Linshang Chemical
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O-(Trifluoromethyl)Chlorobenzene
Linshang Chemical
|
HS Code |
798300 |
| Chemical Formula | C7H4ClF3O |
| Molar Mass | 196.553 g/mol |
| Appearance | Liquid (usually) |
| Boiling Point | Around 165 - 167 °C |
| Density | Approx. 1.39 - 1.42 g/cm³ |
| Vapor Pressure | Low, typical of an organic liquid |
| Solubility In Water | Poorly soluble |
| Solubility In Organic Solvents | Soluble in common organic solvents like ethanol, ether |
| Flash Point | Around 58 - 60 °C |
| Refractive Index | Typical value around 1.44 - 1.46 |
As an accredited O-(Trifluoromethyl)Chlorobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 - gram bottles of o-(trifluoromethyl)chlorobenzene, well - sealed for safe storage. |
| Storage | O-(trifluoromethyl)chlorobenzene should be stored in a cool, well - ventilated area, away from heat, sparks, and open flames. It should be kept in a tightly sealed container, preferably made of corrosion - resistant materials. Separate it from oxidizing agents and reactive substances. This storage approach helps prevent degradation, potential reactions, and reduces the risk of fire or explosion. |
| Shipping | O-(trifluoromethyl)chlorobenzene is shipped in accordance with strict chemical transportation regulations. It's packaged in specialized, secure containers to prevent leakage, transported by approved carriers ensuring safety during transit. |
Competitive O-(Trifluoromethyl)Chlorobenzene 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
Where to Buy O-(Trifluoromethyl)Chlorobenzene in China?
As a trusted O-(Trifluoromethyl)Chlorobenzene 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 O-(Trifluoromethyl)Chlorobenzene 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 O- (trifluoromethyl) chlorobenzene?
O- (triethyl) silicone ether has many main uses. In the field of organic synthesis, this is a crucial protective group. Due to the complicated process of organic synthesis, many functional groups easily interfere with each other, and O- (triethyl) silicone ether can protect active functional groups such as hydroxyl groups.
As in many reactions, hydroxyl groups are easy to participate in side reactions, making it difficult for the reaction to achieve the desired goal. At this time, O- (triethyl) silicone ether is introduced to convert the hydroxyl group into a relatively stable silicone ether structure, so that the hydroxyl group can be avoided during the reaction. After the reaction is completed, the silicon ether protective group is removed under appropriate conditions, so that the hydroxyl group can be reduced, so as to achieve the synthesis of specific organic compounds.
Furthermore, in the field of drug research and development, the synthesis of many drug molecules also relies on such protective groups. The structure of drug molecules is often delicate and complex, and each step of reaction needs to be precisely controlled during synthesis. O- (triethyl) silica ether can carefully guard key functional groups during the synthesis process, ensure that the reaction progresses according to the established route, improve the efficiency and purity of drug synthesis, and help develop safer and more effective drugs.
In the field of materials science, O- (triethyl) silica ether also has its uses. In the preparation process of some materials, specific groups need to be selectively protected and deprotected to regulate the structure and properties of the material. With its unique chemical properties, O- (triethyl) silica ether can effectively achieve this goal and provide a powerful means for the creation of new materials.
All in all, O- (triethyl) silica ether plays an indispensable role in organic synthesis, drug development, materials science and other fields, and is of great significance to promote the development of various fields.
As in many reactions, hydroxyl groups are easy to participate in side reactions, making it difficult for the reaction to achieve the desired goal. At this time, O- (triethyl) silicone ether is introduced to convert the hydroxyl group into a relatively stable silicone ether structure, so that the hydroxyl group can be avoided during the reaction. After the reaction is completed, the silicon ether protective group is removed under appropriate conditions, so that the hydroxyl group can be reduced, so as to achieve the synthesis of specific organic compounds.
Furthermore, in the field of drug research and development, the synthesis of many drug molecules also relies on such protective groups. The structure of drug molecules is often delicate and complex, and each step of reaction needs to be precisely controlled during synthesis. O- (triethyl) silica ether can carefully guard key functional groups during the synthesis process, ensure that the reaction progresses according to the established route, improve the efficiency and purity of drug synthesis, and help develop safer and more effective drugs.
In the field of materials science, O- (triethyl) silica ether also has its uses. In the preparation process of some materials, specific groups need to be selectively protected and deprotected to regulate the structure and properties of the material. With its unique chemical properties, O- (triethyl) silica ether can effectively achieve this goal and provide a powerful means for the creation of new materials.
All in all, O- (triethyl) silica ether plays an indispensable role in organic synthesis, drug development, materials science and other fields, and is of great significance to promote the development of various fields.
What are the physical properties of O- (trifluoromethyl) chlorobenzene?
O- (triethyl) borane is a very important reagent in organic chemistry. Its physical properties are unique and of great significance to organic synthesis reactions.
This substance is a colorless to light yellow liquid at room temperature and pressure, with a clear and translucent appearance. Looking at its color and state, it is convenient for the experimenter to observe directly during the operation. If the color and state are abnormal, its purity or deterioration can be preliminarily inferred.
Smell, O- (triethyl) borane has a special smell, but this smell should not be smelled rashly, because it may cause irritation to the human respiratory tract and other parts.
When it comes to density, it is lighter than water, so in systems involving water, it will float on the water surface. This property can be used as an important basis in some separation, extraction and other operation steps.
In terms of boiling point, the boiling point of the substance is relatively moderate, which makes it stable under specific temperature conditions. In some reactions that require temperature control, the reaction conditions can be precisely controlled according to its boiling point characteristics to ensure that the reaction proceeds smoothly in the expected direction.
In terms of solubility, O- (triethyl) borane can be soluble in many organic solvents, such as common ether, tetrahydrofuran, etc. This good solubility creates favorable conditions for it to fully contact and mix with various organic reactants in organic synthesis reactions, and then react efficiently. However, special attention should be paid to the fact that O- (triethyl) borane is prone to spontaneous combustion in contact with air, so during storage and use, it is necessary to strictly isolate the air, usually under the protection of inert gas, to ensure the safety of the experiment and the smooth development of the reaction.
This substance is a colorless to light yellow liquid at room temperature and pressure, with a clear and translucent appearance. Looking at its color and state, it is convenient for the experimenter to observe directly during the operation. If the color and state are abnormal, its purity or deterioration can be preliminarily inferred.
Smell, O- (triethyl) borane has a special smell, but this smell should not be smelled rashly, because it may cause irritation to the human respiratory tract and other parts.
When it comes to density, it is lighter than water, so in systems involving water, it will float on the water surface. This property can be used as an important basis in some separation, extraction and other operation steps.
In terms of boiling point, the boiling point of the substance is relatively moderate, which makes it stable under specific temperature conditions. In some reactions that require temperature control, the reaction conditions can be precisely controlled according to its boiling point characteristics to ensure that the reaction proceeds smoothly in the expected direction.
In terms of solubility, O- (triethyl) borane can be soluble in many organic solvents, such as common ether, tetrahydrofuran, etc. This good solubility creates favorable conditions for it to fully contact and mix with various organic reactants in organic synthesis reactions, and then react efficiently. However, special attention should be paid to the fact that O- (triethyl) borane is prone to spontaneous combustion in contact with air, so during storage and use, it is necessary to strictly isolate the air, usually under the protection of inert gas, to ensure the safety of the experiment and the smooth development of the reaction.
What are the chemical properties of O- (trifluoromethyl) chlorobenzene?
The chemical properties of (triethyl) silane are as follows: It has a certain chemical activity and can be used to synthesize many antibodies. In this silane compound, silicon atoms such as carbon and carbon atoms form specific chemical properties, making it exhibit specific antibodies.
In terms of physical properties, it often has a certain degree of solubility. In the solution, or has good solubility, this property makes it possible to fill the antibodies or antibodies in the reaction system.
In the reaction reaction, (triethyl) silane can be used as a silylation, and the silyl group is introduced into the target molecule. This silylation is very important for the synthesis domain. It can be used to modify the physical and chemical properties of the molecule, such as improving its qualitative and integrity.
Furthermore, it can also be used to replace some nuclei. Due to the special properties of the sub-cloud around the silicon atom, it can be attacked by the nucleus under the appropriate reaction conditions, and it can be destroyed.
In addition, some components in (triethyl) silane water and air may have certain sensitivities. In case of water, or hydrolysis reaction, the original reaction will be broken, resulting in hydrolysis of the phase. In the air, or the slow reaction of ingredients such as oxygen, it affects its performance and chemical activity. Therefore, in the process of storage and use, it is necessary to pay attention to maintaining dryness and sealing in order to maintain its chemical properties.
In terms of physical properties, it often has a certain degree of solubility. In the solution, or has good solubility, this property makes it possible to fill the antibodies or antibodies in the reaction system.
In the reaction reaction, (triethyl) silane can be used as a silylation, and the silyl group is introduced into the target molecule. This silylation is very important for the synthesis domain. It can be used to modify the physical and chemical properties of the molecule, such as improving its qualitative and integrity.
Furthermore, it can also be used to replace some nuclei. Due to the special properties of the sub-cloud around the silicon atom, it can be attacked by the nucleus under the appropriate reaction conditions, and it can be destroyed.
In addition, some components in (triethyl) silane water and air may have certain sensitivities. In case of water, or hydrolysis reaction, the original reaction will be broken, resulting in hydrolysis of the phase. In the air, or the slow reaction of ingredients such as oxygen, it affects its performance and chemical activity. Therefore, in the process of storage and use, it is necessary to pay attention to maintaining dryness and sealing in order to maintain its chemical properties.
What is the production method of O- (trifluoromethyl) chlorobenzene?
The preparation method of (Sanxiang methyl) oxime ether is as follows:
First take an appropriate amount of starting materials, and carefully select materials of high quality and purity. This is the foundation for preparing good products. The selected raw materials are placed in a clean and suitable reaction vessel according to a specific ratio. The material and specifications of the reaction vessel are carefully selected according to the reaction characteristics and scale, so as to withstand the reaction conditions and not cause adverse reactions with the reactants.
Then, a suitable catalyst is added to the reaction system. The type and amount of catalyst, determined by repeated tests and accurate calculations, can significantly change the rate of the chemical reaction and promote the efficient progress of the reaction in the desired direction. At the same time, the reaction temperature and pressure are precisely regulated. The temperature and pressure have a huge impact on the reaction process and the structure and purity of the product. Precise temperature and pressure control equipment must be used to maintain it within the set range.
During the reaction process, the mixture needs to be stirred continuously and evenly to make the reactants fully contact to ensure the uniformity and efficiency of the reaction. Close observation of reaction phenomena, such as color changes, gas escape, etc., and real-time monitoring of the reaction process and product generation by means of fine analysis and detection.
When the reaction reaches the expected level, stop the reaction in time. Using appropriate separation and purification methods, such as distillation, extraction, crystallization, etc., the target product (Sanxiang methyl) oxime ether is separated from the reaction mixture, and impurities are removed to obtain a high-purity product. The whole preparation process requires strict compliance with operating procedures and attention to detail control to obtain (Sanxiang methyl) oxime ether stably and efficiently.
First take an appropriate amount of starting materials, and carefully select materials of high quality and purity. This is the foundation for preparing good products. The selected raw materials are placed in a clean and suitable reaction vessel according to a specific ratio. The material and specifications of the reaction vessel are carefully selected according to the reaction characteristics and scale, so as to withstand the reaction conditions and not cause adverse reactions with the reactants.
Then, a suitable catalyst is added to the reaction system. The type and amount of catalyst, determined by repeated tests and accurate calculations, can significantly change the rate of the chemical reaction and promote the efficient progress of the reaction in the desired direction. At the same time, the reaction temperature and pressure are precisely regulated. The temperature and pressure have a huge impact on the reaction process and the structure and purity of the product. Precise temperature and pressure control equipment must be used to maintain it within the set range.
During the reaction process, the mixture needs to be stirred continuously and evenly to make the reactants fully contact to ensure the uniformity and efficiency of the reaction. Close observation of reaction phenomena, such as color changes, gas escape, etc., and real-time monitoring of the reaction process and product generation by means of fine analysis and detection.
When the reaction reaches the expected level, stop the reaction in time. Using appropriate separation and purification methods, such as distillation, extraction, crystallization, etc., the target product (Sanxiang methyl) oxime ether is separated from the reaction mixture, and impurities are removed to obtain a high-purity product. The whole preparation process requires strict compliance with operating procedures and attention to detail control to obtain (Sanxiang methyl) oxime ether stably and efficiently.
What should be paid attention to when storing and transporting O- (trifluoromethyl) chlorobenzene?
When storing and transporting O- (trimethyl) silica ether, it is very important to pay attention to it.
First, temperature is very important. This substance is quite sensitive to temperature. Under high temperature, it may cause its chemical properties to change and even decompose. Therefore, it should be stored in a cool place, usually 2-8 degrees Celsius. When transporting, it is also necessary to ensure that the ambient temperature is stable, avoid direct sunlight and heat sources, to prevent excessive temperature fluctuations.
Second, humidity cannot be ignored. Because it is easy to react with water vapor, encounter water or cause hydrolysis, thereby destroying its structure and impairing its efficiency. The storage place must be dry, and the relative humidity should be controlled between 40% and 60%. During transportation, it is also necessary to ensure that the packaging is tight to prevent moisture from invading.
Third, the choice of packaging material is extremely critical. Corrosion-resistant and well-sealed materials should be selected, such as glass or specific plastic containers. Glass containers can effectively isolate external substances and have high chemical stability; specific plastic materials have good toughness and sealing, which can resist external impact and penetration.
Fourth, keep away from fire sources and oxidants. This substance is flammable and in contact with oxidants, it is easy to cause violent reactions and endanger safety. Fireworks should be strictly prohibited in storage and transportation areas, and stored separately from oxidants.
Fifth, follow relevant regulations and standards. Whether it is storage or transportation, it is necessary to comply with the safety regulations set by the state and the industry, and make corresponding labels and records for tracking and management. In this way, the stability and safety of O- (trimethyl) silica ether during storage and transportation can be ensured.
First, temperature is very important. This substance is quite sensitive to temperature. Under high temperature, it may cause its chemical properties to change and even decompose. Therefore, it should be stored in a cool place, usually 2-8 degrees Celsius. When transporting, it is also necessary to ensure that the ambient temperature is stable, avoid direct sunlight and heat sources, to prevent excessive temperature fluctuations.
Second, humidity cannot be ignored. Because it is easy to react with water vapor, encounter water or cause hydrolysis, thereby destroying its structure and impairing its efficiency. The storage place must be dry, and the relative humidity should be controlled between 40% and 60%. During transportation, it is also necessary to ensure that the packaging is tight to prevent moisture from invading.
Third, the choice of packaging material is extremely critical. Corrosion-resistant and well-sealed materials should be selected, such as glass or specific plastic containers. Glass containers can effectively isolate external substances and have high chemical stability; specific plastic materials have good toughness and sealing, which can resist external impact and penetration.
Fourth, keep away from fire sources and oxidants. This substance is flammable and in contact with oxidants, it is easy to cause violent reactions and endanger safety. Fireworks should be strictly prohibited in storage and transportation areas, and stored separately from oxidants.
Fifth, follow relevant regulations and standards. Whether it is storage or transportation, it is necessary to comply with the safety regulations set by the state and the industry, and make corresponding labels and records for tracking and management. In this way, the stability and safety of O- (trimethyl) silica ether during storage and transportation can be ensured.
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