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Benzene, 1,3-Dichloro-5-[1-(Trifluoromethyl)Ethenyl]-
Linshang Chemical
|
HS Code |
422042 |
| Chemical Formula | C8H4Cl2F3 |
| Molecular Weight | 239.02 |
As an accredited Benzene, 1,3-Dichloro-5-[1-(Trifluoromethyl)Ethenyl]- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of 1,3 - dichloro - 5 - [1 - (trifluoromethyl)ethenyl]benzene in sealed chemical - grade container. |
| Storage | Store "Benzene, 1,3 - dichloro - 5 - [1 - (trifluoromethyl)ethenyl]" in a cool, well - ventilated area, away from heat, sparks, and open flames. Keep it in a tightly sealed container made of materials compatible with the chemical, like corrosion - resistant metal or certain plastics. Separate from oxidizing agents and reactive substances to prevent hazardous reactions. |
| Shipping | The chemical "Benzene, 1,3 - dichloro - 5 - [1 - (trifluoromethyl)ethenyl]" should be shipped in accordance with strict hazardous material regulations. Use appropriate, secure containers to prevent leakage during transit. |
Competitive Benzene, 1,3-Dichloro-5-[1-(Trifluoromethyl)Ethenyl]- prices that fit your budget—flexible terms and customized quotes for every order.
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Where to Buy Benzene, 1,3-Dichloro-5-[1-(Trifluoromethyl)Ethenyl]- in China?
As a trusted Benzene, 1,3-Dichloro-5-[1-(Trifluoromethyl)Ethenyl]- manufacturer, we deliver:
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As a leading Benzene, 1,3-Dichloro-5-[1-(Trifluoromethyl)Ethenyl]- supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.
What is the main use of this product 1,3-dichloro-5- [1- (trifluoromethyl) vinyl] benzene
This is a kind of thing called "1,3-dioxy-5 - [1 - (triethylmethyl) acetyl] naphthalene". Its use is quite extensive. Although this specific compound is not specifically mentioned in books such as "Tiangong Kaiwu", it can be inferred from the ancient people's understanding of the uses of various substances and chemical techniques.
In the past, such organic compounds containing specific structures may have been used in the field of dye preparation. Because the ancient people pursued color very much, they often looked for dyes from natural or synthetic substances. The structure of this compound may give it special dyeing properties. After proper treatment, it can dye fabrics with unique and lasting colors, and play a role in the dyeing process of silk, cotton and other fabrics.
Furthermore, it may be useful in the formulation of fragrances. Ancient nobles and scholars were quite particular about fragrances, and some organic compounds with special odors could be used as fragrance ingredients. The unique molecular structure of this compound may give it a pleasant aroma. After refining, mixing and other processes, it may become a raw material for blending unique fragrances, used in incense, making sachets, etc., to add an elegant atmosphere to life.
In addition, it may also have potential uses in some traditional medicine fields. In the exploration of medicine, the ancients studied various natural and synthetic substances. Although there is no conclusive evidence that this compound must be a commonly used medicinal material, the chemical groups it contains may have certain pharmacological activities, which have been tried and explored by ancient people, or can be used as auxiliary ingredients in some formulas to relieve specific diseases.
In the past, such organic compounds containing specific structures may have been used in the field of dye preparation. Because the ancient people pursued color very much, they often looked for dyes from natural or synthetic substances. The structure of this compound may give it special dyeing properties. After proper treatment, it can dye fabrics with unique and lasting colors, and play a role in the dyeing process of silk, cotton and other fabrics.
Furthermore, it may be useful in the formulation of fragrances. Ancient nobles and scholars were quite particular about fragrances, and some organic compounds with special odors could be used as fragrance ingredients. The unique molecular structure of this compound may give it a pleasant aroma. After refining, mixing and other processes, it may become a raw material for blending unique fragrances, used in incense, making sachets, etc., to add an elegant atmosphere to life.
In addition, it may also have potential uses in some traditional medicine fields. In the exploration of medicine, the ancients studied various natural and synthetic substances. Although there is no conclusive evidence that this compound must be a commonly used medicinal material, the chemical groups it contains may have certain pharmacological activities, which have been tried and explored by ancient people, or can be used as auxiliary ingredients in some formulas to relieve specific diseases.
What are the physical properties of 1,3-dichloro-5- [1- (trifluoromethyl) vinyl] benzene
The physical properties of 1% 2C3 + - + dioxy + - + 5 + - + [1- (triethyl) ethyl ether] naphthalene are as follows:
In this compound, the 1,3-dioxy structure endows it with certain stability and specific reactivity. The electron cloud distribution of the dioxy group changes the polarity of the surrounding chemical bonds, which in turn affects its physical and chemical properties.
The presence of the No. 5 position in the molecule produces a specific resistance effect on the spatial structure, which affects the arrangement and interaction between molecules. Atoms or groups at this position can be spatially repelled or attracted to other molecules, affecting physical properties such as melting point and boiling point.
And the [1- (triethyl) ethyl ether group] naphthalene part, the naphthalene ring has a conjugated system, which imparts a certain aromaticity to the compound. The delocalization of the π electron cloud of the naphthalene ring makes the molecule more stable, and also improves the stability of light and heat. At the same time, the planar structure of the naphthalene ring makes the molecule have a specific arrangement in crystal or solution. The introduction of
(triethyl) ethyl ether group adds the characteristics of long-chain alkyl groups to the molecule. Long-chain alkyl groups enhance the lipophilicity of the molecule and may increase the solubility in organic solvents. And the presence of alkyl groups changes the dipole moment of the molecule and affects the intermolecular forces, such as van der Waals forces, which affect the melting point, boiling point and other physical properties. Overall, this compound exhibits unique physical properties due to the synergistic effect of various parts, and may have potential application value in the fields of organic synthesis and materials science.
In this compound, the 1,3-dioxy structure endows it with certain stability and specific reactivity. The electron cloud distribution of the dioxy group changes the polarity of the surrounding chemical bonds, which in turn affects its physical and chemical properties.
The presence of the No. 5 position in the molecule produces a specific resistance effect on the spatial structure, which affects the arrangement and interaction between molecules. Atoms or groups at this position can be spatially repelled or attracted to other molecules, affecting physical properties such as melting point and boiling point.
And the [1- (triethyl) ethyl ether group] naphthalene part, the naphthalene ring has a conjugated system, which imparts a certain aromaticity to the compound. The delocalization of the π electron cloud of the naphthalene ring makes the molecule more stable, and also improves the stability of light and heat. At the same time, the planar structure of the naphthalene ring makes the molecule have a specific arrangement in crystal or solution. The introduction of
(triethyl) ethyl ether group adds the characteristics of long-chain alkyl groups to the molecule. Long-chain alkyl groups enhance the lipophilicity of the molecule and may increase the solubility in organic solvents. And the presence of alkyl groups changes the dipole moment of the molecule and affects the intermolecular forces, such as van der Waals forces, which affect the melting point, boiling point and other physical properties. Overall, this compound exhibits unique physical properties due to the synergistic effect of various parts, and may have potential application value in the fields of organic synthesis and materials science.
Precautions for the production of 1,3-dichloro-5- [1- (trifluoromethyl) vinyl] benzene
In the production process of 1% 2C3-dioxy-5- [1- (triethyl) ethanolyl] benzene, many matters must be paid attention to.
First, it is related to the quality of raw materials. The purity and impurity content of various raw materials used, such as 1% 2C3-dioxy, 5- [1- (triethyl) ethanolyl] benzene-related precursors, have a profound impact on the quality of the product. If the raw materials are impure, or contain impurities, or cause more reaction by-products, it will affect the purity and yield of the product. Therefore, it is necessary to strictly control the procurement channels of raw materials, carefully test the quality of raw materials, and ensure that they meet production standards.
Second, the reaction conditions are extremely critical. In terms of temperature, different reaction stages have strict temperature requirements. If the temperature is too high or too low, the reaction rate and direction may be changed. If the appropriate temperature for a certain stage is X ° C, the deviation is too large, or the reaction cannot proceed smoothly, or even cause safety problems. The same is true for pressure. A specific reaction requires a specific pressure environment, the pressure is unstable, or the reaction process is abnormal. In addition, the reaction time cannot be ignored. If the time is too short, the reaction is not complete; if the time is too long, the product may decompose or overreact.
Third, safety protection should not be underestimated. This production involves chemical substances, some of which may be toxic, corrosive or flammable and explosive. Operators must strictly abide by safety regulations and wear protective clothing, gloves, goggles and other protective equipment. The production site should be equipped with a perfect ventilation system to discharge harmful gases in a timely manner. Safety facilities such as fire suppression and explosion protection should also be provided. Regular inspection and maintenance should be carried out to ensure that emergency situations can be responded quickly.
Fourth, equipment maintenance is of paramount importance. Reactors, pipes, valves and other equipment, long-term use or wear and corrosion. Regular inspection, cleaning and maintenance of equipment, and timely replacement of damaged parts can ensure the normal operation of equipment, avoid leakage and other accidents, and ensure stable production and product quality.
Fifth, quality monitoring runs through the whole process. From raw material input to product output, strict quality inspection is required in all links. Appropriate analytical methods and instruments, such as chromatography, spectroscopy, etc., are used to monitor the reaction process and product quality in real time. Identify quality problems and adjust production parameters in a timely manner to ensure that the final product meets Quality Standards.
First, it is related to the quality of raw materials. The purity and impurity content of various raw materials used, such as 1% 2C3-dioxy, 5- [1- (triethyl) ethanolyl] benzene-related precursors, have a profound impact on the quality of the product. If the raw materials are impure, or contain impurities, or cause more reaction by-products, it will affect the purity and yield of the product. Therefore, it is necessary to strictly control the procurement channels of raw materials, carefully test the quality of raw materials, and ensure that they meet production standards.
Second, the reaction conditions are extremely critical. In terms of temperature, different reaction stages have strict temperature requirements. If the temperature is too high or too low, the reaction rate and direction may be changed. If the appropriate temperature for a certain stage is X ° C, the deviation is too large, or the reaction cannot proceed smoothly, or even cause safety problems. The same is true for pressure. A specific reaction requires a specific pressure environment, the pressure is unstable, or the reaction process is abnormal. In addition, the reaction time cannot be ignored. If the time is too short, the reaction is not complete; if the time is too long, the product may decompose or overreact.
Third, safety protection should not be underestimated. This production involves chemical substances, some of which may be toxic, corrosive or flammable and explosive. Operators must strictly abide by safety regulations and wear protective clothing, gloves, goggles and other protective equipment. The production site should be equipped with a perfect ventilation system to discharge harmful gases in a timely manner. Safety facilities such as fire suppression and explosion protection should also be provided. Regular inspection and maintenance should be carried out to ensure that emergency situations can be responded quickly.
Fourth, equipment maintenance is of paramount importance. Reactors, pipes, valves and other equipment, long-term use or wear and corrosion. Regular inspection, cleaning and maintenance of equipment, and timely replacement of damaged parts can ensure the normal operation of equipment, avoid leakage and other accidents, and ensure stable production and product quality.
Fifth, quality monitoring runs through the whole process. From raw material input to product output, strict quality inspection is required in all links. Appropriate analytical methods and instruments, such as chromatography, spectroscopy, etc., are used to monitor the reaction process and product quality in real time. Identify quality problems and adjust production parameters in a timely manner to ensure that the final product meets Quality Standards.
What are the market prospects for 1,3-dichloro-5- [1- (trifluoromethyl) vinyl] benzene?
Looking at this "1%2C3+-+%E4%BA%8C%E6%B0%AF+-+5+-+%5B1+-+%28%E4%B8%89%E6%B0%9F%E7%94%B2%E5%9F%BA%29%E4%B9%99%E7%83%AF%E5%9F%BA%5D%E8%8B%AF", the things mentioned in it involve various chemical related names such as dioxy and trimethylethyl ether.
In terms of the current market prospect, if the dioxy contained in it is a key raw material for specific industrial uses, and the related industries are booming, the demand for it may be increasing. However, it should be noted that the production, use or regulation of dioxy is subject to many regulations. If the compliance cost is too high, it may hinder the market expansion.
As for " (triethylmethyl) ethyl ether group", if it exhibits unique properties in the field of emerging materials research and development, high-end fine chemicals, and can give special advantages to the product, such as improving stability, improving reactivity, etc., it is expected to find opportunities in the relevant market segments. However, its marketing activities also depend on the R & D progress, production costs and acceptance of downstream application fields.
Furthermore, if the overall combination can form a unique product system to meet the needs of specific industries and specific scenarios, such as electronic chemicals, pharmaceutical intermediates and other fields, it may open up a market world. However, market competition should not be underestimated. It is necessary to make efforts in terms of quality, price, and supply stability in order to stand out, gain a place in the market, and gain opportunities for development.
In terms of the current market prospect, if the dioxy contained in it is a key raw material for specific industrial uses, and the related industries are booming, the demand for it may be increasing. However, it should be noted that the production, use or regulation of dioxy is subject to many regulations. If the compliance cost is too high, it may hinder the market expansion.
As for " (triethylmethyl) ethyl ether group", if it exhibits unique properties in the field of emerging materials research and development, high-end fine chemicals, and can give special advantages to the product, such as improving stability, improving reactivity, etc., it is expected to find opportunities in the relevant market segments. However, its marketing activities also depend on the R & D progress, production costs and acceptance of downstream application fields.
Furthermore, if the overall combination can form a unique product system to meet the needs of specific industries and specific scenarios, such as electronic chemicals, pharmaceutical intermediates and other fields, it may open up a market world. However, market competition should not be underestimated. It is necessary to make efforts in terms of quality, price, and supply stability in order to stand out, gain a place in the market, and gain opportunities for development.
What are the environmental effects of 1,3-dichloro-5- [1- (trifluoromethyl) vinyl] benzene?
1% 2C3 is one, two, three, dioxides, that is, carbon dioxide. 5, the number five is also. As for this [1 - (trialkyl methyl) ethynyl] naphthalene, this is one of the organic compounds.
This carbon dioxide is quite common between heaven and earth. If the amount is appropriate, it can help the vitality of all things. Plants rely on it for photosynthesis to produce nutrients and form the basis for growth. However, if it is excessive, it will cause the greenhouse effect, causing the climate to warm up, glaciers to melt, sea levels to rise, and the habitat and habits of many creatures to be greatly changed.
Organic compounds such as [1 - (trialkyl methyl) ethynyl] naphthalene exist in the world and have an impact on the surrounding environment. Because of its specific chemical properties, it may react with various substances in the environment. If it flows into the water source, it may pollute it, and the survival of aquatic organisms may be threatened, or its physiological function may be disturbed, and reproduction will be hindered. If it escapes from the atmosphere, it may participate in photochemical reactions, generate harmful substances, damage air quality, and be unfavorable to human respiratory health.
As for the number 5, although it is a simple number, it may also be related to environmental events. Or characterize the quantity, concentration, etc. of something, the change of value, or the change of the environment. Therefore, these three are all closely related to the state of the environment and cannot be ignored.
This carbon dioxide is quite common between heaven and earth. If the amount is appropriate, it can help the vitality of all things. Plants rely on it for photosynthesis to produce nutrients and form the basis for growth. However, if it is excessive, it will cause the greenhouse effect, causing the climate to warm up, glaciers to melt, sea levels to rise, and the habitat and habits of many creatures to be greatly changed.
Organic compounds such as [1 - (trialkyl methyl) ethynyl] naphthalene exist in the world and have an impact on the surrounding environment. Because of its specific chemical properties, it may react with various substances in the environment. If it flows into the water source, it may pollute it, and the survival of aquatic organisms may be threatened, or its physiological function may be disturbed, and reproduction will be hindered. If it escapes from the atmosphere, it may participate in photochemical reactions, generate harmful substances, damage air quality, and be unfavorable to human respiratory health.
As for the number 5, although it is a simple number, it may also be related to environmental events. Or characterize the quantity, concentration, etc. of something, the change of value, or the change of the environment. Therefore, these three are all closely related to the state of the environment and cannot be ignored.
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