Linshang Chemical
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1-Fluoro-2-(Trichloromethyl)Benzene
Linshang Chemical
|
HS Code |
347269 |
| Chemical Formula | C7H4Cl3F |
| Molar Mass | 215.46 g/mol |
| Appearance | Liquid |
| Boiling Point | Around 202 - 204 °C |
| Water Solubility | Low solubility in water |
| Odor | Characteristic aromatic odor |
As an accredited 1-Fluoro-2-(Trichloromethyl)Benzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 - fluoro - 2 - (trichloromethyl)benzene in 500 - ml glass bottles, packed in cartons (quantity: 20 bottles per carton). |
| Storage | 1 - fluoro - 2 - (trichloromethyl)benzene should be stored in a cool, well - ventilated area away from heat, sparks, and open flames. Keep it in a tightly sealed container, preferably made of corrosion - resistant materials. Store it separately from oxidizing agents and incompatible substances to prevent potential chemical reactions. Label the storage container clearly for easy identification and safety. |
| Shipping | 1 - fluoro - 2 - (trichloromethyl)benzene is shipped in specialized, tightly - sealed containers compliant with chemical transportation regulations. These are carefully packed to prevent leakage during transit to ensure safety. |
Competitive 1-Fluoro-2-(Trichloromethyl)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.
We will respond to you as soon as possible.
Tel: +8615365006308
Email: info@alchemist-chem.com
Where to Buy 1-Fluoro-2-(Trichloromethyl)Benzene in China?
As a trusted 1-Fluoro-2-(Trichloromethyl)Benzene manufacturer, we deliver:
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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-Fluoro-2-(Trichloromethyl)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 main uses of 1-fluoro-2- (trichloromethyl) benzene?
1-% water-2- (trimethylphenyl) silicon, which has its unique use in ancient alchemy, techniques and other fields. In the art of alchemy and burning mercury, it is often used as a medium to promote the quality of gold and stone to blend and change. Because 1-% water-2- (trimethylphenyl) silicon has strange properties, it can stabilize the state of various things in the furnace tripod, slow down its speed, and make dansa, lead and mercury, according to the wishes of alchemists, gradually transform into spiritual things.
In the ancient casting industry, 1-% water-2- (trimethylphenyl) silicon is also indispensable. When casting swords, craftsmen add it to the furnace, which can change the texture of iron and make it both rigid and soft. This silicide can evenly disperse impurities in iron, making the sword body dense, the edge is sharp, and it is not easy to rust.
Furthermore, in the ancient printing and dyeing process, 1-% water-2- (trimethylphenyl) silicon also plays a wonderful role. The dyer treats the fabric with it, which can help the dye to adhere to it evenly, and the color is bright and lasting. After the fabric is treated, not only the color fastness is increased, but also the touch is smooth, and the quality is better.
In addition to medical pharmaceuticals, 1-% water-2- (trimethylphenyl) silicon is occasionally used. The system of some pill powder paste pills uses it to reconcile various medicines, so that the medicinal properties are integrated, which is easier for the human body to absorb, and can ensure that the medicine is not damaged for a long time.
Although ancient records or the exact nature and usage of this thing are not detailed, they are scattered in various ancient books, which proves that 1-% water-2- (trimethylphenyl) silicon was used in various industries in ancient times. It was used for the development of skills at that time, adding bricks and mortar to help it reach its peak.
In the ancient casting industry, 1-% water-2- (trimethylphenyl) silicon is also indispensable. When casting swords, craftsmen add it to the furnace, which can change the texture of iron and make it both rigid and soft. This silicide can evenly disperse impurities in iron, making the sword body dense, the edge is sharp, and it is not easy to rust.
Furthermore, in the ancient printing and dyeing process, 1-% water-2- (trimethylphenyl) silicon also plays a wonderful role. The dyer treats the fabric with it, which can help the dye to adhere to it evenly, and the color is bright and lasting. After the fabric is treated, not only the color fastness is increased, but also the touch is smooth, and the quality is better.
In addition to medical pharmaceuticals, 1-% water-2- (trimethylphenyl) silicon is occasionally used. The system of some pill powder paste pills uses it to reconcile various medicines, so that the medicinal properties are integrated, which is easier for the human body to absorb, and can ensure that the medicine is not damaged for a long time.
Although ancient records or the exact nature and usage of this thing are not detailed, they are scattered in various ancient books, which proves that 1-% water-2- (trimethylphenyl) silicon was used in various industries in ancient times. It was used for the development of skills at that time, adding bricks and mortar to help it reach its peak.
What are the physical properties of 1-fluoro-2- (trichloromethyl) benzene?
1-%E6%B0%9F-2-%28%E4%B8%89%E6%B0%AF%E7%94%B2%E5%9F%BA%29%E8%8B%AF%E7%9A%84%E7%89%A9%E7%90%86%E6%80%A7%E8%B4%A8%E4%B8%8B%E6%96%B9%E5%8D%B3%E4%B8%BA%E5%90%84%E7%A7%8D%E7%9B%B8%E5%85%B3%E6%8F%8F%E8%BF%B0:
This substance is colorless and transparent. It looks like water, and has no special color. Its smell is quite unique, emitting a faint and slightly irritating smell, but it is not pungent and unbearable. It can be detected by sniffing.
When it comes to volatility, this substance has a certain degree of volatility. In an environment of room temperature and pressure, it can be placed in an open container and gradually evaporate. Over time, its volume will gradually decrease. And because of its volatility, it will also diffuse in the air, but its volatilization rate is not very fast.
In terms of solubility, it has a certain solubility in water. When it is mixed with water, it can be partially dissolved in water to form a uniform mixed system. However, it is not mutually soluble with water in any ratio. After reaching a certain limit, it will no longer dissolve, and there will be stratification. The upper layer is an aqueous solution, and the lower layer is the undissolved substance.
When it comes to density, the density of 1-%E6%B0%9F-2-%28%E4%B8%89%E6%B0%AF%E7%94%B2%E5%9F%BA%29%E8%8B%AF is slightly larger than that of water. If it is carefully poured into water, it can be seen that it will slowly sink and live under the water layer. This property allows it to be separated from other substances according to density differences in some cases involving stratified separation.
As for the melting point and boiling point, the melting point of this substance is low, and it melts from solid to liquid at relatively low temperatures. And its boiling point is not very high, within a certain temperature range, it will change from liquid to gaseous, and boiling phenomenon occurs. The specific melting boiling point value will vary slightly depending on factors such as the purity of the substance involved and external pressure.
This substance is colorless and transparent. It looks like water, and has no special color. Its smell is quite unique, emitting a faint and slightly irritating smell, but it is not pungent and unbearable. It can be detected by sniffing.
When it comes to volatility, this substance has a certain degree of volatility. In an environment of room temperature and pressure, it can be placed in an open container and gradually evaporate. Over time, its volume will gradually decrease. And because of its volatility, it will also diffuse in the air, but its volatilization rate is not very fast.
In terms of solubility, it has a certain solubility in water. When it is mixed with water, it can be partially dissolved in water to form a uniform mixed system. However, it is not mutually soluble with water in any ratio. After reaching a certain limit, it will no longer dissolve, and there will be stratification. The upper layer is an aqueous solution, and the lower layer is the undissolved substance.
When it comes to density, the density of 1-%E6%B0%9F-2-%28%E4%B8%89%E6%B0%AF%E7%94%B2%E5%9F%BA%29%E8%8B%AF is slightly larger than that of water. If it is carefully poured into water, it can be seen that it will slowly sink and live under the water layer. This property allows it to be separated from other substances according to density differences in some cases involving stratified separation.
As for the melting point and boiling point, the melting point of this substance is low, and it melts from solid to liquid at relatively low temperatures. And its boiling point is not very high, within a certain temperature range, it will change from liquid to gaseous, and boiling phenomenon occurs. The specific melting boiling point value will vary slightly depending on factors such as the purity of the substance involved and external pressure.
What are the chemical properties of 1-fluoro-2- (trichloromethyl) benzene?
The chemical properties of 1-% -2- (tritritium methyl) benzene can be investigated. This substance contains special tritium atoms, tritium is a radioactive isotope of hydrogen, which has radioactive characteristics. Its decay can cause changes in the structure of surrounding molecules, making the compound different from conventional hydrobenzene in chemical reactions.
At the active end of the chemical reaction, because the mass of tritium atoms is larger than that of hydrogen atoms, a significant isotopic effect is produced. If it involves the breaking and formation of bonds of tritium atoms, the corresponding process requires more energy than that of ordinary hydrogen atoms. This makes the compound different from ordinary benzene derivatives in some substitution and addition reactions. Or due to the difference in bond energy, under certain conditions, the carbon-tritium bond connected to tritium in 1-% Y-2- (tritritium methyl) benzene is more difficult to break, resulting in different reaction selectivity.
Furthermore, its radioactivity endows the substance with unique tracer properties. In the field of scientific research, its radioactivity can be used to detect the metabolic pathway of the compound in the organism and the flow of the substance in the chemical reaction system. For drug development, labeling this compound can clearly observe its absorption, distribution, metabolism and excretion process in the organism, which can help researchers understand the mechanism of drug action.
However, due to its radioactivity, 1-% Y-2- (tritium methyl) benzene needs to be stored and used with extra caution. Strict operating regulations for radioactive materials must be followed to prevent radioactive leakage and endanger the safety of experimental personnel and the environment. The strict protective measures also limit its application scenarios, and can only be studied under the control of specific equipment and professionals. In short, the chemical properties of 1-% -2- (tritium methyl) benzene, due to the incorporation of tritium, combine unique reactivity and tracer functions, but radioactivity also sets many restrictions on its application.
At the active end of the chemical reaction, because the mass of tritium atoms is larger than that of hydrogen atoms, a significant isotopic effect is produced. If it involves the breaking and formation of bonds of tritium atoms, the corresponding process requires more energy than that of ordinary hydrogen atoms. This makes the compound different from ordinary benzene derivatives in some substitution and addition reactions. Or due to the difference in bond energy, under certain conditions, the carbon-tritium bond connected to tritium in 1-% Y-2- (tritritium methyl) benzene is more difficult to break, resulting in different reaction selectivity.
Furthermore, its radioactivity endows the substance with unique tracer properties. In the field of scientific research, its radioactivity can be used to detect the metabolic pathway of the compound in the organism and the flow of the substance in the chemical reaction system. For drug development, labeling this compound can clearly observe its absorption, distribution, metabolism and excretion process in the organism, which can help researchers understand the mechanism of drug action.
However, due to its radioactivity, 1-% Y-2- (tritium methyl) benzene needs to be stored and used with extra caution. Strict operating regulations for radioactive materials must be followed to prevent radioactive leakage and endanger the safety of experimental personnel and the environment. The strict protective measures also limit its application scenarios, and can only be studied under the control of specific equipment and professionals. In short, the chemical properties of 1-% -2- (tritium methyl) benzene, due to the incorporation of tritium, combine unique reactivity and tracer functions, but radioactivity also sets many restrictions on its application.
What is the production method of 1-fluoro-2- (trichloromethyl) benzene?
To prepare 1-ether-2- (trifluoromethyl) benzene, the method is as follows:
First take an appropriate amount of halogenated benzene, halogenated, chlorine, bromine or iodine, take bromobenzene as an example. Bromobenzene and trifluoromethyl-containing reagents, such as trifluoromethyl halide magnesium, in a suitable reaction vessel, under the condition of anhydrous and oxygen-free and suitable catalysts, the Grignard reaction is an important reaction in organic chemistry to form carbon-carbon bonds. In this reaction, the carbon-magnesium bond in trifluoromethyl halide has strong nucleophilicity, which can attack the aromatic ring of bromobenzene and replace the bromine atom to obtain the benzene derivative containing trifluoromethyl.
Then, the obtained benzene derivative containing trifluoromethyl is reacted with the halogenated ether. The halogenated atom of this halogenated ether can also be chlorine, bromine, and iodine, preferably brominated ether. In an alkaline environment and assisted by a phase transfer catalyst, the halogenated ether atom is replaced by the active check point of the trifluoromethylbenzene derivative. After the nucleophilic substitution reaction, the ether bond is formed, and the final result is 1-ether-2 - (trifluoromethyl) benzene.
During the reaction process, it is necessary to pay attention to the reaction temperature, reaction time and the proportion of each reactant. If the temperature is too high or too low, it can affect the reaction rate and product selectivity; if the time is too short, the reaction may be incomplete, and if it is too long, it may cause side reactions. The ratio of reactants is also critical, and it is difficult to achieve the ideal yield if the ratio is inappropriate. And the anhydrous and oxygen-free reaction environment is extremely important, because water and oxygen can destroy active intermediates such as Grignard's reagent, causing the reaction to fail. In this way, according to the above steps and precautions, 1-ether-2- (trifluoromethyl) benzene can be obtained.
First take an appropriate amount of halogenated benzene, halogenated, chlorine, bromine or iodine, take bromobenzene as an example. Bromobenzene and trifluoromethyl-containing reagents, such as trifluoromethyl halide magnesium, in a suitable reaction vessel, under the condition of anhydrous and oxygen-free and suitable catalysts, the Grignard reaction is an important reaction in organic chemistry to form carbon-carbon bonds. In this reaction, the carbon-magnesium bond in trifluoromethyl halide has strong nucleophilicity, which can attack the aromatic ring of bromobenzene and replace the bromine atom to obtain the benzene derivative containing trifluoromethyl.
Then, the obtained benzene derivative containing trifluoromethyl is reacted with the halogenated ether. The halogenated atom of this halogenated ether can also be chlorine, bromine, and iodine, preferably brominated ether. In an alkaline environment and assisted by a phase transfer catalyst, the halogenated ether atom is replaced by the active check point of the trifluoromethylbenzene derivative. After the nucleophilic substitution reaction, the ether bond is formed, and the final result is 1-ether-2 - (trifluoromethyl) benzene.
During the reaction process, it is necessary to pay attention to the reaction temperature, reaction time and the proportion of each reactant. If the temperature is too high or too low, it can affect the reaction rate and product selectivity; if the time is too short, the reaction may be incomplete, and if it is too long, it may cause side reactions. The ratio of reactants is also critical, and it is difficult to achieve the ideal yield if the ratio is inappropriate. And the anhydrous and oxygen-free reaction environment is extremely important, because water and oxygen can destroy active intermediates such as Grignard's reagent, causing the reaction to fail. In this way, according to the above steps and precautions, 1-ether-2- (trifluoromethyl) benzene can be obtained.
What are the precautions for using 1-fluoro-2- (trichloromethyl) benzene?
1-% -2- (tritritium methyl) silicon, use it on the road, and pay attention to all things. This agent is unique, related to safety and effectiveness, and needs to be carefully observed.
First, take care of safety protection. 1-% -2- (tritium methyl) silicon is active, or plays with other things. When handling, you must wear suitable protective equipment, such as gloves, goggles, protective clothing, etc., to prevent it from touching the body, skin, and entering the eyes. And when operating in a well-ventilated place, if it is in a closed room, gas accumulation is easy to cause danger, so the ventilation equipment must be good to dissipate harmful air.
Second, accurately weigh and take. This agent is precious and special, and the amount used must be accurate. When weighing, use a precise measuring tool for it, and the action should be sensitive to avoid it being exposed to the air for a long time to prevent qualitative change.
Third, pay attention to storage conditions. 1-% -2- (tritium methyl) silicon should be stored in cool, dry and dark places, protected from heat and humidity. Heat can promote its decomposition, wet or cause its hydrolysis. Separate storage with other substances to prevent interaction.
Fourth, familiar with the reaction characteristics. To participate in the reaction, you must first know the formula and conditions of its reaction with the reactants. Know the required temperature and pressure, and know whether there is a catalyst, so as to control the reaction and avoid accidents.
Fifth, waste disposal should not be neglected. Residues after use should not be discarded at will. Because of its particularity, or radioactive content, etc., it should be handled in accordance with relevant regulations to ensure the safety of the environment and people.
In short, the use of 1-% N-2- (tritium methyl) silicon should be done with caution in safety, operation, storage, reaction and waste, and in accordance with procedures to ensure that everything goes smoothly and is safe.
First, take care of safety protection. 1-% -2- (tritium methyl) silicon is active, or plays with other things. When handling, you must wear suitable protective equipment, such as gloves, goggles, protective clothing, etc., to prevent it from touching the body, skin, and entering the eyes. And when operating in a well-ventilated place, if it is in a closed room, gas accumulation is easy to cause danger, so the ventilation equipment must be good to dissipate harmful air.
Second, accurately weigh and take. This agent is precious and special, and the amount used must be accurate. When weighing, use a precise measuring tool for it, and the action should be sensitive to avoid it being exposed to the air for a long time to prevent qualitative change.
Third, pay attention to storage conditions. 1-% -2- (tritium methyl) silicon should be stored in cool, dry and dark places, protected from heat and humidity. Heat can promote its decomposition, wet or cause its hydrolysis. Separate storage with other substances to prevent interaction.
Fourth, familiar with the reaction characteristics. To participate in the reaction, you must first know the formula and conditions of its reaction with the reactants. Know the required temperature and pressure, and know whether there is a catalyst, so as to control the reaction and avoid accidents.
Fifth, waste disposal should not be neglected. Residues after use should not be discarded at will. Because of its particularity, or radioactive content, etc., it should be handled in accordance with relevant regulations to ensure the safety of the environment and people.
In short, the use of 1-% N-2- (tritium methyl) silicon should be done with caution in safety, operation, storage, reaction and waste, and in accordance with procedures to ensure that everything goes smoothly and is safe.
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