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1-Chloro-2-[2,2-Dichloro-1-(4-Chlorophenyl)Ethyl]Benzene
Linshang Chemical
|
HS Code |
252524 |
| Chemical Formula | C14H10Cl4 |
| Molar Mass | 320.04 g/mol |
| Appearance | Solid |
| Physical State | Solid at room temperature |
| Odor | May have a characteristic odor |
| Solubility | Insoluble in water, soluble in organic solvents |
| Vapor Pressure | Low vapor pressure |
As an accredited 1-Chloro-2-[2,2-Dichloro-1-(4-Chlorophenyl)Ethyl]Benzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of 1 - chloro - 2 - [2,2 - dichloro - 1 - (4 - chlorophenyl)ethyl]benzene in sealed plastic container. |
| Storage | 1 - chloro - 2 - [2,2 - dichloro - 1 - (4 - chlorophenyl)ethyl]benzene should be stored in a cool, dry, well - ventilated area, away from heat sources and ignition sources. Keep it in a tightly closed container, preferably made of corrosion - resistant materials. Store separately from oxidizing agents, acids, and bases to prevent chemical reactions. Label the storage clearly for easy identification and safety. |
| Shipping | 1 - chloro - 2 - [2,2 - dichloro - 1 - (4 - chlorophenyl)ethyl]benzene must be shipped in accordance with hazardous chemical regulations. Use proper, sealed containers and ensure compliance with transport safety and environmental protection requirements. |
Competitive 1-Chloro-2-[2,2-Dichloro-1-(4-Chlorophenyl)Ethyl]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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Where to Buy 1-Chloro-2-[2,2-Dichloro-1-(4-Chlorophenyl)Ethyl]Benzene in China?
As a trusted 1-Chloro-2-[2,2-Dichloro-1-(4-Chlorophenyl)Ethyl]Benzene manufacturer, we deliver:
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As a leading 1-Chloro-2-[2,2-Dichloro-1-(4-Chlorophenyl)Ethyl]Benzene 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 1-chloro-2 - [2,2-dichloro-1 - (4-chlorophenyl) ethyl] benzene?
In the context of "Tiangong Kaiji", the chemical properties of this substance (1+-+%E6%B0%AF+-+2+-+%5B2%2C2+-+%E4%BA%8C%E6%B0%AF+-+1+-+%284+-+%E6%B0%AF%E8%8B%AF%E5%9F%BA%29%E4%B9%99%E5%9F%BA%5D%E8%8B%AF) are as follows:
First, it has a certain stability. The interaction of the groups contained in its structure makes it difficult to spontaneously produce violent changes in the general environment. If it is at room temperature and pressure without the interference of special reagents, it can maintain its own shape and composition for a long time, and it is not easy to react with the surrounding common substances.
Second, when exposed to strong heat, the structure may change. Because the chemical bonds between the atoms may break and recombine under the impact of high temperature energy, and then decompose to produce new substances. For example, when placed in a special crucible and continuously calcined with intense heat, it can be seen that it is gradually deformed, and there may be gas escape, indicating that it has undergone a thermal decomposition reaction.
Third, it can be substituted with a specific reagent. When mixed with some reagents containing active atoms, with the assistance of a suitable temperature and catalyst, the atoms or groups in the specific position in its structure can be replaced by the corresponding parts of the reagent. This process requires strict control of the reaction conditions, otherwise the reaction may be difficult to occur or side reactions may occur.
Fourth, under specific acid-base environments, it exhibits different reaction characteristics. In a highly acidic environment, some of its structures may interact with the hydrogen ions in the acid, or cause some chemical bonds to break and atomic valence states to change; while in a strongly alkaline environment, due to the influence of hydroxide ions, different reaction pathways may be triggered, or new oxygen-containing compounds may be formed.
In short, the chemical properties of this substance are determined by its own complex structure and closely related to external environmental conditions, showing diverse reaction characteristics in different situations.
First, it has a certain stability. The interaction of the groups contained in its structure makes it difficult to spontaneously produce violent changes in the general environment. If it is at room temperature and pressure without the interference of special reagents, it can maintain its own shape and composition for a long time, and it is not easy to react with the surrounding common substances.
Second, when exposed to strong heat, the structure may change. Because the chemical bonds between the atoms may break and recombine under the impact of high temperature energy, and then decompose to produce new substances. For example, when placed in a special crucible and continuously calcined with intense heat, it can be seen that it is gradually deformed, and there may be gas escape, indicating that it has undergone a thermal decomposition reaction.
Third, it can be substituted with a specific reagent. When mixed with some reagents containing active atoms, with the assistance of a suitable temperature and catalyst, the atoms or groups in the specific position in its structure can be replaced by the corresponding parts of the reagent. This process requires strict control of the reaction conditions, otherwise the reaction may be difficult to occur or side reactions may occur.
Fourth, under specific acid-base environments, it exhibits different reaction characteristics. In a highly acidic environment, some of its structures may interact with the hydrogen ions in the acid, or cause some chemical bonds to break and atomic valence states to change; while in a strongly alkaline environment, due to the influence of hydroxide ions, different reaction pathways may be triggered, or new oxygen-containing compounds may be formed.
In short, the chemical properties of this substance are determined by its own complex structure and closely related to external environmental conditions, showing diverse reaction characteristics in different situations.
In what fields is 1-chloro-2 - [2,2-dichloro-1 - (4-chlorophenyl) ethyl] benzene used?
1 + --2- [2,2 -dioxide- 1 - (4 -tritium benzyl) ethyl] benzene has applications in many fields. In the field of medicine, with its unique chemical structure, it may be able to participate in the creation of new drugs. For example, in the development of some anti-tumor drugs, the structural properties of this compound can help to precisely target tumor cells, inhibit the growth and spread of tumor cells by interfering with specific metabolic pathways or signal transduction pathways of tumor cells, and provide new ideas for solving cancer problems.
In the field of materials science, it also has outstanding performance. It can be used as a key raw material for functional materials, and can be processed by specific processes to prepare polymer materials with special properties. For example, synthesized polymer materials may have excellent optical properties, which can be used in optical lenses, optoelectronic devices, etc.; or they may have good thermal stability and mechanical properties, which can be used in aerospace, automobile manufacturing and other industries that require strict material properties.
In the field of organic synthesis, it is an indispensable and important intermediate. Organic chemists can use it to use various chemical reactions to build more complex and diverse organic molecular structures. By carefully designing reaction paths and combining them with other organic compounds, a series of organic compounds with specific functions and uses can be synthesized, greatly expanding the boundaries of organic synthetic chemistry and injecting new vitality into the development of organic chemistry.
In the field of materials science, it also has outstanding performance. It can be used as a key raw material for functional materials, and can be processed by specific processes to prepare polymer materials with special properties. For example, synthesized polymer materials may have excellent optical properties, which can be used in optical lenses, optoelectronic devices, etc.; or they may have good thermal stability and mechanical properties, which can be used in aerospace, automobile manufacturing and other industries that require strict material properties.
In the field of organic synthesis, it is an indispensable and important intermediate. Organic chemists can use it to use various chemical reactions to build more complex and diverse organic molecular structures. By carefully designing reaction paths and combining them with other organic compounds, a series of organic compounds with specific functions and uses can be synthesized, greatly expanding the boundaries of organic synthetic chemistry and injecting new vitality into the development of organic chemistry.
What is the preparation method of 1-chloro-2 - [2,2-dichloro-1 - (4-chlorophenyl) ethyl] benzene?
To prepare this product, the method is as follows:
First view of the raw material composition of this product, containing 1-deuterium-2 - [2,2-dideuterium-1 - (4-deuterium benzyl) ethyl] benzene, when prepared, according to the delicate method of organic synthesis.
In a clean reaction vessel, a suitable organic solvent is used as the medium, such as anhydrous ether or tetrahydrofuran, to create a stable reaction environment.
Take a specific compound containing deuterium as the starting reactant. This compound needs to be precisely selected to ensure the existence of deuterium atoms at a specific position. The halogenation reaction can be used to react with the corresponding benzene derivatives with halogenated hydrocarbons containing deuterium. For example, the halogenated benzyl containing deuterium and specific alkenyl benzene derivatives are connected by the coupling reaction catalyzed by palladium under the action of metal catalysts, such as palladium catalysts.
During the reaction process, the regulation of temperature is crucial. Initially, the temperature of the reaction system can be maintained at a low temperature, between about 0 ° C and 10 ° C, so that the reactants slowly contact and interact to form a preliminary intermediate. Then, slowly raise the temperature to 30 ° C to 50 ° C to promote further reaction and make the formation of chemical bonds more stable.
At the same time, the pH of the reaction also needs to be paid attention to. Alkaline substances, such as potassium carbonate, sodium carbonate, etc., can be added in a timely manner to neutralize the acidic substances generated by the reaction to ensure that the reaction proceeds in the positive direction.
After the reaction is completed, the target product is separated and purified from the reaction mixture system by extraction, distillation and other separation methods. First, the organic solvent is extracted to enrich the product in the organic phase, and then the distillation method is used to precisely separate and collect fractions in a specific boiling point range according to the difference between the boiling points of the product and the impurities, and finally obtain pure 1-deuterium-2 - [2,2-dideuterium-1 - (4-deuterobenzyl) ethyl] benzene.
The whole preparation process requires the experimenter to operate strictly and control the reaction conditions before the desired product can be obtained.
First view of the raw material composition of this product, containing 1-deuterium-2 - [2,2-dideuterium-1 - (4-deuterium benzyl) ethyl] benzene, when prepared, according to the delicate method of organic synthesis.
In a clean reaction vessel, a suitable organic solvent is used as the medium, such as anhydrous ether or tetrahydrofuran, to create a stable reaction environment.
Take a specific compound containing deuterium as the starting reactant. This compound needs to be precisely selected to ensure the existence of deuterium atoms at a specific position. The halogenation reaction can be used to react with the corresponding benzene derivatives with halogenated hydrocarbons containing deuterium. For example, the halogenated benzyl containing deuterium and specific alkenyl benzene derivatives are connected by the coupling reaction catalyzed by palladium under the action of metal catalysts, such as palladium catalysts.
During the reaction process, the regulation of temperature is crucial. Initially, the temperature of the reaction system can be maintained at a low temperature, between about 0 ° C and 10 ° C, so that the reactants slowly contact and interact to form a preliminary intermediate. Then, slowly raise the temperature to 30 ° C to 50 ° C to promote further reaction and make the formation of chemical bonds more stable.
At the same time, the pH of the reaction also needs to be paid attention to. Alkaline substances, such as potassium carbonate, sodium carbonate, etc., can be added in a timely manner to neutralize the acidic substances generated by the reaction to ensure that the reaction proceeds in the positive direction.
After the reaction is completed, the target product is separated and purified from the reaction mixture system by extraction, distillation and other separation methods. First, the organic solvent is extracted to enrich the product in the organic phase, and then the distillation method is used to precisely separate and collect fractions in a specific boiling point range according to the difference between the boiling points of the product and the impurities, and finally obtain pure 1-deuterium-2 - [2,2-dideuterium-1 - (4-deuterobenzyl) ethyl] benzene.
The whole preparation process requires the experimenter to operate strictly and control the reaction conditions before the desired product can be obtained.
What are the environmental effects of 1-chloro-2 - [2,2-dichloro-1 - (4-chlorophenyl) ethyl] benzene?
The use of saltpeter, sulfur, charcoal, etc. to synthesize gunpowder is also an ancient Chinese art. Now it is said that "1-nitrate-2 - [2,2-dinitrate-1 - (4-nitrophenyl) ethyl] phenyl has an impact on the environment, which is really related to people's livelihood and the creation of heaven and earth.
If these compounds exist between heaven and earth, one of them may cause changes in the soil. Soil is the basis for the growth and nourishment of all things. The infiltration of this compound agent, or the change of its acid and alkali properties, will cause fertility disorder. In the past farming days, the soil was fertile and the grain was abundant. If the soil is bad, the crop industry may be severely frustrated.
Second, there is also a disaster in the water source. Water flows in the mountains and rivers, nourishing life. If this compound enters the water body, the aquatic race will bear the brunt. The genus of fish and turtles may die due to illness, the generation of algae may multiply abnormally, and the ecological balance will be in chaos. Looking at the ancient rivers and lakes, they are all clear and lush with creatures. If they are polluted by this, the beauty of water will no longer be there.
Third, it also has an impact on the appearance of the atmosphere. The substances it emits float in the air, or cause changes in clouds and mists, the transmission of sunlight is blocked, and the climate is regular or chaotic. The ancient weather harmony, the wind and rain are smooth, all depend on the natural order of heaven and earth. The chaos of this compound may lead to droughts and floods.
Therefore, those who make this thing should think about the virtues of heaven and earth, and be careful to do it, and do not use temporary benefits to leave the troubles of the world. Make all things safe and ecological harmony, which is the way to be long-term.
If these compounds exist between heaven and earth, one of them may cause changes in the soil. Soil is the basis for the growth and nourishment of all things. The infiltration of this compound agent, or the change of its acid and alkali properties, will cause fertility disorder. In the past farming days, the soil was fertile and the grain was abundant. If the soil is bad, the crop industry may be severely frustrated.
Second, there is also a disaster in the water source. Water flows in the mountains and rivers, nourishing life. If this compound enters the water body, the aquatic race will bear the brunt. The genus of fish and turtles may die due to illness, the generation of algae may multiply abnormally, and the ecological balance will be in chaos. Looking at the ancient rivers and lakes, they are all clear and lush with creatures. If they are polluted by this, the beauty of water will no longer be there.
Third, it also has an impact on the appearance of the atmosphere. The substances it emits float in the air, or cause changes in clouds and mists, the transmission of sunlight is blocked, and the climate is regular or chaotic. The ancient weather harmony, the wind and rain are smooth, all depend on the natural order of heaven and earth. The chaos of this compound may lead to droughts and floods.
Therefore, those who make this thing should think about the virtues of heaven and earth, and be careful to do it, and do not use temporary benefits to leave the troubles of the world. Make all things safe and ecological harmony, which is the way to be long-term.
What are the storage conditions for 1-chloro-2 - [2,2-dichloro-1 - (4-chlorophenyl) ethyl] benzene?
When I look at this question, I am actually exploring the storage conditions of substances. However, the "1+-+%E6%B0%AF+-+2+-+%5B2%2C2+-+%E4%BA%8C%E6%B0%AF+-+1+-+%284+-+%E6%B0%AF%E8%8B%AF%E5%9F%BA%29%E4%B9%99%E5%9F%BA%5D%E8%8B%AF%E7%9A%84" involved is obscure, and it is difficult to immediately clarify the exact substance it refers to.
Generally speaking, the storage conditions of substances are related to many factors. One is temperature, and different substances can remain stable within a specific temperature range. High temperature may cause them to evaporate, decompose, and low temperature may cause them to solidify or change their properties. The second is humidity, humid environment or some substances to be damp and deteriorate, such as metals that are prone to rust, chemical agents or reactions such as hydrolysis. The third is light, some substances are sensitive to light, and under light, it is easy to cause photochemical reactions, resulting in changes in their properties. The fourth is the isolation from other substances. Some substances are highly oxidizing or reducing, and are prone to violent reactions in contact with specific substances, so they need to be stored separately.
However, because this question cannot clarify what the substance referred to in this complex expression is, it is difficult to accurately state its storage conditions. If the key information such as the chemical properties and physical properties of the substance can be specified, it is necessary to more accurately discuss the suitable conditions for its storage to ensure the stability and safety of the substance.
Generally speaking, the storage conditions of substances are related to many factors. One is temperature, and different substances can remain stable within a specific temperature range. High temperature may cause them to evaporate, decompose, and low temperature may cause them to solidify or change their properties. The second is humidity, humid environment or some substances to be damp and deteriorate, such as metals that are prone to rust, chemical agents or reactions such as hydrolysis. The third is light, some substances are sensitive to light, and under light, it is easy to cause photochemical reactions, resulting in changes in their properties. The fourth is the isolation from other substances. Some substances are highly oxidizing or reducing, and are prone to violent reactions in contact with specific substances, so they need to be stored separately.
However, because this question cannot clarify what the substance referred to in this complex expression is, it is difficult to accurately state its storage conditions. If the key information such as the chemical properties and physical properties of the substance can be specified, it is necessary to more accurately discuss the suitable conditions for its storage to ensure the stability and safety of the substance.
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