Linshang Chemical
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1,2-Dichloro-4-(1-Piperazino)Benzene
Linshang Chemical
|
HS Code |
833283 |
| Chemical Formula | C10H12Cl2N2 |
| Molar Mass | 233.12 g/mol |
| Appearance | Solid (usually white or off - white) |
| Melting Point | 158 - 162 °C |
| Solubility In Water | Low solubility |
| Solubility In Organic Solvents | Soluble in some organic solvents like dichloromethane, chloroform |
| Pka | No common pKa value as it is mainly a neutral organic compound |
| Vapor Pressure | Very low at room temperature |
As an accredited 1,2-Dichloro-4-(1-Piperazino)Benzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of 1,2 - dichloro - 4 - (1 - piperazino)benzene in sealed chemical - grade bags. |
| Storage | 1,2 - dichloro - 4 - (1 - piperazino)benzene should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in a tightly closed container to prevent moisture absorption and evaporation. This helps maintain its chemical stability and reduces the risk of potential hazards. |
| Shipping | 1,2 - dichloro - 4 - (1 - piperazino)benzene is shipped in sealed, corrosion - resistant containers. Special care is taken to prevent leakage during transit, following strict chemical transportation regulations to ensure safety. |
Competitive 1,2-Dichloro-4-(1-Piperazino)Benzene 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-4- (1-piperazinyl) benzene?
1% 2C2 + - + dioxy + - + 4- (1-amino) benzene has many main uses. In the ancient things described in "Tiangong Kaiwu", such chemicals play an important role in many fields.
In the field of medicine, it is often the key raw material for the preparation of drugs. Due to its specific chemical structure and properties, it can participate in the key steps of drug synthesis and help to construct molecular structures with specific pharmacological activities. For example, in the synthesis path of some drugs targeting specific disease targets, 1% 2C2 + - + dioxy + - + 4- (1-amino) benzene can be used as a starting material or a key intermediate, and through a series of chemical reactions, finally generate drug molecules with therapeutic effects.
In the dye industry, this substance also plays an important role. With its own structural characteristics, it can be chemically modified to give dyes a unique color and good dyeing properties. It can interact with fibers and other materials to make dyes firmly adhere, showing a bright and long-lasting effect. Therefore, it is widely used in textile printing and dyeing industries to add rich and colorful colors to fabrics.
In the field of organic synthesis, 1% 2C2 + - + dioxy + - + 4 - (1-amino) benzene is an extremely important basic raw material. The synthesis of many complex organic compounds takes this as the starting point. Through ingenious design of chemical reaction routes and the use of their activity check points, more complex molecular structures are gradually constructed, thus providing important support for the research and development of new materials and the preparation of fine chemicals. It promotes the continuous development of organic synthetic chemistry and explores the vast world of new substances and new materials.
In the field of medicine, it is often the key raw material for the preparation of drugs. Due to its specific chemical structure and properties, it can participate in the key steps of drug synthesis and help to construct molecular structures with specific pharmacological activities. For example, in the synthesis path of some drugs targeting specific disease targets, 1% 2C2 + - + dioxy + - + 4- (1-amino) benzene can be used as a starting material or a key intermediate, and through a series of chemical reactions, finally generate drug molecules with therapeutic effects.
In the dye industry, this substance also plays an important role. With its own structural characteristics, it can be chemically modified to give dyes a unique color and good dyeing properties. It can interact with fibers and other materials to make dyes firmly adhere, showing a bright and long-lasting effect. Therefore, it is widely used in textile printing and dyeing industries to add rich and colorful colors to fabrics.
In the field of organic synthesis, 1% 2C2 + - + dioxy + - + 4 - (1-amino) benzene is an extremely important basic raw material. The synthesis of many complex organic compounds takes this as the starting point. Through ingenious design of chemical reaction routes and the use of their activity check points, more complex molecular structures are gradually constructed, thus providing important support for the research and development of new materials and the preparation of fine chemicals. It promotes the continuous development of organic synthetic chemistry and explores the vast world of new substances and new materials.
What are the physical properties of 1,2-dichloro-4- (1-piperazinyl) benzene?
1% 2C2 dideuterium-4- (1-imidazolyl) pyridine is an organic compound, and its physical properties are particularly important, which is related to various applications of this compound. The following details its physical properties:
- ** State and color **: Under normal conditions, 1% 2C2 dideuterium-4- (1-imidazolyl) pyridine is mostly solid and usually white or nearly white powder. This feature is convenient for observation and processing in various experiments and production scenarios. The white or off-white powder morphology indicates that the compound has high purity and low impurity content, which is conducive to accurate follow-up research and application.
- ** Melting point **: This compound has a specific melting point, generally around [specific value] ° C. Melting point is a key indicator for identifying the purity and characteristics of the compound. By accurately measuring the melting point, it can be determined whether the compound is pure. If the melting point deviates from the theoretical value or the melting range becomes wider, it is very likely to be mixed with impurities. Accurate control of the melting point is of great significance for the separation, purification and identification of compounds.
- ** Solubility **: 1% 2C2 dideuterium-4 - (1-imidazolyl) pyridine exhibits different solubility in various organic solvents. For example, in common organic solvents such as ethanol and dichloromethane, it has good solubility and can quickly dissolve to form a uniform solution. However, the solubility in water is relatively weak. This solubility characteristic is crucial in the fields of organic synthesis and drug development. In organic synthesis, a suitable solvent can be selected according to its solubility to promote the smooth progress of the reaction. In drug development, solubility affects the absorption and bioavailability of drugs.
- ** Density **: The density of this compound is about [specific value] g/cm ³. Density, as one of the physical properties, is of great significance in chemical production and quality control. Knowing the density, the compound solution can be accurately measured and prepared to ensure the accuracy of production and experiment. At the same time, the density data also guides the storage and transportation of the compound, and helps to choose the appropriate packaging and storage conditions.
- ** State and color **: Under normal conditions, 1% 2C2 dideuterium-4- (1-imidazolyl) pyridine is mostly solid and usually white or nearly white powder. This feature is convenient for observation and processing in various experiments and production scenarios. The white or off-white powder morphology indicates that the compound has high purity and low impurity content, which is conducive to accurate follow-up research and application.
- ** Melting point **: This compound has a specific melting point, generally around [specific value] ° C. Melting point is a key indicator for identifying the purity and characteristics of the compound. By accurately measuring the melting point, it can be determined whether the compound is pure. If the melting point deviates from the theoretical value or the melting range becomes wider, it is very likely to be mixed with impurities. Accurate control of the melting point is of great significance for the separation, purification and identification of compounds.
- ** Solubility **: 1% 2C2 dideuterium-4 - (1-imidazolyl) pyridine exhibits different solubility in various organic solvents. For example, in common organic solvents such as ethanol and dichloromethane, it has good solubility and can quickly dissolve to form a uniform solution. However, the solubility in water is relatively weak. This solubility characteristic is crucial in the fields of organic synthesis and drug development. In organic synthesis, a suitable solvent can be selected according to its solubility to promote the smooth progress of the reaction. In drug development, solubility affects the absorption and bioavailability of drugs.
- ** Density **: The density of this compound is about [specific value] g/cm ³. Density, as one of the physical properties, is of great significance in chemical production and quality control. Knowing the density, the compound solution can be accurately measured and prepared to ensure the accuracy of production and experiment. At the same time, the density data also guides the storage and transportation of the compound, and helps to choose the appropriate packaging and storage conditions.
What are the chemical properties of 1,2-dichloro-4- (1-piperazinyl) benzene?
1,2-Dioxide-4- (1-imidazolyl) benzene, an organic compound. Its chemical properties are rich and unique, and it is widely used in the field of organic synthesis and materials science.
In this compound, two oxygen atoms are connected to the benzene ring to form a dioxide structure, giving it a specific electron cloud distribution and reactivity. The introduction of 1-imidazolyl adds another chemical property to it. Imidazolyl is a nitrogen-containing heterocyclic ring with certain basicity and coordination ability. It can complex with metal ions to form complexes, which is of great significance in catalysis, biomedicine and other fields.
In terms of reactivity, the electrophilic substitution reaction can occur on the benzene ring of the compound. Due to the influence of the dioxide structure and the imidazolyl group, the electron cloud density of the benzene ring changes, and the specific position is more susceptible to the attack of electrophilic reagents, such as halogenation, nitrification, sulfonation and other reactions may occur.
In terms of redox properties, the oxygen atoms and imidazolyl groups contained in the compound can participate in the redox process. Under appropriate conditions, the oxygen atoms can be reduced, or the valence state of the nitrogen atoms in the imidazolyl group changes, showing unique redox activity, which may have potential applications in the field of energy storage and conversion materials.
In addition, due to the presence of polar groups in the structure of the compound, it has certain solubility It is soluble in some organic solvents, and can self-assemble to form an ordered structure due to the interaction of intermolecular hydrogen bonds 、π - π stacking, which is of research value in the field of supramolecular chemistry.
The unique chemical structure of 1,2-dioxide-4- (1-imidazolyl) benzene presents a variety of chemical properties, providing a broad space for research and application in many scientific fields.
In this compound, two oxygen atoms are connected to the benzene ring to form a dioxide structure, giving it a specific electron cloud distribution and reactivity. The introduction of 1-imidazolyl adds another chemical property to it. Imidazolyl is a nitrogen-containing heterocyclic ring with certain basicity and coordination ability. It can complex with metal ions to form complexes, which is of great significance in catalysis, biomedicine and other fields.
In terms of reactivity, the electrophilic substitution reaction can occur on the benzene ring of the compound. Due to the influence of the dioxide structure and the imidazolyl group, the electron cloud density of the benzene ring changes, and the specific position is more susceptible to the attack of electrophilic reagents, such as halogenation, nitrification, sulfonation and other reactions may occur.
In terms of redox properties, the oxygen atoms and imidazolyl groups contained in the compound can participate in the redox process. Under appropriate conditions, the oxygen atoms can be reduced, or the valence state of the nitrogen atoms in the imidazolyl group changes, showing unique redox activity, which may have potential applications in the field of energy storage and conversion materials.
In addition, due to the presence of polar groups in the structure of the compound, it has certain solubility It is soluble in some organic solvents, and can self-assemble to form an ordered structure due to the interaction of intermolecular hydrogen bonds 、π - π stacking, which is of research value in the field of supramolecular chemistry.
The unique chemical structure of 1,2-dioxide-4- (1-imidazolyl) benzene presents a variety of chemical properties, providing a broad space for research and application in many scientific fields.
What are the synthesis methods of 1,2-dichloro-4- (1-piperazinyl) benzene?
The synthesis method of 1% 2C2-dioxy-4- (1-imidazolyl) pyridine is not directly described in Tiangong Kaiwu, but it can be inferred from the ancient chemical process ideas and related similar synthesis ideas.
First, raw material selection and pretreatment. To obtain this compound, raw materials containing nitrogen, oxygen and pyridine structures should be obtained first. Ancient chemistry often begins with natural things. Plants containing pyridine alkaloids can be found, and crude extracts containing pyridine components can be obtained by grinding, leaching, etc. For imidazolyl-containing raw materials, or can be explored from certain fungi and plant exudates, and purified by processing to suit subsequent reactions.
Second, the simulation of the reaction process. Ancient chemical processes relied on heating, catalysis and other means. A closed container can be set up, with pottery or porcelain for it, and the raw materials for pretreatment should be placed in proportion. When heating, temperature control is required, and the ancients made it according to the temperature and time experience. Or natural catalysts can be found, such as some metal ore powders, and added to it to promote the reaction. During the reaction, closely observe its color, odor and morphology changes to judge the reaction process.
Third, the product is separated and purified. After the reaction, the product is mixed with impurities. The ancients used distillation to separate the fractions containing the target product according to the difference in the boiling point of each component. Recrystallization can also be used to select a suitable solvent and blend, cool down and let stand, so that the target product crystallizes and precipitates, and then filter and dry to obtain a relatively pure 1% 2C2-dioxy-4- (1-imidazolyl) pyridine.
Although the synthesis of this compound is not detailed in "Tiangong Kaiwu", the ancient chemical wisdom and technological methods can provide reference for modern synthesis research. After exploration and practice, it may be possible to reproduce the synthesis path that is in line with the ancient concept.
First, raw material selection and pretreatment. To obtain this compound, raw materials containing nitrogen, oxygen and pyridine structures should be obtained first. Ancient chemistry often begins with natural things. Plants containing pyridine alkaloids can be found, and crude extracts containing pyridine components can be obtained by grinding, leaching, etc. For imidazolyl-containing raw materials, or can be explored from certain fungi and plant exudates, and purified by processing to suit subsequent reactions.
Second, the simulation of the reaction process. Ancient chemical processes relied on heating, catalysis and other means. A closed container can be set up, with pottery or porcelain for it, and the raw materials for pretreatment should be placed in proportion. When heating, temperature control is required, and the ancients made it according to the temperature and time experience. Or natural catalysts can be found, such as some metal ore powders, and added to it to promote the reaction. During the reaction, closely observe its color, odor and morphology changes to judge the reaction process.
Third, the product is separated and purified. After the reaction, the product is mixed with impurities. The ancients used distillation to separate the fractions containing the target product according to the difference in the boiling point of each component. Recrystallization can also be used to select a suitable solvent and blend, cool down and let stand, so that the target product crystallizes and precipitates, and then filter and dry to obtain a relatively pure 1% 2C2-dioxy-4- (1-imidazolyl) pyridine.
Although the synthesis of this compound is not detailed in "Tiangong Kaiwu", the ancient chemical wisdom and technological methods can provide reference for modern synthesis research. After exploration and practice, it may be possible to reproduce the synthesis path that is in line with the ancient concept.
What are the precautions for storing and transporting 1,2-dichloro-4- (1-piperazinyl) benzene?
1% 2C2 + - + dioxy + - + 4 - (1-amino) benzene requires attention to the following matters during storage and transportation.
This substance is chemically active and should be stored under the first environmental conditions. It should be placed in a cool, dry and well-ventilated place, away from fire and heat sources. Because it is sensitive to temperature and humidity, high temperature and humidity may cause chemical reactions, damage quality, or even cause danger. For example, high temperature may accelerate its decomposition and release harmful gases.
When storing, also pay attention to packaging. Packaging must be tight and sealed to prevent contact with air and moisture. Special containers can be used, such as corrosion-resistant, well-sealed glass bottles or metal cans, and ensure that the material of the container does not react with the substance. If the package is damaged, the substance comes into contact with air or moisture, or deteriorates or fails, it may also cause the risk of leakage.
The transportation process is also critical. The transportation tool should be clean, dry and free of other chemical residues to prevent cross-contamination. Strict temperature control is required during transportation, and temperature control equipment is equipped when necessary to ensure that the transportation environment meets the storage requirements of the substance. Care should also be taken during loading and unloading to avoid damage caused by packaging collision and extrusion.
In addition, relevant regulations and safety standards should be followed whether it is storage or transportation. Operators need to be professionally trained and familiar with the characteristics of the substance and safe operation procedures. Storage areas and transportation vehicles should be equipped with appropriate safety facilities, such as fire-fighting equipment, leakage emergency treatment equipment, etc., so as to respond quickly in case of emergencies and reduce hazards.
This substance is chemically active and should be stored under the first environmental conditions. It should be placed in a cool, dry and well-ventilated place, away from fire and heat sources. Because it is sensitive to temperature and humidity, high temperature and humidity may cause chemical reactions, damage quality, or even cause danger. For example, high temperature may accelerate its decomposition and release harmful gases.
When storing, also pay attention to packaging. Packaging must be tight and sealed to prevent contact with air and moisture. Special containers can be used, such as corrosion-resistant, well-sealed glass bottles or metal cans, and ensure that the material of the container does not react with the substance. If the package is damaged, the substance comes into contact with air or moisture, or deteriorates or fails, it may also cause the risk of leakage.
The transportation process is also critical. The transportation tool should be clean, dry and free of other chemical residues to prevent cross-contamination. Strict temperature control is required during transportation, and temperature control equipment is equipped when necessary to ensure that the transportation environment meets the storage requirements of the substance. Care should also be taken during loading and unloading to avoid damage caused by packaging collision and extrusion.
In addition, relevant regulations and safety standards should be followed whether it is storage or transportation. Operators need to be professionally trained and familiar with the characteristics of the substance and safe operation procedures. Storage areas and transportation vehicles should be equipped with appropriate safety facilities, such as fire-fighting equipment, leakage emergency treatment equipment, etc., so as to respond quickly in case of emergencies and reduce hazards.
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