Linshang Chemical
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Benzene, 2-Bromo-1-Chloro-3-Methyl-
Linshang Chemical
|
HS Code |
778015 |
| Chemical Formula | C7H6BrCl |
| Molar Mass | 207.48 g/mol |
| Appearance | Solid (predicted, based on similar aromatic halides) |
| Boiling Point | Estimated around 220 - 240 °C (due to aromatic structure and halogen atoms increasing boiling point) |
| Melting Point | Predicted to be in the range of 30 - 50 °C (considering similar aromatic compounds with halogens and methyl group) |
| Density | Estimated around 1.6 - 1.8 g/cm³ (higher than water due to halogen atoms) |
| Solubility In Water | Insoluble (aromatic non - polar compound with hydrophobic groups) |
| Solubility In Organic Solvents | Soluble in common organic solvents like ethanol, diethyl ether, and chloroform (due to non - polar nature) |
| Vapor Pressure | Low vapor pressure at room temperature (due to relatively high molar mass and intermolecular forces) |
| Flash Point | Predicted to be around 90 - 110 °C (flammability hazard associated with aromatic compounds containing halogens) |
As an accredited Benzene, 2-Bromo-1-Chloro-3-Methyl- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 - gram bottle of 2 - bromo - 1 - chloro - 3 - methyl benzene with secure chemical - resistant packaging. |
| Storage | Store “Benzene, 2 - bromo - 1 - chloro - 3 - methyl -” in a cool, well - ventilated area away from heat, sparks, and open flames. Keep it in a tightly - sealed container made of a material resistant to corrosion, such as glass or certain plastics. Separate from oxidizing agents, strong acids, and bases. Label the storage clearly to prevent misuse. |
| Shipping | The chemical "Benzene, 2 - bromo - 1 - chloro - 3 - methyl -" should be shipped in tightly sealed, corrosion - resistant containers. Label packages clearly as hazardous. Follow all relevant regulations for transporting chemicals by appropriate means like road or sea freight. |
Competitive Benzene, 2-Bromo-1-Chloro-3-Methyl- prices that fit your budget—flexible terms and customized quotes for every order.
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What is the Chinese name of this compound?
What is the Chinese chemical name of this compound? The following answer is in the classical Chinese form of "Tiangong Kaiwu".
There are many kinds of compounds in the world, but it is difficult to determine what this "compound" refers to.
Cover all things in the world, each has its own name, and the name is to express its quality, shape, properties, and uses. To know the name of a compound, you need to know the elements it is composed of, observe its morphology, observe its properties, and know its uses before you can get its exact name.
If this compound is gold or stone, or born in mountains and rivers, or hidden in mineral veins. Observe its color and luster, distinguish its texture, test its hardness, measure its melting point, or according to the method of naming gold and stone, it can be named after its distinctive sign. Such as hematite, because of its red color and iron-like, so it gets this name.
If it is a compound of plants and trees, it should be investigated what kind of grass and wood it comes from, and its processing method and effect. Such as Rehmannia, after being steamed and processed in the sun, it is as black as lacquer, and its properties change from cold to warm, and its use also changes, so it has the name of cooked land.
If it is something refined by water and fire, it must be carefully observed. The refining process, the degree of heat, and the change of the product. Such as lead pill, with lead and saltpeter and other combined refining, through the change of heat, to obtain a red thing, so the name of lead pill.
Now I don't know the details of this compound, it is difficult to determine its name. It is necessary to clarify its various characteristics before it can be named according to the ancient method.
There are many kinds of compounds in the world, but it is difficult to determine what this "compound" refers to.
Cover all things in the world, each has its own name, and the name is to express its quality, shape, properties, and uses. To know the name of a compound, you need to know the elements it is composed of, observe its morphology, observe its properties, and know its uses before you can get its exact name.
If this compound is gold or stone, or born in mountains and rivers, or hidden in mineral veins. Observe its color and luster, distinguish its texture, test its hardness, measure its melting point, or according to the method of naming gold and stone, it can be named after its distinctive sign. Such as hematite, because of its red color and iron-like, so it gets this name.
If it is a compound of plants and trees, it should be investigated what kind of grass and wood it comes from, and its processing method and effect. Such as Rehmannia, after being steamed and processed in the sun, it is as black as lacquer, and its properties change from cold to warm, and its use also changes, so it has the name of cooked land.
If it is something refined by water and fire, it must be carefully observed. The refining process, the degree of heat, and the change of the product. Such as lead pill, with lead and saltpeter and other combined refining, through the change of heat, to obtain a red thing, so the name of lead pill.
Now I don't know the details of this compound, it is difficult to determine its name. It is necessary to clarify its various characteristics before it can be named according to the ancient method.
How is the structural formula of this compound written?
The book of simple structural formulas of a chemical compound is concerned with the accuracy and clarity of chemical expression, and is also essential for chemical study and communication. If you want to write this simple formula, you should follow a specific method, and you can refer to the thinking of "Tiangong Kaiwu" and describe it in ancient Chinese.
First, clarify the constituent elements and atomic number of the compound. Detailed analysis of the types of elements in the compound, determine the atomic ratio, this is the basis of the book structure simple formula. For example, "Tiangong Kaiwu" describes various things, first explain the composition of its raw materials, and then describe its changes. In chemistry, identify the elements as the raw materials of known things. If the compound contains carbon, hydrogen, and oxygen elements, determine the number of atoms of each element.
Second, the connection between atoms is known. Atoms are connected in compounds by covalent bonds, ionic bonds, etc., and their connection modes can be known before quasi-structural simple formulas. In covalent compounds, carbon is often bonded in tetravalent, hydrogen in monovalent, and oxygen in divalent. Such as alkanes, carbon and carbon are connected by single bonds, and residual bonds are connected to hydrogen. This is like the structure of the utensils in "Tiangong Kaiwu", and the components are connected in an orderly manner.
Furthermore, according to the standard symbols and representations. Carbon is represented by "C", hydrogen is represented by "H", and oxygen is represented by "O". Single bonds are represented by "-", double bonds are represented by "=", and triple bonds are represented by "≡". When writing, the main chain of the carbon chain is usually placed horizontally, and the side chains are connected to the main chain in short lines. For example, methane, the structural formula is "CH", and ethane is "CH". This specification is like the drawing example of "Tiangong Kaiwu", each has a fixed formula, which is easy to read.
Also, if the compound contains functional groups, its structure and representation need to be explained. Such as hydroxyl "OH", carboxyl "- COOH". When the book structure is simple, the functional groups are written in the corresponding position according to the specification. This is like the key components of "Tiangong Kaiwu", and the functional groups are also the key to the properties of the compounds.
In short, the simple structural formula of a book compound requires a clear understanding of the composition of elements, atomic connections, standardized representations, and functional group characteristics, in order to achieve accuracy and accuracy, and to facilitate the study, exchange, and application of chemistry. Just like the process of "Tiangong Kaiwu", it is necessary to be clear and accurate.
First, clarify the constituent elements and atomic number of the compound. Detailed analysis of the types of elements in the compound, determine the atomic ratio, this is the basis of the book structure simple formula. For example, "Tiangong Kaiwu" describes various things, first explain the composition of its raw materials, and then describe its changes. In chemistry, identify the elements as the raw materials of known things. If the compound contains carbon, hydrogen, and oxygen elements, determine the number of atoms of each element.
Second, the connection between atoms is known. Atoms are connected in compounds by covalent bonds, ionic bonds, etc., and their connection modes can be known before quasi-structural simple formulas. In covalent compounds, carbon is often bonded in tetravalent, hydrogen in monovalent, and oxygen in divalent. Such as alkanes, carbon and carbon are connected by single bonds, and residual bonds are connected to hydrogen. This is like the structure of the utensils in "Tiangong Kaiwu", and the components are connected in an orderly manner.
Furthermore, according to the standard symbols and representations. Carbon is represented by "C", hydrogen is represented by "H", and oxygen is represented by "O". Single bonds are represented by "-", double bonds are represented by "=", and triple bonds are represented by "≡". When writing, the main chain of the carbon chain is usually placed horizontally, and the side chains are connected to the main chain in short lines. For example, methane, the structural formula is "CH", and ethane is "CH". This specification is like the drawing example of "Tiangong Kaiwu", each has a fixed formula, which is easy to read.
Also, if the compound contains functional groups, its structure and representation need to be explained. Such as hydroxyl "OH", carboxyl "- COOH". When the book structure is simple, the functional groups are written in the corresponding position according to the specification. This is like the key components of "Tiangong Kaiwu", and the functional groups are also the key to the properties of the compounds.
In short, the simple structural formula of a book compound requires a clear understanding of the composition of elements, atomic connections, standardized representations, and functional group characteristics, in order to achieve accuracy and accuracy, and to facilitate the study, exchange, and application of chemistry. Just like the process of "Tiangong Kaiwu", it is necessary to be clear and accurate.
What are the physical properties of this compound?
This compound has many physical properties. Its color state is usually a colorless and transparent liquid, which appears in this state at room temperature and pressure, and has fluidity and can flow freely.
Looking at its odor, it often emits a special aromatic smell, which is unique and can be used as one of the identification characteristics. Its density is slightly different from that of water. Specifically, it is usually slightly less than the density of water. If it is placed in the same container as water, it can be seen that it floats on the water surface.
When it comes to solubility, this compound has good solubility in organic solvents. Common organic solvents such as ethanol and ether can be miscible with it to form a uniform and stable solution. However, in water, its solubility is relatively limited, only slightly soluble in water.
Its boiling point also has a specific value. Under certain pressure conditions, it will boil and vaporize when it reaches a specific temperature. The value of the boiling point is an important physical constant of the compound, which is of great significance for its separation, purification and other operations. In terms of melting point, when the temperature drops to a specific value, the compound will change from liquid to solid state, and this melting point is also one of its inherent physical properties.
In addition, the refractive index of the compound is also a specific constant. When light passes through the compound, it will be refracted. The refractive index can be used to identify the purity and type of the compound. Its surface tension also has a certain value, which affects the behavior of the compound when it comes into contact with the surface of other substances.
Looking at its odor, it often emits a special aromatic smell, which is unique and can be used as one of the identification characteristics. Its density is slightly different from that of water. Specifically, it is usually slightly less than the density of water. If it is placed in the same container as water, it can be seen that it floats on the water surface.
When it comes to solubility, this compound has good solubility in organic solvents. Common organic solvents such as ethanol and ether can be miscible with it to form a uniform and stable solution. However, in water, its solubility is relatively limited, only slightly soluble in water.
Its boiling point also has a specific value. Under certain pressure conditions, it will boil and vaporize when it reaches a specific temperature. The value of the boiling point is an important physical constant of the compound, which is of great significance for its separation, purification and other operations. In terms of melting point, when the temperature drops to a specific value, the compound will change from liquid to solid state, and this melting point is also one of its inherent physical properties.
In addition, the refractive index of the compound is also a specific constant. When light passes through the compound, it will be refracted. The refractive index can be used to identify the purity and type of the compound. Its surface tension also has a certain value, which affects the behavior of the compound when it comes into contact with the surface of other substances.
What are the main chemical properties of this compound?
The main chemical properties of this compound are as follows:
First, it is acidic and alkaline. Some compounds contain acidic groups that can ionize hydrogen ions, such as carboxyl groups (-COOH), which can neutralize with bases. Taking acetic acid as an example, it reacts with sodium hydroxide to form sodium acetate and water: $CH_ {3} COOH + NaOH\ longrightarrow CH_ {3} COONa + H_ {2} O $. If it contains basic groups such as amino groups (-NH2O), it can react with acids, such as methylamine and hydrochloric acid to form methylamine hydrochloride: $CH_ {3} NH_ {2} + HCl\ longrightarrow CH_ {3} NH_ {3} ^ {+} Cl ^{-}$ 。
Second, it has redox properties. Those containing unsaturated bonds or low-priced elements are easily oxidized. Like olefins, they contain carbon-carbon double bonds, which can be oxidized by acidic potassium permanganate solutions to cause double bond fracture. Ethanol can be oxidized to acetaldehyde by oxygen under copper or silver catalysis: $2CH_ {3} CH_ {2} OH + O_ {2}\ xrightarrow [\ Delta] {Cu or Ag} 2CH_ {3} CHO + 2H_ {2} O $. Those containing high-valent elements or groups with strong electronic capacity have oxidation properties. For example, manganese in potassium permanganate is + 7 valent, which has strong oxidation properties and can oxidize many substances.
Third, there are substitution reaction characteristics. In organic compounds, atoms or groups of atoms can be replaced by other atoms or groups. For example, methane and chlorine undergoes a substitution reaction under light to generate monochloromethane, dichloromethane, trichloromethane and carbon tetrachloride: $CH_ {4} + Cl_ {2}\ xrightarrow {light} CH_ {3} Cl + HCl $. Benzene undergoes a substitution reaction with liquid bromine under iron catalysis to generate bromobenzene: $C_ {6} H_ {6} + Br_ {2}\ xrightarrow {Fe} C_ {6} H_ {5} Br + HBr $.
Fourth, it has the properties of addition reaction. Compounds containing unsaturated bonds, such as olefins, alkynes, etc., can be added with other molecules. Ethylene reacts with bromine water, the carbon-carbon double bond is opened, and the addition of bromine atoms generates 1,2-dibromoethane: $CH_ {2} = CH_ {2} + Br_ {2}\ longrightarrow CH_ {2} BrCH_ {2} Br $. Acetylene and hydrogen can undergo an addition reaction under the action of a catalyst to produce ethylene or ethane.
Fifth, some compounds have hydrolytic properties. Ester compounds can be hydrolyzed under the catalysis of acids or bases. Ethyl acetate is hydrolyzed to acetic acid and ethanol under acidic conditions: $CH_ {3} COOC_ {2} H_ {5} + H_ {2} O\ underset {\ Delta} {\ overset {dilute sulfuric acid} {\ rightleftharpoons}} CH_ {3} COOH + C_ {2} H_ {5} OH $; hydrolysis is more complete under alkaline conditions, resulting in acetate and ethanol. Halogenated hydrocarbons can also be hydrolyzed. In aqueous sodium hydroxide, bromoethane is hydrolyzed to ethanol and sodium bromide: $CH_ {3} CH_ {2} Br + NaOH\ xrightarrow {H_ {2} O} CH_ {3} CH_ {2} OH + NaBr $.
First, it is acidic and alkaline. Some compounds contain acidic groups that can ionize hydrogen ions, such as carboxyl groups (-COOH), which can neutralize with bases. Taking acetic acid as an example, it reacts with sodium hydroxide to form sodium acetate and water: $CH_ {3} COOH + NaOH\ longrightarrow CH_ {3} COONa + H_ {2} O $. If it contains basic groups such as amino groups (-NH2O), it can react with acids, such as methylamine and hydrochloric acid to form methylamine hydrochloride: $CH_ {3} NH_ {2} + HCl\ longrightarrow CH_ {3} NH_ {3} ^ {+} Cl ^{-}$ 。
Second, it has redox properties. Those containing unsaturated bonds or low-priced elements are easily oxidized. Like olefins, they contain carbon-carbon double bonds, which can be oxidized by acidic potassium permanganate solutions to cause double bond fracture. Ethanol can be oxidized to acetaldehyde by oxygen under copper or silver catalysis: $2CH_ {3} CH_ {2} OH + O_ {2}\ xrightarrow [\ Delta] {Cu or Ag} 2CH_ {3} CHO + 2H_ {2} O $. Those containing high-valent elements or groups with strong electronic capacity have oxidation properties. For example, manganese in potassium permanganate is + 7 valent, which has strong oxidation properties and can oxidize many substances.
Third, there are substitution reaction characteristics. In organic compounds, atoms or groups of atoms can be replaced by other atoms or groups. For example, methane and chlorine undergoes a substitution reaction under light to generate monochloromethane, dichloromethane, trichloromethane and carbon tetrachloride: $CH_ {4} + Cl_ {2}\ xrightarrow {light} CH_ {3} Cl + HCl $. Benzene undergoes a substitution reaction with liquid bromine under iron catalysis to generate bromobenzene: $C_ {6} H_ {6} + Br_ {2}\ xrightarrow {Fe} C_ {6} H_ {5} Br + HBr $.
Fourth, it has the properties of addition reaction. Compounds containing unsaturated bonds, such as olefins, alkynes, etc., can be added with other molecules. Ethylene reacts with bromine water, the carbon-carbon double bond is opened, and the addition of bromine atoms generates 1,2-dibromoethane: $CH_ {2} = CH_ {2} + Br_ {2}\ longrightarrow CH_ {2} BrCH_ {2} Br $. Acetylene and hydrogen can undergo an addition reaction under the action of a catalyst to produce ethylene or ethane.
Fifth, some compounds have hydrolytic properties. Ester compounds can be hydrolyzed under the catalysis of acids or bases. Ethyl acetate is hydrolyzed to acetic acid and ethanol under acidic conditions: $CH_ {3} COOC_ {2} H_ {5} + H_ {2} O\ underset {\ Delta} {\ overset {dilute sulfuric acid} {\ rightleftharpoons}} CH_ {3} COOH + C_ {2} H_ {5} OH $; hydrolysis is more complete under alkaline conditions, resulting in acetate and ethanol. Halogenated hydrocarbons can also be hydrolyzed. In aqueous sodium hydroxide, bromoethane is hydrolyzed to ethanol and sodium bromide: $CH_ {3} CH_ {2} Br + NaOH\ xrightarrow {H_ {2} O} CH_ {3} CH_ {2} OH + NaBr $.
What fields is this compound used in?
This compound medicine is widely used and has been applied in various fields.
In the field of medical Tao, this medicine is of great benefit. It can be used as a healing agent to remove diseases and diseases. If a person is tortured by illness and the body is suffering from deep diseases, this medicine may exert its power to adjust yin and yang, qi and blood, make the organs peaceful, and the body gradually heals. Such as typhoid fever, hot topic does not subside, this medicine may solve the surface heat dissipation, make evil have a way out, and help the human body restore righteousness. Or in internal injuries and diseases, such as weakness of the spleen and stomach, deficiency of qi and blood, this medicine may nourish the spleen and stomach, nourish blood and qi, and nourish the fundamentals of the human body.
It is also useful in the places where the alchemy is practiced. When alchemists refine medicine, they often use various combined medicines to assist in cultivation. This medicine can help to reconcile the heat in the furnace tripod and make the refining of pills more smooth. It can keep the alchemy pure and prevent the intrusion of miscellaneous qi, so as to become a superior pill. Taking this medicine may prolong life. Practitioners hope to use the power of this medicine to open up meridians, gather true qi, and reach a higher state of practice.
There are also wonders in the places created by craftsmen. When building palaces and pavilions, or treat building materials with this medicine. If wood is perishable, soaking it with medicine can prevent insects and decay, prolong the life of the wood, and make the built house durable for a long time. In the genus of masonry, medicine can be used to reconcile, or it can enhance its firmness, making the building more stable, and it will not collapse after years of wind and rain.
In the land of war, this medicine can also come in handy. It can be made into a firearm's combustion aid, making the firearm more powerful. Or during the march, soldiers are injured and sick, this medicine can be used as an emergency healing product to maintain the combat effectiveness of the army. In short, this combined medicine has indispensable functions in many fields such as medicine, Tao, work, and warfare.
In the field of medical Tao, this medicine is of great benefit. It can be used as a healing agent to remove diseases and diseases. If a person is tortured by illness and the body is suffering from deep diseases, this medicine may exert its power to adjust yin and yang, qi and blood, make the organs peaceful, and the body gradually heals. Such as typhoid fever, hot topic does not subside, this medicine may solve the surface heat dissipation, make evil have a way out, and help the human body restore righteousness. Or in internal injuries and diseases, such as weakness of the spleen and stomach, deficiency of qi and blood, this medicine may nourish the spleen and stomach, nourish blood and qi, and nourish the fundamentals of the human body.
It is also useful in the places where the alchemy is practiced. When alchemists refine medicine, they often use various combined medicines to assist in cultivation. This medicine can help to reconcile the heat in the furnace tripod and make the refining of pills more smooth. It can keep the alchemy pure and prevent the intrusion of miscellaneous qi, so as to become a superior pill. Taking this medicine may prolong life. Practitioners hope to use the power of this medicine to open up meridians, gather true qi, and reach a higher state of practice.
There are also wonders in the places created by craftsmen. When building palaces and pavilions, or treat building materials with this medicine. If wood is perishable, soaking it with medicine can prevent insects and decay, prolong the life of the wood, and make the built house durable for a long time. In the genus of masonry, medicine can be used to reconcile, or it can enhance its firmness, making the building more stable, and it will not collapse after years of wind and rain.
In the land of war, this medicine can also come in handy. It can be made into a firearm's combustion aid, making the firearm more powerful. Or during the march, soldiers are injured and sick, this medicine can be used as an emergency healing product to maintain the combat effectiveness of the army. In short, this combined medicine has indispensable functions in many fields such as medicine, Tao, work, and warfare.
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