suitable reducing agents, such as iron and hydrochloric acid, to obtain 5-bromo-2-amino-p-diethoxybenzene.
Each step of the reaction requires fine control of the reaction conditions, and the products in each step need to be properly separated and purified to ensure the purity and yield of the final product.
What are the precautions for storing and transporting 5-chloro-2-nitro-p-diethoxybenzene?
5 + -Alkane-2-amino-p-diethoxybenzene should pay attention to the following things during storage and transportation:
First, because of its nature or more active, the storage place must be cool and dry, away from fire and heat sources, in order to prevent the temperature from being too high to cause it to react and cause danger. Do not place it in direct sunlight, sunlight or raise the temperature, which will affect its stability.
Second, the storage environment must be well ventilated. When this substance is stored, it may emit certain gases. If the ventilation is not smooth, the gas will accumulate, which may affect the properties of the substance itself. Second, it may cause safety hazards, such as high gas concentration and open flame explosion.
Third, during transportation, ensure that the packaging is intact. If the packaging is damaged, the substance or leakage will not only cause losses, but also pose a threat to the transportation environment and personnel safety. The packaging materials used should have good sealing and corrosion resistance, which can effectively protect the substances from external factors.
Fourth, it needs to be stored and transported separately from oxidants, acids, alkalis and other substances. Due to its chemical properties, contact with these substances is prone to chemical reactions, or produce toxic gases, or cause violent reactions, which are extremely harmful.
Fifth, during handling, the operator should handle it with care to avoid collisions and falls. Violent vibration or damage to the packaging may also cause accidents due to friction. And the operator should be equipped with appropriate protective equipment, such as gloves, masks, etc., to prevent direct contact with the substance and ensure their own safety.
First, because of its nature or more active, the storage place must be cool and dry, away from fire and heat sources, in order to prevent the temperature from being too high to cause it to react and cause danger. Do not place it in direct sunlight, sunlight or raise the temperature, which will affect its stability.
Second, the storage environment must be well ventilated. When this substance is stored, it may emit certain gases. If the ventilation is not smooth, the gas will accumulate, which may affect the properties of the substance itself. Second, it may cause safety hazards, such as high gas concentration and open flame explosion.
Third, during transportation, ensure that the packaging is intact. If the packaging is damaged, the substance or leakage will not only cause losses, but also pose a threat to the transportation environment and personnel safety. The packaging materials used should have good sealing and corrosion resistance, which can effectively protect the substances from external factors.
Fourth, it needs to be stored and transported separately from oxidants, acids, alkalis and other substances. Due to its chemical properties, contact with these substances is prone to chemical reactions, or produce toxic gases, or cause violent reactions, which are extremely harmful.
Fifth, during handling, the operator should handle it with care to avoid collisions and falls. Violent vibration or damage to the packaging may also cause accidents due to friction. And the operator should be equipped with appropriate protective equipment, such as gloves, masks, etc., to prevent direct contact with the substance and ensure their own safety.
What are the effects of 5-chloro-2-nitro-p-diethoxybenzene on the environment and human health?
5-Bromo-2-amino-p-diethoxybenzene has a serious impact on the environment and human health, and this is stated in ancient Chinese.
At one end of the environment, this substance is quite toxic. If it enters the water body, the aquatic life will bear the brunt. Take fish as an example, 5-bromo-2-amino-p-diethoxybenzene or fish cause physiological disorders, damage to gills, difficulty breathing, and even death. And because of its chemical stability, it is difficult to degrade in water bodies, will remain for a long time, gradually accumulate, cause imbalance in water ecosystems, inhibit the growth of aquatic plants, hinder photosynthesis, affect the supply of dissolved oxygen in water, and destroy the balance of the entire water ecology.
If released in soil, it can change the physical and chemical properties of soil. Interact with minerals and organic matter in the soil, or change the pH of the soil, resulting in a decrease in soil fertility. Plant roots are exposed to this substance, which hinders the absorption of nutrients and water functions. Plants are short, leaves are withered, and crop yields are also common. In the long run, it has a profound impact on regional agricultural production.
As for human health, its harm should not be underestimated. It can invade the human body through respiration, skin contact, or accidental ingestion. In the respiratory system, it can irritate the mucosa of the respiratory tract, causing symptoms such as cough, asthma, and breathing difficulties. Long-term exposure, or cause lung diseases, such as pulmonary fibrosis, seriously affect the ventilation and ventilation function of the lungs.
For the nervous system, 5-bromo-2-amino-p-diethoxybenzene or interfere with the transmission of neurotransmitters, causing symptoms such as headache, dizziness, fatigue, and memory loss. What's more, it can damage nervous system cells, affect nerve signaling, and cause serious consequences such as limb numbness and movement disorders. And this substance may be carcinogenic, long-term exposure increases the risk of cancer, threatening human life and health. Therefore, the control and prevention of this substance is a top priority, which is related to environmental ecology and people's well-being.
At one end of the environment, this substance is quite toxic. If it enters the water body, the aquatic life will bear the brunt. Take fish as an example, 5-bromo-2-amino-p-diethoxybenzene or fish cause physiological disorders, damage to gills, difficulty breathing, and even death. And because of its chemical stability, it is difficult to degrade in water bodies, will remain for a long time, gradually accumulate, cause imbalance in water ecosystems, inhibit the growth of aquatic plants, hinder photosynthesis, affect the supply of dissolved oxygen in water, and destroy the balance of the entire water ecology.
If released in soil, it can change the physical and chemical properties of soil. Interact with minerals and organic matter in the soil, or change the pH of the soil, resulting in a decrease in soil fertility. Plant roots are exposed to this substance, which hinders the absorption of nutrients and water functions. Plants are short, leaves are withered, and crop yields are also common. In the long run, it has a profound impact on regional agricultural production.
As for human health, its harm should not be underestimated. It can invade the human body through respiration, skin contact, or accidental ingestion. In the respiratory system, it can irritate the mucosa of the respiratory tract, causing symptoms such as cough, asthma, and breathing difficulties. Long-term exposure, or cause lung diseases, such as pulmonary fibrosis, seriously affect the ventilation and ventilation function of the lungs.
For the nervous system, 5-bromo-2-amino-p-diethoxybenzene or interfere with the transmission of neurotransmitters, causing symptoms such as headache, dizziness, fatigue, and memory loss. What's more, it can damage nervous system cells, affect nerve signaling, and cause serious consequences such as limb numbness and movement disorders. And this substance may be carcinogenic, long-term exposure increases the risk of cancer, threatening human life and health. Therefore, the control and prevention of this substance is a top priority, which is related to environmental ecology and people's well-being.
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