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Benzene, 2-(Chloromethyl)-1-Fluoro-4-(Trifluoromethyl)-
|
HS Code |
750522 |
| Chemical Formula | C8H5ClF4 |
| Molar Mass | 214.57 g/mol |
| Solubility In Water | Expected to be low (organic compound with fluorine and hydrophobic groups) |
| Solubility In Organic Solvents | Likely soluble in common organic solvents like dichloromethane, toluene |
| Stability | Stable under normal conditions, but may react with strong oxidizing or reducing agents |
As an accredited Benzene, 2-(Chloromethyl)-1-Fluoro-4-(Trifluoromethyl)- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of 2-(chloromethyl)-1-fluoro-4-(trifluoromethyl)benzene in a sealed, chemical - resistant bottle. |
| Storage | Store "Benzene, 2-(chloromethyl)-1-fluoro-4-(trifluoromethyl)-" in a cool, dry, well - ventilated area, away from heat sources and open flames. Keep it in a tightly - sealed container, preferably made of corrosion - resistant materials. Separate it from oxidizing agents, reactive chemicals, and incompatible substances to prevent potential reactions and ensure safety. |
| Shipping | The chemical "Benzene, 2-(chloromethyl)-1-fluoro-4-(trifluoromethyl)-" should be shipped in accordance with strict hazardous material regulations. Use appropriate, leak - proof containers, ensure proper labeling, and follow transport safety protocols. |
Competitive Benzene, 2-(Chloromethyl)-1-Fluoro-4-(Trifluoromethyl)- 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 sales01@alchemist-chem.com.
We will respond to you as soon as possible.
Tel: +8615365006308
Email: sales01@alchemist-chem.com
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How do you understand the chemical name of this product?
There is a thing today whose chemical name is particularly difficult to understand. If you want to understand it in detail, you should use the ancient law to analyze it rationally.
The name of chemistry, although derived from Western learning, is also based on the ancient way of knowing things. The name of this chemical is determined by the composition, properties and changes of its substances. If you want to understand its name, you should first know what it is, observe its shape and quality, and observe its changes.
If this thing is an element, its name is either derived from its unique nature, or from the place and person where it was discovered. For example, "gold" is named because of its yellow color and strong quality, which does not corrode for a long time, so it gets this name to show its value and stability. Another example is "hydrogen", which is light like gas and floats in the air, so it is named with the homophonic name of "light", which also shows its light quality.
If it is a compound, the origin of the name is mostly related to the elements and structure of its composition. For example, "water" is formed by the combination of hydrogen and oxygen, and its molecular formula is H 2O O. Although the symbol of today is different from the ancient text, its essence is determined, but it shows the composition of hydrogen dioxygen one. Although the ancients did not know the details of its molecules, they looked at the nature of water and knew that it moistened all things, flowing and endless, and they also named it with the method of pictographic understanding.
Another example is "salt", which is mostly composed of metal ions and acid ions. Its salty taste is indispensable in diet and cooking. The ancients observed its nature and named it with the meaning of "brine and salty", and later evolved into "salt". Its chemical name, or the name of its constituent elements, such as "sodium chloride". "Sodium" is a metal element, and "chlorine" is a non-metallic element. The two combine to form salt, so this name is given.
As for complex organic compounds, their names often refer to the characteristics of their structures. For example, "benzene" has a cyclic molecular structure and a unique aromatic smell, so it is named "benzene", which not only shows the shape of its structure, but also involves its odor.
To understand this chemical name, if it is like an ancient person, first observe the properties of the thing, then study its composition changes, and follow the name to understand why it is. With scientific principles and the wisdom of the ancients, the true meaning can be obtained.
The name of chemistry, although derived from Western learning, is also based on the ancient way of knowing things. The name of this chemical is determined by the composition, properties and changes of its substances. If you want to understand its name, you should first know what it is, observe its shape and quality, and observe its changes.
If this thing is an element, its name is either derived from its unique nature, or from the place and person where it was discovered. For example, "gold" is named because of its yellow color and strong quality, which does not corrode for a long time, so it gets this name to show its value and stability. Another example is "hydrogen", which is light like gas and floats in the air, so it is named with the homophonic name of "light", which also shows its light quality.
If it is a compound, the origin of the name is mostly related to the elements and structure of its composition. For example, "water" is formed by the combination of hydrogen and oxygen, and its molecular formula is H 2O O. Although the symbol of today is different from the ancient text, its essence is determined, but it shows the composition of hydrogen dioxygen one. Although the ancients did not know the details of its molecules, they looked at the nature of water and knew that it moistened all things, flowing and endless, and they also named it with the method of pictographic understanding.
Another example is "salt", which is mostly composed of metal ions and acid ions. Its salty taste is indispensable in diet and cooking. The ancients observed its nature and named it with the meaning of "brine and salty", and later evolved into "salt". Its chemical name, or the name of its constituent elements, such as "sodium chloride". "Sodium" is a metal element, and "chlorine" is a non-metallic element. The two combine to form salt, so this name is given.
As for complex organic compounds, their names often refer to the characteristics of their structures. For example, "benzene" has a cyclic molecular structure and a unique aromatic smell, so it is named "benzene", which not only shows the shape of its structure, but also involves its odor.
To understand this chemical name, if it is like an ancient person, first observe the properties of the thing, then study its composition changes, and follow the name to understand why it is. With scientific principles and the wisdom of the ancients, the true meaning can be obtained.
What are the physical properties of 2- (chloromethyl) -1-fluoro-4- (trifluoromethyl) benzene?
2 - (methoxy) -1 - methyl - 4 - (trimethylsilyl) benzene, its physical properties are described as follows.
This compound has certain properties. Under normal conditions, it may be liquid, and due to the characteristics of its molecular properties, the molecular force is not large enough to hold solid, nor is it weak enough to be direct. Its boiling effect is affected by factors such as molecular interactions and molecular weight. The increase in the molecular weight of the phase and the increase in the molecular force, such as even-even interactions, such as even-even interactions, etc. (if there is even-even interactions in this compound), the boiling effect increases.
In addition, its solubility is also special. Based on the principle of similarity and dissolution, if the compound contains an alkyl group, such as alcohol, ketone, etc., or has a certain solubility; if the molecule is non-soluble, it is more soluble in non-soluble groups, such as alkyl, aromatic, etc.
Its density is also one of the important physical properties. The density depends on the way of stacking molecules and the amount of molecules in the phase. If the molecular arrangement is dense and the amount of molecules in the phase is large, the density of the phase is high; conversely, if the molecular gap is large and the amount of molecules in the phase is small, the density is low.
In addition, this compound may have a specific refractive index. The refractive index, the distribution of molecular and molecular clouds, can be used to determine one of the important physical constants of this compound. Different compounds often have a specific refractive index.
This compound has certain properties. Under normal conditions, it may be liquid, and due to the characteristics of its molecular properties, the molecular force is not large enough to hold solid, nor is it weak enough to be direct. Its boiling effect is affected by factors such as molecular interactions and molecular weight. The increase in the molecular weight of the phase and the increase in the molecular force, such as even-even interactions, such as even-even interactions, etc. (if there is even-even interactions in this compound), the boiling effect increases.
In addition, its solubility is also special. Based on the principle of similarity and dissolution, if the compound contains an alkyl group, such as alcohol, ketone, etc., or has a certain solubility; if the molecule is non-soluble, it is more soluble in non-soluble groups, such as alkyl, aromatic, etc.
Its density is also one of the important physical properties. The density depends on the way of stacking molecules and the amount of molecules in the phase. If the molecular arrangement is dense and the amount of molecules in the phase is large, the density of the phase is high; conversely, if the molecular gap is large and the amount of molecules in the phase is small, the density is low.
In addition, this compound may have a specific refractive index. The refractive index, the distribution of molecular and molecular clouds, can be used to determine one of the important physical constants of this compound. Different compounds often have a specific refractive index.
What are the main applications of 2- (chloromethyl) -1-fluoro-4- (trifluoromethyl) benzene?
2-% (methoxy) -1-methyl-4- (trimethyl) benzene, this compound has applications in many fields.
In the field of medicine, due to its unique chemical structure, it plays a key role in drug synthesis. It can act as a key intermediate to help build a molecular framework with specific pharmacological activity. Through precise chemical reactions, it is expected to give drugs better targeting and efficacy. For example, in the development of some new anti-cancer drugs, with the help of the special properties of this compound, it can more accurately act on cancer cell targets, improve therapeutic effects and reduce damage to normal cells.
In the field of materials science, it can be used as an important part of functional materials. Due to its specific electronic properties and chemical stability, it can be used to prepare high-performance organic optoelectronic materials. For example, in the manufacture of organic Light Emitting Diodes (OLEDs), the addition of this compound can optimize the luminous efficiency and stability of the material, thereby improving the image quality and service life of the display device.
In the fragrance industry, its unique smell and chemical stability also make it valuable. It can be used as an important raw material for fragrance synthesis, providing a basis for the formulation of unique and long-lasting fragrances. Through a series of chemical reactions and blending processes, it can add a unique aroma to perfumes, air fresheners and other products.
In the field of fine chemicals, it is an important starting material or intermediate for the synthesis of various fine chemicals. Due to its structural characteristics, a wide range of fine chemicals with specific functions can be derived, which are widely used in the production of coatings, inks, adhesives, and other products, which is of great significance for improving product performance.
In the field of medicine, due to its unique chemical structure, it plays a key role in drug synthesis. It can act as a key intermediate to help build a molecular framework with specific pharmacological activity. Through precise chemical reactions, it is expected to give drugs better targeting and efficacy. For example, in the development of some new anti-cancer drugs, with the help of the special properties of this compound, it can more accurately act on cancer cell targets, improve therapeutic effects and reduce damage to normal cells.
In the field of materials science, it can be used as an important part of functional materials. Due to its specific electronic properties and chemical stability, it can be used to prepare high-performance organic optoelectronic materials. For example, in the manufacture of organic Light Emitting Diodes (OLEDs), the addition of this compound can optimize the luminous efficiency and stability of the material, thereby improving the image quality and service life of the display device.
In the fragrance industry, its unique smell and chemical stability also make it valuable. It can be used as an important raw material for fragrance synthesis, providing a basis for the formulation of unique and long-lasting fragrances. Through a series of chemical reactions and blending processes, it can add a unique aroma to perfumes, air fresheners and other products.
In the field of fine chemicals, it is an important starting material or intermediate for the synthesis of various fine chemicals. Due to its structural characteristics, a wide range of fine chemicals with specific functions can be derived, which are widely used in the production of coatings, inks, adhesives, and other products, which is of great significance for improving product performance.
What are the precautions for this product during production?
The creation of things involves many ends, and all things should be careful, so as to achieve good results.
The first is the choice of materials and utensils, which is of great importance. The quality of the material is directly determined by the quality of the material. If it is based on crude and inferior materials, although the craftsman's skills are skillful, it is difficult to become a high-quality product. Be sure to look carefully and choose materials that are solid, durable and suitable. For example, when casting a sword, choose fine iron, which is tough in quality, so that it can be cut into iron like mud; if you use mediocre iron, the blade will be easy to fold and dull, and it will not be usable.
The second is the application of skills. The craftsman's skills should be proficient and steady. Every process follows the law and cannot be ignored. If you cut jade, the hand holding the knife must be steady and flexible. According to the texture of the jade, it is carefully carved, and it is not bad, so that it can be turned into a treasure. A little negligence will destroy the beautiful jade. And skills also need to keep pace with the times, absorb new tricks, in order to be able to adapt to the changes of the world and create the needs of people.
Furthermore, the suitability of the environment cannot be ignored. In a hot and humid environment, or the deformation of the material, the workmanship is not smooth. If you make a piano, the temperature and humidity are inappropriate, the strings are easy to break, the wood is easy to crack, and the sound must not be allowed. Therefore, creating a suitable environment, stable material retention, and comfortable workers are the essentials of fabrication.
Also, the attention of mind is indispensable. A craftsman should have a heart of reverence and concentration, and regard creation as the most important thing. If you are impatient and perfunctory, even if you have good materials and skills, it will not be a good work. You must concentrate your energy and gather your energy, pour your heart and blood into it, and give objects a soul, so that they have a unique rhyme.
In the creations of people at that time, these should all be remembered. Materials, skills, environment, and heart complement each other and are indispensable. Only by doing it with care can you create exquisite products that are passed down to the world and immortal.
The first is the choice of materials and utensils, which is of great importance. The quality of the material is directly determined by the quality of the material. If it is based on crude and inferior materials, although the craftsman's skills are skillful, it is difficult to become a high-quality product. Be sure to look carefully and choose materials that are solid, durable and suitable. For example, when casting a sword, choose fine iron, which is tough in quality, so that it can be cut into iron like mud; if you use mediocre iron, the blade will be easy to fold and dull, and it will not be usable.
The second is the application of skills. The craftsman's skills should be proficient and steady. Every process follows the law and cannot be ignored. If you cut jade, the hand holding the knife must be steady and flexible. According to the texture of the jade, it is carefully carved, and it is not bad, so that it can be turned into a treasure. A little negligence will destroy the beautiful jade. And skills also need to keep pace with the times, absorb new tricks, in order to be able to adapt to the changes of the world and create the needs of people.
Furthermore, the suitability of the environment cannot be ignored. In a hot and humid environment, or the deformation of the material, the workmanship is not smooth. If you make a piano, the temperature and humidity are inappropriate, the strings are easy to break, the wood is easy to crack, and the sound must not be allowed. Therefore, creating a suitable environment, stable material retention, and comfortable workers are the essentials of fabrication.
Also, the attention of mind is indispensable. A craftsman should have a heart of reverence and concentration, and regard creation as the most important thing. If you are impatient and perfunctory, even if you have good materials and skills, it will not be a good work. You must concentrate your energy and gather your energy, pour your heart and blood into it, and give objects a soul, so that they have a unique rhyme.
In the creations of people at that time, these should all be remembered. Materials, skills, environment, and heart complement each other and are indispensable. Only by doing it with care can you create exquisite products that are passed down to the world and immortal.
What are the market prospects for 2- (chloromethyl) -1-fluoro-4- (trifluoromethyl) benzene?
(2 - (methoxy) -1 - chloro - 4 - (trichloromethyl) benzene) This product has many market prospects, and today is your detailed analysis.
Looking at the current chemical industry, the demand for fine chemicals is increasing. This compound has its uses in the fields of medicine, pesticides and materials. In medicine, or as an intermediary for the synthesis of specific drugs, as pharmaceutical research and development moves towards precision and efficiency, the requirements for its purity and characteristics are also becoming stricter. If it can meet the needs of pharmaceutical companies, it must have a place in the pharmaceutical market.
As for the field of pesticides, it may be a key raw material for the creation of new pesticides. Nowadays, green and environmentally friendly pesticides are the general trend. If this compound can help the development of low-toxicity, high-efficiency and environmentally friendly pesticides, it will be favored by agrochemical enterprises and have a broad market prospect.
In the field of materials, it may be used to synthesize special polymer materials. With the development of science and technology, the properties of materials are new and different, such as those with special electrical and optical properties. If it can make a difference here, it can also get a share in the high-end material market.
However, its market prospects also have challenges. First, the synthesis process may need to be refined. If the process is complicated and the cost is high, the product price will be high and the market competitiveness will be reduced. Second, environmental regulations are becoming stricter. If there is a risk of high pollution and high energy consumption in the production process, it will be subject to policy restrictions.
To sum up, the (2- (methoxy) -1-chloro-4- (trichloromethyl) benzene) market has a promising future. However, in order to compete in the market, it is necessary to solve the problems of process and environmental protection, and conform to the general trend of the industry in order to open up a wide range of fields.
Looking at the current chemical industry, the demand for fine chemicals is increasing. This compound has its uses in the fields of medicine, pesticides and materials. In medicine, or as an intermediary for the synthesis of specific drugs, as pharmaceutical research and development moves towards precision and efficiency, the requirements for its purity and characteristics are also becoming stricter. If it can meet the needs of pharmaceutical companies, it must have a place in the pharmaceutical market.
As for the field of pesticides, it may be a key raw material for the creation of new pesticides. Nowadays, green and environmentally friendly pesticides are the general trend. If this compound can help the development of low-toxicity, high-efficiency and environmentally friendly pesticides, it will be favored by agrochemical enterprises and have a broad market prospect.
In the field of materials, it may be used to synthesize special polymer materials. With the development of science and technology, the properties of materials are new and different, such as those with special electrical and optical properties. If it can make a difference here, it can also get a share in the high-end material market.
However, its market prospects also have challenges. First, the synthesis process may need to be refined. If the process is complicated and the cost is high, the product price will be high and the market competitiveness will be reduced. Second, environmental regulations are becoming stricter. If there is a risk of high pollution and high energy consumption in the production process, it will be subject to policy restrictions.
To sum up, the (2- (methoxy) -1-chloro-4- (trichloromethyl) benzene) market has a promising future. However, in order to compete in the market, it is necessary to solve the problems of process and environmental protection, and conform to the general trend of the industry in order to open up a wide range of fields.
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