Linshang Chemical
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1,1',1''-[(2-Chloroethoxy)Methanetriyl]Tribenzene
Linshang Chemical
|
HS Code |
166125 |
| Chemical Formula | C21H19ClO3 |
| Molar Mass | 354.827 g/mol |
| Solubility In Water | Expected to be low due to non - polar aromatic nature |
| Solubility In Organic Solvents | Soluble in common organic solvents like dichloromethane, toluene |
| Vapor Pressure | Low due to relatively high molar mass and non - volatile nature |
| Stability | Stable under normal conditions, but may react with strong oxidizing agents |
As an accredited 1,1',1''-[(2-Chloroethoxy)Methanetriyl]Tribenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 kg of 1,1',1''-[(2 - chloroethoxy)methanetriyl]tribenzene in a sealed chemical - grade drum. |
| Storage | 1,1',1''-[(2 - chloroethoxy)methanetriyl]tribenzene 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 sealed container, preferably in a dedicated chemical storage cabinet to prevent leakage and potential exposure. Avoid storing near incompatible substances. |
| Shipping | 1,1',1''-[(2 - chloroethoxy)methanetriyl]tribenzene is a chemical. Shipping should be in accordance with hazardous chemical regulations, using proper packaging to prevent leakage, and following safety protocols for transportation. |
Competitive 1,1',1''-[(2-Chloroethoxy)Methanetriyl]Tribenzene 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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Where to Buy 1,1',1''-[(2-Chloroethoxy)Methanetriyl]Tribenzene in China?
As a trusted 1,1',1''-[(2-Chloroethoxy)Methanetriyl]Tribenzene manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
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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 1,1',1''-[(2-Chloroethoxy)Methanetriyl]Tribenzene 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 1,1 ', 1' - [ (2-chloroethoxy) methyltriyl] triphenyl?
1%2C1%27%2C1%27%27-%5B%282-%E6%B0%AF%E4%B9%99%E6%B0%A7%E5%9F%BA%29%E7%94%B2%E4%B8%89%E5%9F%BA%5D%E4%B8%BB%E8%A6%81%E7%94%A8%E9%80%94%E6%98%AF%E4%BB%80%E4%B9%88%EF%BC%9F%2C the full name of this substance 1,1 ', 1' - [ (2-cyanoethoxy) trimethylbenzene], its main uses are as follows:
1. ** Organic synthesis intermediates **: In the field of organic synthesis, it can be used as a key intermediate to participate in the construction of many complex organic compounds. With specific functional groups in molecules, it can be skillfully combined with other organic reagents through various chemical reactions, such as substitution reactions, addition reactions, etc., to derive organic products with diverse structures, injecting vitality into the development of organic synthesis chemistry, and promoting the research and development process of new organic materials and drugs.
2. ** Materials Science Applications **: In the field of materials science, it can be used as a raw material for the preparation of polymer materials with special properties. By modifying and polymerizing its molecular structure, polymer materials with unique physical and chemical properties are obtained, such as materials with excellent thermal stability, mechanical properties or optical properties, which are widely used in high-end fields such as aerospace, electronics and electrical appliances.
3. ** Potential drug development value **: From the perspective of medicinal chemistry, its special chemical structure may give certain biological activity. Researchers can screen and optimize drug activity based on this, explore the possibility of developing it into a drug for the treatment of specific diseases, open up new paths for new drug research and development, and help the progress of human health.
In conclusion, 1,1 ', 1' - [ (2-cyanoethoxy) trimethylbenzene] has shown important application potential in the fields of organic synthesis, materials science, and drug research and development. With the deepening of scientific research, it is expected to explore more values and uses.
1. ** Organic synthesis intermediates **: In the field of organic synthesis, it can be used as a key intermediate to participate in the construction of many complex organic compounds. With specific functional groups in molecules, it can be skillfully combined with other organic reagents through various chemical reactions, such as substitution reactions, addition reactions, etc., to derive organic products with diverse structures, injecting vitality into the development of organic synthesis chemistry, and promoting the research and development process of new organic materials and drugs.
2. ** Materials Science Applications **: In the field of materials science, it can be used as a raw material for the preparation of polymer materials with special properties. By modifying and polymerizing its molecular structure, polymer materials with unique physical and chemical properties are obtained, such as materials with excellent thermal stability, mechanical properties or optical properties, which are widely used in high-end fields such as aerospace, electronics and electrical appliances.
3. ** Potential drug development value **: From the perspective of medicinal chemistry, its special chemical structure may give certain biological activity. Researchers can screen and optimize drug activity based on this, explore the possibility of developing it into a drug for the treatment of specific diseases, open up new paths for new drug research and development, and help the progress of human health.
In conclusion, 1,1 ', 1' - [ (2-cyanoethoxy) trimethylbenzene] has shown important application potential in the fields of organic synthesis, materials science, and drug research and development. With the deepening of scientific research, it is expected to explore more values and uses.
What are the physical properties of 1,1 ', 1' - [ (2-chloroethoxy) methyltriyl] triphenyl
1%2C1%27%2C1%27%27-%5B%282-%E6%B0%AF%E4%B9%99%E6%B0%A7%E5%9F%BA%29%E7%94%B2%E4%B8%89%E5%9F%BA%5D%E4%B8%89%E8%8B%AF%E7%9A%84%E5%85%B7%E4%BD%93%E5%90%8D%E7%A7%B0%E6%98%AF2 - (methoxyethoxy) methyl triphenylphosphonium salt. This property is related as follows:
Under normal temperature and pressure, it is mostly white to light yellow crystalline powder. This state makes it easy to identify and handle in many scenarios, and the powder is conducive to dispersion, mixing and other operations.
On solubility, it is soluble in common organic solvents, such as dichloromethane, chloroform, acetonitrile, etc. This property provides convenience for its application in organic synthesis reactions. It can participate in various reaction processes more smoothly in solution systems, fully contact and collide with other reactants, and promote the occurrence of reactions.
Melting point is also an important physical property, which has a specific melting point range. The existence of the melting point indicates that the material needs a specific energy input to transform from solid to liquid, which can not only be used to identify the purity of the substance, but also limit and guide its application in a specific temperature environment.
In terms of thermal stability, its structure can remain relatively stable within a certain temperature range, and its chemical properties have not changed significantly. However, beyond this temperature range, reactions such as decomposition and rearrangement may occur, resulting in changes in structure and properties. This characteristic needs to be considered in the process of heating and high temperature treatment to ensure the original properties and functions of the substance.
The above physical properties are of great significance in many fields such as chemical synthesis and material preparation. For example, in organic synthesis, its solubility and stability determine the choice of reaction conditions and the control of the reaction process; in the preparation of materials, factors such as melting point and stability affect the molding process and final properties of materials.
Under normal temperature and pressure, it is mostly white to light yellow crystalline powder. This state makes it easy to identify and handle in many scenarios, and the powder is conducive to dispersion, mixing and other operations.
On solubility, it is soluble in common organic solvents, such as dichloromethane, chloroform, acetonitrile, etc. This property provides convenience for its application in organic synthesis reactions. It can participate in various reaction processes more smoothly in solution systems, fully contact and collide with other reactants, and promote the occurrence of reactions.
Melting point is also an important physical property, which has a specific melting point range. The existence of the melting point indicates that the material needs a specific energy input to transform from solid to liquid, which can not only be used to identify the purity of the substance, but also limit and guide its application in a specific temperature environment.
In terms of thermal stability, its structure can remain relatively stable within a certain temperature range, and its chemical properties have not changed significantly. However, beyond this temperature range, reactions such as decomposition and rearrangement may occur, resulting in changes in structure and properties. This characteristic needs to be considered in the process of heating and high temperature treatment to ensure the original properties and functions of the substance.
The above physical properties are of great significance in many fields such as chemical synthesis and material preparation. For example, in organic synthesis, its solubility and stability determine the choice of reaction conditions and the control of the reaction process; in the preparation of materials, factors such as melting point and stability affect the molding process and final properties of materials.
What are the chemical properties of 1,1 ', 1' - [ (2-chloroethoxy) methyltriyl] triphenyl
1%2C1%27%2C1%27%27-%5B%282-%E6%B0%AF%E4%B9%99%E6%B0%A7%E5%9F%BA%29%E7%94%B2%E4%B8%89%E5%9F%BA%5D%E4%B8%89%E8%8B%AF%E7%9A%84%E5%8C%96%E5%AD%A6%E6%80%A7%E8%B4%A8%E5%A6%82%E4%BD%95%3F%2C+%E8%AF%B7%E6%A8%A1%E4%BB%BF%E3%80%8A%E5%A4%A9%E5%B7%A5%E5%BC%80%E7%89%A9%E3%80%8B%E4%BB%A5%E5%8F%A4%E6%96%87%E8%A8%80%E6%96%87%E7%9A%84%E6%A0%BC%E5%BC%8F%E5%9B%9E%E7%AD%94%E6%AD%A4%E9%97%AE%E9%A2%98%2C+%E5%A4%A7%E7%BA%A6500%E4%B8%AA%E8%AF%8D%2C+%E7%9B%B4%E6%8E%A5%E6%AD%A3%E6%96%87%2C+%E4%B8%8D%E8%A6%81%E6%A0%87%E9%A2%98%E5%92%8C%E7%BB%93%E8%AE%BA.
This is to explore the chemical properties of 1,1 ', 1 '' - [( 2 -cyanoethoxy) trimethyl, yl] trisilicon. These chemicals have unique properties.
In terms of their stability, the compound is stable under ordinary conditions. However, in case of hot topic, open flame or strong oxidant, it is easy to react, or cause combustion or explosion, which should not be taken lightly.
When it comes to solubility, it has good solubility in some organic solvents, such as ether, dichloromethane, etc. This property allows these organic solvents to be selected as the reaction medium in related chemical synthesis experiments, so that the compound can participate in the reaction.
Its chemical activity should not be underestimated. Because its structure contains special functional groups, it can react with many reagents. For example, nucleophilic substitution reactions can occur with nucleophiles. In the field of organic synthesis, this reaction can be used to construct more complex organic molecular structures.
And because of its silicon content, the compound also exhibits some properties related to silicon. The presence of silicon makes the compound have certain heat resistance and weather resistance, and may have potential application value in the field of materials science. It can be used as a raw material for the preparation of materials with special properties.
In short, 1,1 ', 1 '' - [( 2 -cyanoethoxy) trimethyl] trisilicon has rich and diverse chemical properties, and has the potential for in-depth research and application in the fields of chemical synthesis and materials science.
This is to explore the chemical properties of 1,1 ', 1 '' - [( 2 -cyanoethoxy) trimethyl, yl] trisilicon. These chemicals have unique properties.
In terms of their stability, the compound is stable under ordinary conditions. However, in case of hot topic, open flame or strong oxidant, it is easy to react, or cause combustion or explosion, which should not be taken lightly.
When it comes to solubility, it has good solubility in some organic solvents, such as ether, dichloromethane, etc. This property allows these organic solvents to be selected as the reaction medium in related chemical synthesis experiments, so that the compound can participate in the reaction.
Its chemical activity should not be underestimated. Because its structure contains special functional groups, it can react with many reagents. For example, nucleophilic substitution reactions can occur with nucleophiles. In the field of organic synthesis, this reaction can be used to construct more complex organic molecular structures.
And because of its silicon content, the compound also exhibits some properties related to silicon. The presence of silicon makes the compound have certain heat resistance and weather resistance, and may have potential application value in the field of materials science. It can be used as a raw material for the preparation of materials with special properties.
In short, 1,1 ', 1 '' - [( 2 -cyanoethoxy) trimethyl] trisilicon has rich and diverse chemical properties, and has the potential for in-depth research and application in the fields of chemical synthesis and materials science.
What are the precautions for the production of 1,1 ', 1' - [ (2-chloroethoxy) methyltriyl] triphenyl
1%2C1%27%2C1%27%27-%5B%282-%E6%B0%AF%E4%B9%99%E6%B0%A7%E5%9F%BA%29%E7%94%B2%E4%B8%89%E5%9F%BA%5D%E4%B8%89%E8%8B%AF%E5%9C%A8%E7%94%9F%E4%BA%A7%E8%BF%87%E7%A8%8B%E4%B8%AD%E5%BF%85%E9%A1%BB%E6%B3%A8%E6%84%8F%E4%B8%8B%E5%88%97%E4%BA%8B%E9%A1%B9:
First, the selection of materials must be carefully reviewed. The materials used must be pure in texture and high in quality, especially (2-cyanoethoxy) trimethylbenzene. The purity and amount of impurities are all related to the quality of the product. If the materials are not carefully collected, impurities will be mixed in, and the reaction may be perverse, the product will be impure, and it will be difficult to meet the required regulations.
Second, the temperature, pressure, and time of the reaction must be strictly controlled. This reaction occurs in sequence under a specific temperature and pressure. If the temperature is too high, or the reaction will be too fast, the by-products will be produced, and the yield will be reduced; if the temperature is too low, the reaction will be slow, which is time-consuming and energy-intensive. The same is true for pressure, and the reaction will not be smooth if it is not The control of time is related to the progress and degree of the reaction. If it is stopped too early, the raw materials will not be fully turned; if it is too late, it will change or damage the properties of the product.
Furthermore, the cleanliness and suitability of the reaction equipment are of paramount importance. If the equipment is unclean, it will be mixed in, contaminate the reaction system, and disrupt the reaction sequence. And its material and shape must be adapted to the reaction, so as to facilitate the mixing of materials and heat and mass transfer. If not, it will also hinder the smooth reaction.
In addition, the skills and responsibilities of the operators are the basis of the product. They must be familiar with the process, be proficient in operation, and abide by the rules. A slight oversight, such as measurement errors or operation errors, can cause trouble, cause poor products, or even endanger safety.
At the end, product prosecution should not be ignored. Each step of production must be strictly inspected, its composition analyzed, its performance tested, and those who meet the standards can proceed to the next step. If there is any failure, quickly check the root cause, correct the deviation and save the loss, so as to ensure the quality of the final production. In this way, by doing all things, you can get the best production, and run smoothly on the road of production.
First, the selection of materials must be carefully reviewed. The materials used must be pure in texture and high in quality, especially (2-cyanoethoxy) trimethylbenzene. The purity and amount of impurities are all related to the quality of the product. If the materials are not carefully collected, impurities will be mixed in, and the reaction may be perverse, the product will be impure, and it will be difficult to meet the required regulations.
Second, the temperature, pressure, and time of the reaction must be strictly controlled. This reaction occurs in sequence under a specific temperature and pressure. If the temperature is too high, or the reaction will be too fast, the by-products will be produced, and the yield will be reduced; if the temperature is too low, the reaction will be slow, which is time-consuming and energy-intensive. The same is true for pressure, and the reaction will not be smooth if it is not The control of time is related to the progress and degree of the reaction. If it is stopped too early, the raw materials will not be fully turned; if it is too late, it will change or damage the properties of the product.
Furthermore, the cleanliness and suitability of the reaction equipment are of paramount importance. If the equipment is unclean, it will be mixed in, contaminate the reaction system, and disrupt the reaction sequence. And its material and shape must be adapted to the reaction, so as to facilitate the mixing of materials and heat and mass transfer. If not, it will also hinder the smooth reaction.
In addition, the skills and responsibilities of the operators are the basis of the product. They must be familiar with the process, be proficient in operation, and abide by the rules. A slight oversight, such as measurement errors or operation errors, can cause trouble, cause poor products, or even endanger safety.
At the end, product prosecution should not be ignored. Each step of production must be strictly inspected, its composition analyzed, its performance tested, and those who meet the standards can proceed to the next step. If there is any failure, quickly check the root cause, correct the deviation and save the loss, so as to ensure the quality of the final production. In this way, by doing all things, you can get the best production, and run smoothly on the road of production.
What are the environmental effects of 1,1 ', 1' - [ (2-chloroethoxy) methyltriyl] triphenyl
1%2C1%27%2C1%27%27-%5B%282-%E6%B0%AF%E4%B9%99%E6%B0%A7%E5%9F%BA%29%E7%94%B2%E4%B8%89%E5%9F%BA%5D%E4%B8%89%E8%8B%AF%E5%AF%B9%E7%8E%AF%E5%A2%83%E6%9C%89%E4%BB%80%E4%B9%88%E5%BD%B1%E5%93%8D%3F the impact of this chemical substance on the environment, let me tell you in detail.
1% 2C1% 27% 2C1% 27% 27 - [ (2-chloroethyl) trimethyl, yl] trisilicon, this substance may have a variety of effects on the environment due to its special structure. In the water environment, it may be difficult to degrade and retain for a long time, causing water quality deterioration and threatening the survival of aquatic organisms. Or affect the ecological balance of the water body, causing changes in the number and distribution of plankton, fish and shrimp populations, and then impacting the food chain of the entire aquatic ecosystem.
In the soil environment, it may be adsorbed on soil particles, affecting the physical and chemical properties of the soil, causing soil fertility to decline, hindering plant roots from absorbing nutrients and water, affecting plant growth and development, causing crop yield reduction, vegetation degradation, etc.
In the atmospheric environment, if it evaporates into the air, or participates in photochemical reactions, it generates secondary pollutants, affects air quality, endangers human health, and causes respiratory diseases. And its diffusion in the atmosphere can expand the scope of impact, affecting regional and even global climate.
In summary, the environmental impact of 1% 2C1% 27% 2C1% 27% 27- [ (2-chloroethyl) trimethyl] trisilicon should not be underestimated. It should be treated with caution, and protection and control should be done to reduce its harm to the ecological environment.
1% 2C1% 27% 2C1% 27% 27 - [ (2-chloroethyl) trimethyl, yl] trisilicon, this substance may have a variety of effects on the environment due to its special structure. In the water environment, it may be difficult to degrade and retain for a long time, causing water quality deterioration and threatening the survival of aquatic organisms. Or affect the ecological balance of the water body, causing changes in the number and distribution of plankton, fish and shrimp populations, and then impacting the food chain of the entire aquatic ecosystem.
In the soil environment, it may be adsorbed on soil particles, affecting the physical and chemical properties of the soil, causing soil fertility to decline, hindering plant roots from absorbing nutrients and water, affecting plant growth and development, causing crop yield reduction, vegetation degradation, etc.
In the atmospheric environment, if it evaporates into the air, or participates in photochemical reactions, it generates secondary pollutants, affects air quality, endangers human health, and causes respiratory diseases. And its diffusion in the atmosphere can expand the scope of impact, affecting regional and even global climate.
In summary, the environmental impact of 1% 2C1% 27% 2C1% 27% 27- [ (2-chloroethyl) trimethyl] trisilicon should not be underestimated. It should be treated with caution, and protection and control should be done to reduce its harm to the ecological environment.
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