Linshang Chemical
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2-Chlorobenzenecarbaldehyde Oxime
Linshang Chemical
|
HS Code |
527183 |
| Chemical Formula | C7H6ClNO |
| Molar Mass | 155.58 g/mol |
| Appearance | Solid |
| Melting Point | 95 - 99 °C |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in common organic solvents like ethanol, acetone |
| Odor | Characteristic, likely pungent |
As an accredited 2-Chlorobenzenecarbaldehyde Oxime factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 250g of 2 - chlorobenzenecarbaldehyde Oxime packaged in a sealed chemical - grade bottle. |
| Storage | 2 - Chlorobenzenecarbaldehyde oxime should be stored in a cool, dry, well - ventilated area, away from heat sources and open flames. Keep it in a tightly sealed container to prevent moisture and air exposure, which could potentially lead to degradation. Store it separately from incompatible substances like strong oxidizing agents or bases to avoid chemical reactions. |
| Shipping | 2 - Chlorobenzenecarbaldehyde Oxime is shipped in well - sealed, corrosion - resistant containers. It adheres to strict hazardous chemical shipping regulations, ensuring proper handling and protection during transit to prevent spills and exposure. |
Competitive 2-Chlorobenzenecarbaldehyde Oxime 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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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-Chlorobenzenecarbaldehyde Oxime 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 2-chlorobenzaldehyde oxime?
2-% cyanoacetamidoxime ether is also an organic compound. Its properties have various characteristics and are quite important in the fields of chemical industry and medicine.
On its chemical properties, first and foremost stability. Under normal conditions, this compound is slightly stable, but when it encounters strong acids, strong bases, or hot topics, it is easy to change. If it encounters strong acids, its cyano group may be hydrolyzed and turned into carboxyl groups; when it encounters strong bases, the structure of oxime ethers may also be affected, causing its molecular structure to be rearranged.
Reactivity is also important. The cyanyl group of 2-% cyanoacetamide oxime ether has high reactivity and can participate in nucleophilic addition and nucleophilic substitution reactions. If it encounters alcohols, the cyanyl group can react with the alcohol hydroxyl group under appropriate catalytic conditions to form corresponding ester derivatives. The oxime ether part can also participate in specific organic reactions, such as condensation reactions with certain aldars and ketones, to build more complex organic structures.
In terms of solubility, it has good solubility in common organic solvents such as ethanol, acetone, dichloromethane, etc. However, the solubility in water is relatively low. This property makes it possible to use organic solvents as reaction media during organic synthesis operations to facilitate the progress of the reaction and the separation of the product.
Furthermore, the chemical properties of 2-% cyanoacetamide oxime ether make it an extraordinary potential in the field of pharmaceutical creation. Due to its special structure and reactivity, it can be chemically modified to develop drug molecules with specific pharmacological activities, providing important starting materials and structural templates for the development of new drugs. In chemical production, it can also be used as a precursor to synthesize special materials or functional aids, with its reactivity, introducing unique functional groups and imparting specific properties to materials.
On its chemical properties, first and foremost stability. Under normal conditions, this compound is slightly stable, but when it encounters strong acids, strong bases, or hot topics, it is easy to change. If it encounters strong acids, its cyano group may be hydrolyzed and turned into carboxyl groups; when it encounters strong bases, the structure of oxime ethers may also be affected, causing its molecular structure to be rearranged.
Reactivity is also important. The cyanyl group of 2-% cyanoacetamide oxime ether has high reactivity and can participate in nucleophilic addition and nucleophilic substitution reactions. If it encounters alcohols, the cyanyl group can react with the alcohol hydroxyl group under appropriate catalytic conditions to form corresponding ester derivatives. The oxime ether part can also participate in specific organic reactions, such as condensation reactions with certain aldars and ketones, to build more complex organic structures.
In terms of solubility, it has good solubility in common organic solvents such as ethanol, acetone, dichloromethane, etc. However, the solubility in water is relatively low. This property makes it possible to use organic solvents as reaction media during organic synthesis operations to facilitate the progress of the reaction and the separation of the product.
Furthermore, the chemical properties of 2-% cyanoacetamide oxime ether make it an extraordinary potential in the field of pharmaceutical creation. Due to its special structure and reactivity, it can be chemically modified to develop drug molecules with specific pharmacological activities, providing important starting materials and structural templates for the development of new drugs. In chemical production, it can also be used as a precursor to synthesize special materials or functional aids, with its reactivity, introducing unique functional groups and imparting specific properties to materials.
What are the synthesis methods of 2-chlorobenzaldehyde oxime?
To prepare 2-bromopropane alcohol ether, there are various synthesis methods. One is to use propene alcohol and bromopropane as raw materials and obtain it through the reaction of nucleophilic substitution. In this reaction, the hydroxyl group of propene alcohol is a nucleophilic reagent, and the bromine atom of bromopropane is an electrophilic center. When the two meet, the hydroxyl group attacks the carbon connected to the bromine atom, and the bromine ion leaves, then forms 2-bromopropane alcohol ether. The reaction conditions need to choose a suitable solvent, such as a polar aprotic solvent, to facilitate the reaction, and often need the help of a catalyst to improve the reaction rate.
There is also a method of brominating propane to obtain 2-bromopropane, and then reacting with ethylene oxide. When propanol is brominated, suitable brominating reagents, such as phosphorus tribromide, can be selected to replace the hydroxyl group with bromine atoms to obtain 2-bromopropane. Then 2-bromopropane reacts with ethylene oxide under alkali catalysis, ethylene oxide opens the ring, connects with 2-bromopropane, and finally obtains the target product. In this process, the type and dosage of bases, reaction temperature and other factors have a great influence on the reaction.
Furthermore, propanol can be obtained by reduction from propionaldehyde, and then prepared by the aforementioned method of propanol. The reduction of propionaldehyde can be selected from reducing agents such as lithium aluminum hydride and sodium borohydride. The aldehyde group is reduced to a hydroxyl group to obtain propanol. The subsequent steps are as described above, through bromination, reaction with ethylene oxide, etc., to form 2-bromopropanol ether. Each step of the reaction requires fine regulation of the reaction conditions to ensure the purity and yield of the product. This method has its own advantages and disadvantages. When actually synthesizing, it is selected according to the availability of raw materials, cost, and difficulty of reaction conditions.
There is also a method of brominating propane to obtain 2-bromopropane, and then reacting with ethylene oxide. When propanol is brominated, suitable brominating reagents, such as phosphorus tribromide, can be selected to replace the hydroxyl group with bromine atoms to obtain 2-bromopropane. Then 2-bromopropane reacts with ethylene oxide under alkali catalysis, ethylene oxide opens the ring, connects with 2-bromopropane, and finally obtains the target product. In this process, the type and dosage of bases, reaction temperature and other factors have a great influence on the reaction.
Furthermore, propanol can be obtained by reduction from propionaldehyde, and then prepared by the aforementioned method of propanol. The reduction of propionaldehyde can be selected from reducing agents such as lithium aluminum hydride and sodium borohydride. The aldehyde group is reduced to a hydroxyl group to obtain propanol. The subsequent steps are as described above, through bromination, reaction with ethylene oxide, etc., to form 2-bromopropanol ether. Each step of the reaction requires fine regulation of the reaction conditions to ensure the purity and yield of the product. This method has its own advantages and disadvantages. When actually synthesizing, it is selected according to the availability of raw materials, cost, and difficulty of reaction conditions.
In which fields is 2-chlorobenzaldehyde oxime used?
2-% silicomethyl ether is useful in a wide range of applications. The 2-% silicomethyl ether used in this study has general characteristics and is important for applications in fields such as engineering, engineering, and scientific research.
In the field of engineering, its application is of paramount importance. In terms of improving the power system, 2-% silicomethyl ether can be used as a special addition to improve fuel performance and improve the efficiency of power generation. Because it can promote the fuel to burn more fully, it can make the fuel more powerful, and travel faster and more fixed at sea, improving performance, so that it can be quickly delivered to the designated area first.
The field of engineering is also involved. In the fine chemical industry, 2-% silicomethyl ether is often used in the synthesis of chemical products. With its specialization, it can be used to synthesize high-value-added fine chemical products, such as special plastics, high-performance materials, etc. This product is widely used in high-end industries such as aerospace and sub-information, to promote the improvement of engineering technologies.
In the field of scientific research, 2-% silicomethyl ether is also an important research phenomenon. Researchers have used it to develop new materials and explore its strength in catalytic reaction and rice material production. Through the study of its chemical reaction, it is expected to create more efficient and reliable products, and provide new avenues for scientific research.
Therefore, 2-% silicomethyl ether plays an important role in different domains due to its unique properties, and the development of each domain is not successful.
In the field of engineering, its application is of paramount importance. In terms of improving the power system, 2-% silicomethyl ether can be used as a special addition to improve fuel performance and improve the efficiency of power generation. Because it can promote the fuel to burn more fully, it can make the fuel more powerful, and travel faster and more fixed at sea, improving performance, so that it can be quickly delivered to the designated area first.
The field of engineering is also involved. In the fine chemical industry, 2-% silicomethyl ether is often used in the synthesis of chemical products. With its specialization, it can be used to synthesize high-value-added fine chemical products, such as special plastics, high-performance materials, etc. This product is widely used in high-end industries such as aerospace and sub-information, to promote the improvement of engineering technologies.
In the field of scientific research, 2-% silicomethyl ether is also an important research phenomenon. Researchers have used it to develop new materials and explore its strength in catalytic reaction and rice material production. Through the study of its chemical reaction, it is expected to create more efficient and reliable products, and provide new avenues for scientific research.
Therefore, 2-% silicomethyl ether plays an important role in different domains due to its unique properties, and the development of each domain is not successful.
What is the market prospect of 2-chlorobenzaldehyde oxime?
In today's world, the market prospect of methyl 2-chlorothiophene acetate is worth exploring.
In the field of Guanfu Chemical Industry, methyl 2-chlorothiophene acetate has a wide range of uses. It is a key intermediate in the synthesis of medicine. The production of many special drugs depends on this. Today, the world is increasingly eager for health, the pharmaceutical industry is booming, and new drug research and development is endless. This is where methyl 2-chlorothiophene acetate has created a broad range of applications. Doctors are increasingly concerned about its quality and purity. If they can refine the process and improve its quality, they can take the lead in the pharmaceutical market.
As for the genus of pesticides, methyl 2-chlorothiophene acetate is also indispensable. At present, agriculture is green, efficient and safe. Pesticides made based on this have the ability to kill insects and inhibit diseases efficiently, and have less residues, which is suitable for the needs of current agriculture. With the progress of agricultural modernization, large-scale operation has become more and more prosperous, and the demand for high-quality pesticides has also increased. Therefore, methyl 2-chlorothiophene acetate has a good prospect in the field of pesticides.
However, although there are many market opportunities, there are also challenges. Chemical production, environmental protection is the top priority. The production of methyl 2-chlorothiophene acetate may involve the risk of pollution. If you want to thrive, you must focus on environmental protection processes, reduce pollution and reduce emissions, and follow world regulations and national laws. Furthermore, competition in the same industry must be fierce. If you want to stand out, you need to re-develop, create exclusive technologies, reduce its costs, and improve its effectiveness in order to stabilize the tide.
Overall, the demand for methyl 2-chlorothiophene acetate in the fields of medicine and pesticides is expected to gradually rise, and the future is bright. If you want to be a big business, you must respond to the needs of environmental protection, resist the pressure of competition, and take innovation as your wing, so that you can soar in the sky of the market.
In the field of Guanfu Chemical Industry, methyl 2-chlorothiophene acetate has a wide range of uses. It is a key intermediate in the synthesis of medicine. The production of many special drugs depends on this. Today, the world is increasingly eager for health, the pharmaceutical industry is booming, and new drug research and development is endless. This is where methyl 2-chlorothiophene acetate has created a broad range of applications. Doctors are increasingly concerned about its quality and purity. If they can refine the process and improve its quality, they can take the lead in the pharmaceutical market.
As for the genus of pesticides, methyl 2-chlorothiophene acetate is also indispensable. At present, agriculture is green, efficient and safe. Pesticides made based on this have the ability to kill insects and inhibit diseases efficiently, and have less residues, which is suitable for the needs of current agriculture. With the progress of agricultural modernization, large-scale operation has become more and more prosperous, and the demand for high-quality pesticides has also increased. Therefore, methyl 2-chlorothiophene acetate has a good prospect in the field of pesticides.
However, although there are many market opportunities, there are also challenges. Chemical production, environmental protection is the top priority. The production of methyl 2-chlorothiophene acetate may involve the risk of pollution. If you want to thrive, you must focus on environmental protection processes, reduce pollution and reduce emissions, and follow world regulations and national laws. Furthermore, competition in the same industry must be fierce. If you want to stand out, you need to re-develop, create exclusive technologies, reduce its costs, and improve its effectiveness in order to stabilize the tide.
Overall, the demand for methyl 2-chlorothiophene acetate in the fields of medicine and pesticides is expected to gradually rise, and the future is bright. If you want to be a big business, you must respond to the needs of environmental protection, resist the pressure of competition, and take innovation as your wing, so that you can soar in the sky of the market.
What are the storage conditions for 2-chlorobenzaldehyde oxime?
The storage conditions of a 2-% bromothiophene acetohydrazide ship are crucial to maintaining its quality and utility. According to the concept of "Tiangong Kaiwu" and the general principles of storage of various things, the details are as follows:
First, it should be placed in a cool place. 2-% bromothiophene acetohydrazide ships are ship-like or heat-resistant, and high temperature can easily cause its composition variation and properties to change. If exposed to hot sun or high temperature environment, its internal structure or chemical reaction will cause damage to its efficacy. As recorded in "Tiangong Kaiwu", most materials are stored in a cool place to protect their properties. Therefore, when hiding this ship, you should look for a cool place and stay away from heat sources, such as furnace fire and direct sunlight.
Second, a dry environment is required. Moisture is often the cause of decay, and 2-% bromothiophene acetohydrazide ships are susceptible to moisture erosion if they are in a humid place. Water liquids may cause them to dissolve, mildew, or cause reactions such as hydrolysis, which will damage their quality. Like many raw materials mentioned in the book, they are all moisture-proof and stored. A desiccant can be prepared in a storage place, and a well-ventilated place should be selected to make moisture difficult to aggregate.
Third, they should be protected from light. Light can also promote chemical reactions, and 2-% bromothiophene acetohydrazide ships may be sensitive to light. Long-term light exposure may break chemical bonds and rearrange molecular structures, affecting their performance. " Although Tiangong Kaiwu does not elaborate on the influence of light on things, according to today's scientific understanding, protection from light is the main rule for storage. It is advisable to use a shading container, such as a dark glass bottle or a cabinet covered with a shading cloth.
Fourth, sealed storage is essential. Excessive contact with air, 2-% bromothiophene acetylhydrazide ships may react with oxygen and carbon dioxide in the air. Sealing can prevent air intrusion and slow down the process of oxidation and carbonation. For example, the sealing method recorded in Tiangong Kaiwu can be used for storage on this ship and stored in a tightly sealed container.
All these storage conditions are to ensure that the 2-% bromothiophene acetohydrazide boat retains its inherent quality and extends its service life for emergencies, which is suitable for making the best use of materials.
First, it should be placed in a cool place. 2-% bromothiophene acetohydrazide ships are ship-like or heat-resistant, and high temperature can easily cause its composition variation and properties to change. If exposed to hot sun or high temperature environment, its internal structure or chemical reaction will cause damage to its efficacy. As recorded in "Tiangong Kaiwu", most materials are stored in a cool place to protect their properties. Therefore, when hiding this ship, you should look for a cool place and stay away from heat sources, such as furnace fire and direct sunlight.
Second, a dry environment is required. Moisture is often the cause of decay, and 2-% bromothiophene acetohydrazide ships are susceptible to moisture erosion if they are in a humid place. Water liquids may cause them to dissolve, mildew, or cause reactions such as hydrolysis, which will damage their quality. Like many raw materials mentioned in the book, they are all moisture-proof and stored. A desiccant can be prepared in a storage place, and a well-ventilated place should be selected to make moisture difficult to aggregate.
Third, they should be protected from light. Light can also promote chemical reactions, and 2-% bromothiophene acetohydrazide ships may be sensitive to light. Long-term light exposure may break chemical bonds and rearrange molecular structures, affecting their performance. " Although Tiangong Kaiwu does not elaborate on the influence of light on things, according to today's scientific understanding, protection from light is the main rule for storage. It is advisable to use a shading container, such as a dark glass bottle or a cabinet covered with a shading cloth.
Fourth, sealed storage is essential. Excessive contact with air, 2-% bromothiophene acetylhydrazide ships may react with oxygen and carbon dioxide in the air. Sealing can prevent air intrusion and slow down the process of oxidation and carbonation. For example, the sealing method recorded in Tiangong Kaiwu can be used for storage on this ship and stored in a tightly sealed container.
All these storage conditions are to ensure that the 2-% bromothiophene acetohydrazide boat retains its inherent quality and extends its service life for emergencies, which is suitable for making the best use of materials.
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