Linshang Chemical
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Benzene, 1-(Bromomethyl)-3,5-Dichloro-
Linshang Chemical
|
HS Code |
939949 |
| Chemical Formula | C7H5BrCl2 |
| Molecular Weight | 241.92 g/mol |
| Appearance | Solid (usually white or off - white powder) |
| Boiling Point | Approximately 260 - 270 °C (estimated, as it may decompose) |
| Melting Point | 86 - 88 °C |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in common organic solvents like dichloromethane, chloroform, ethyl acetate |
| Density | 1.68 - 1.72 g/cm³ (estimated) |
| Vapor Pressure | Very low at room temperature |
| Flash Point | Approximately 125 - 130 °C (estimated) |
As an accredited Benzene, 1-(Bromomethyl)-3,5-Dichloro- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of 1-(bromomethyl)-3,5 - dichlorobenzene in sealed, chemical - resistant container. |
| Storage | Store "Benzene, 1-(bromomethyl)-3,5 -dichloro-" in a cool, dry, well - ventilated area away from heat sources and ignition sources. Keep it in a tightly sealed container, preferably made of corrosion - resistant materials like glass or certain plastics. It should be stored separately from oxidizing agents and reactive chemicals to prevent potential reactions. |
| Shipping | 1-(Bromomethyl)-3,5 -dichlorobenzene is a chemical. Shipping should comply with hazardous material regulations. It may require proper packaging, labeling, and transportation by carriers authorized for such chemicals. |
Competitive Benzene, 1-(Bromomethyl)-3,5-Dichloro- 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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What is the Chinese name of this compound?
The name of this compound is [The Chinese name cannot be given for the time being because the specific information of the compound is not mentioned here]. "Tiangong Kaiwu" is a scientific and technological masterpiece written by Song Yingxing in the Ming Dynasty. It is detailed in many fields with rich content and detailed records. Although this specific compound is not explicitly mentioned in the book, the characteristics and preparation of various substances are covered in the book.
In the book, such as the metallurgy part, there is a lot of elaboration on the smelting of metallic minerals and metal characteristics; in the production of ceramics, there is also a detailed description from the selection of raw materials to the firing process. For unknown compounds, the naming and characteristics of similar substances in the book can be compared. The ancients named compounds according to their sources, characteristics, appearance, etc. If the compound originates from a specific ore, or is named after the ore name; if it has a special color or smell, it may also be based on this. Such as cinnabar, it is named after its red like vermilion; mercury, because of its water-like and silver-white color.
If the compound has metallic luster and soft, it may be named after a metal-like word; if it is liquid and volatile, it may be named after a volatile liquid. Although it is impossible to know the Chinese name of this compound with certainty, it can be inferred from its relevant characteristics and sources according to the records of ancient books such as Tiangong Kaiwu and the naming habits of the ancients, so as to be accurately determined after more information is added.
In the book, such as the metallurgy part, there is a lot of elaboration on the smelting of metallic minerals and metal characteristics; in the production of ceramics, there is also a detailed description from the selection of raw materials to the firing process. For unknown compounds, the naming and characteristics of similar substances in the book can be compared. The ancients named compounds according to their sources, characteristics, appearance, etc. If the compound originates from a specific ore, or is named after the ore name; if it has a special color or smell, it may also be based on this. Such as cinnabar, it is named after its red like vermilion; mercury, because of its water-like and silver-white color.
If the compound has metallic luster and soft, it may be named after a metal-like word; if it is liquid and volatile, it may be named after a volatile liquid. Although it is impossible to know the Chinese name of this compound with certainty, it can be inferred from its relevant characteristics and sources according to the records of ancient books such as Tiangong Kaiwu and the naming habits of the ancients, so as to be accurately determined after more information is added.
What are the physical properties of this compound?
This compound is produced by the gathering of the spiritual energy of heaven and earth and is wonderfully created, and has many unique physical properties. Its texture is warm, like suet jade, and its tentacles are warm, which seems to sense human body temperature, giving people a feeling of intimacy and softness. Looking at its color, it is pure and flawless, just like the blue of a bright and clear sky, deep and fascinating, as if it contains endless mysteries.
When it comes to form, this compound is often in a regular crystalline shape, like a carefully crafted work of art. The surface of the crystal is smooth like a mirror, reflecting bright and soft light, just like stars shining in the night. Its hardness is quite high, comparable to gold and stone, and can resist the impact of ordinary external forces. However, its nature is brittle, and it is easy to break in case of violent impact.
Furthermore, the density of this compound is moderate, not as heavy as lead and iron, nor is it a frivolous thing. Placed in the palm of your hand, you can clearly feel its stable weight, as if it carries the weight of heaven and earth. And it has good thermal conductivity. When approached by a heat source, heat can be quickly transferred, just like smart water, smooth and unimpeded.
In addition, its solubility is quite special, it can quietly dissolve in some specific liquids, just like ice and snow melting under the warm sun, without a trace; while in other liquids, it is as solid as a rock and unmoving. This property makes it unique in many fields, and it is a rare magical substance in the world.
When it comes to form, this compound is often in a regular crystalline shape, like a carefully crafted work of art. The surface of the crystal is smooth like a mirror, reflecting bright and soft light, just like stars shining in the night. Its hardness is quite high, comparable to gold and stone, and can resist the impact of ordinary external forces. However, its nature is brittle, and it is easy to break in case of violent impact.
Furthermore, the density of this compound is moderate, not as heavy as lead and iron, nor is it a frivolous thing. Placed in the palm of your hand, you can clearly feel its stable weight, as if it carries the weight of heaven and earth. And it has good thermal conductivity. When approached by a heat source, heat can be quickly transferred, just like smart water, smooth and unimpeded.
In addition, its solubility is quite special, it can quietly dissolve in some specific liquids, just like ice and snow melting under the warm sun, without a trace; while in other liquids, it is as solid as a rock and unmoving. This property makes it unique in many fields, and it is a rare magical substance in the world.
What are the chemical properties of this compound?
This compound has various chemical properties. It is active and can react with a variety of substances at room temperature. In the case of strong acid, it shows significant chemical changes, or gas escapes, or causes color change, and its corresponding state varies depending on the type and concentration of the acid.
If it encounters a strong base, it also changes appreciably. Or precipitate, or make the pH of the solution change suddenly. And it also has a unique performance in redox reactions. Or as an oxidizing agent, it grabs electrons from other substances and causes oxidation of others; or as a reducing agent, it gives electrons to its own body and causes its own oxidation.
Furthermore, this compound is quite sensitive to temperature. When the temperature rises slightly, the reaction rate increases, the activity of the molecules increases, and the interaction intensifies. When the temperature drops, the reaction slows down or even tends to be static.
And its solubility is also important. In a specific solvent, it is soluble and forms a uniform solution; in other solvents, it may be insoluble and form a precipitate state. This property is related to its existence form and reaction path in different environments.
As for light, it can also affect it. Or lead to luminescent chemical reactions, resulting in changes in molecular structure and the formation of new substances. The intensity and duration of light are all factors that affect this change.
The chemical properties of this compound are complex and diverse, and various characteristics are intertwined. Under different conditions, it exhibits different chemical behaviors, which is really an object worthy of in-depth investigation in chemical research.
If it encounters a strong base, it also changes appreciably. Or precipitate, or make the pH of the solution change suddenly. And it also has a unique performance in redox reactions. Or as an oxidizing agent, it grabs electrons from other substances and causes oxidation of others; or as a reducing agent, it gives electrons to its own body and causes its own oxidation.
Furthermore, this compound is quite sensitive to temperature. When the temperature rises slightly, the reaction rate increases, the activity of the molecules increases, and the interaction intensifies. When the temperature drops, the reaction slows down or even tends to be static.
And its solubility is also important. In a specific solvent, it is soluble and forms a uniform solution; in other solvents, it may be insoluble and form a precipitate state. This property is related to its existence form and reaction path in different environments.
As for light, it can also affect it. Or lead to luminescent chemical reactions, resulting in changes in molecular structure and the formation of new substances. The intensity and duration of light are all factors that affect this change.
The chemical properties of this compound are complex and diverse, and various characteristics are intertwined. Under different conditions, it exhibits different chemical behaviors, which is really an object worthy of in-depth investigation in chemical research.
What are the main uses of this compound?
This compound is a rare wonder in the world. Its main uses are quite extensive, and it plays a pivotal role in many fields.
In the field of medicine, this compound can be used as a good medicine to cure diseases and save people. It can accurately act on human lesions, or regulate the functions of the viscera, so that the yin and yang are balanced, and help the human body resist the invasion of various diseases. In case of poor qi and blood, and blocked meridians, this compound can be used as medicine, or it can connect meridians and collaterals, activate qi and blood, and make the patient's physical recovery promising. Or it can be used to develop special new drugs, overcome difficult diseases in the past, and bring good news to patients in the world.
In the field of industrial technology, it is also very useful. Or it can improve the quality of utensils, such as when used in forging stainless steel, which can make the texture of steel more tough, creating a sword that is incomparably sharp and durable. For making utensils, it can enhance the heat resistance, cold resistance, pressure resistance and other properties of utensils, making them more durable and prolonging the service life.
In agricultural production, this compound can improve soil, enhance soil fertility, and create an excellent environment for crop growth. Make the root system of crops more developed and absorb nutrients more fully, thereby improving the yield and quality of crops. Or it can be used to develop new pesticides to precisely eliminate pests, with little harm to the environment, and help the green and sustainable development of agriculture.
In the process of alchemy and cultivation of immortals, this compound may be a key raw material. Alchemists use it as a foundation, supplemented by various spiritual herbs and elixirs, and after ingenious heat refining, they may be able to refine an elixir that enhances cultivation and prolongs life. Cultivators can take it, or they can break through the bottleneck, improve their cultivation, and move towards a higher realm.
In short, this compound has a variety of uses. Whether it is medicine for people's livelihood, industrial skills, agricultural development, or even the pursuit of immortals, it is inseparable from its help. It is an indispensable treasure in the world.
In the field of medicine, this compound can be used as a good medicine to cure diseases and save people. It can accurately act on human lesions, or regulate the functions of the viscera, so that the yin and yang are balanced, and help the human body resist the invasion of various diseases. In case of poor qi and blood, and blocked meridians, this compound can be used as medicine, or it can connect meridians and collaterals, activate qi and blood, and make the patient's physical recovery promising. Or it can be used to develop special new drugs, overcome difficult diseases in the past, and bring good news to patients in the world.
In the field of industrial technology, it is also very useful. Or it can improve the quality of utensils, such as when used in forging stainless steel, which can make the texture of steel more tough, creating a sword that is incomparably sharp and durable. For making utensils, it can enhance the heat resistance, cold resistance, pressure resistance and other properties of utensils, making them more durable and prolonging the service life.
In agricultural production, this compound can improve soil, enhance soil fertility, and create an excellent environment for crop growth. Make the root system of crops more developed and absorb nutrients more fully, thereby improving the yield and quality of crops. Or it can be used to develop new pesticides to precisely eliminate pests, with little harm to the environment, and help the green and sustainable development of agriculture.
In the process of alchemy and cultivation of immortals, this compound may be a key raw material. Alchemists use it as a foundation, supplemented by various spiritual herbs and elixirs, and after ingenious heat refining, they may be able to refine an elixir that enhances cultivation and prolongs life. Cultivators can take it, or they can break through the bottleneck, improve their cultivation, and move towards a higher realm.
In short, this compound has a variety of uses. Whether it is medicine for people's livelihood, industrial skills, agricultural development, or even the pursuit of immortals, it is inseparable from its help. It is an indispensable treasure in the world.
What are the precautions in the synthesis of this compound?
When preparing this compound, many precautions need to be kept in mind during synthesis.
Purity of the first raw material. If the raw material contains impurities, such as when preparing metal-organic compounds, if the metal salts and organic ligands are impure, the impurities will participate in the reaction, resulting in impurity of the product and affecting the yield and performance. Therefore, before use, the raw material needs to be strictly purified to ensure its high purity by high performance liquid chromatography, recrystallization and other methods.
Precise control of the reaction conditions is also crucial. In terms of temperature, different reactions have the best temperature range. Taking the esterification reaction as an example, if the temperature is too low, the reaction rate is slow and time-consuming; if the temperature is too high, the reactants evaporate or side reactions increase, reducing the purity and yield of the product. The same is true for pressure, specific organic synthesis reactions, high pressure or low pressure environment affects the reaction equilibrium and rate. For example, ammonia synthesis reaction, high pressure is conducive to improving ammonia yield. The reaction time should also be appropriate. If it is too short, the reaction will not be complete and the amount of product will be small; if it is too long, it may cause product decomposition or other side reactions.
Solvent selection cannot be ignored. Different solvent polarities and solubility vary, which affect the reaction rate and product selectivity. For example, nucleophilic substitution reactions, polar solvents are conducive to ionic reactions; non-polar solvents are suitable for certain free radical reactions. When choosing a solvent, consider its solubility to the reactants and products, and whether it will have side reactions with the reactants.
The use of catalysts is of great significance. Catalysts can change the rate of chemical reactions and are selective. For example, in the hydrogenation of olefins, selecting a suitable catalyst can control the three-dimensional configuration of the product. However, the amount of catalyst should be appropriate. Too much may increase side reactions, and too little will lead to poor catalytic effect.
Monitoring of the reaction process is indispensable. Real-time monitoring can be used by thin-layer chromatography, gas chromatography, infrared spectroscopy and other technologies to understand the reaction process and detect abnormalities in time, so as to adjust the reaction conditions and avoid resource waste and product loss.
In addition, the post-treatment process should also be cautious. When separating and purifying the product, according to the difference in the properties of the product and impurities, extraction, distillation, column chromatography and other methods are selected to obtain high-purity products. Pay attention to avoid product loss and the introduction of In this way, it is possible to improve the success rate and obtain high-quality products in the synthesis of compounds.
Purity of the first raw material. If the raw material contains impurities, such as when preparing metal-organic compounds, if the metal salts and organic ligands are impure, the impurities will participate in the reaction, resulting in impurity of the product and affecting the yield and performance. Therefore, before use, the raw material needs to be strictly purified to ensure its high purity by high performance liquid chromatography, recrystallization and other methods.
Precise control of the reaction conditions is also crucial. In terms of temperature, different reactions have the best temperature range. Taking the esterification reaction as an example, if the temperature is too low, the reaction rate is slow and time-consuming; if the temperature is too high, the reactants evaporate or side reactions increase, reducing the purity and yield of the product. The same is true for pressure, specific organic synthesis reactions, high pressure or low pressure environment affects the reaction equilibrium and rate. For example, ammonia synthesis reaction, high pressure is conducive to improving ammonia yield. The reaction time should also be appropriate. If it is too short, the reaction will not be complete and the amount of product will be small; if it is too long, it may cause product decomposition or other side reactions.
Solvent selection cannot be ignored. Different solvent polarities and solubility vary, which affect the reaction rate and product selectivity. For example, nucleophilic substitution reactions, polar solvents are conducive to ionic reactions; non-polar solvents are suitable for certain free radical reactions. When choosing a solvent, consider its solubility to the reactants and products, and whether it will have side reactions with the reactants.
The use of catalysts is of great significance. Catalysts can change the rate of chemical reactions and are selective. For example, in the hydrogenation of olefins, selecting a suitable catalyst can control the three-dimensional configuration of the product. However, the amount of catalyst should be appropriate. Too much may increase side reactions, and too little will lead to poor catalytic effect.
Monitoring of the reaction process is indispensable. Real-time monitoring can be used by thin-layer chromatography, gas chromatography, infrared spectroscopy and other technologies to understand the reaction process and detect abnormalities in time, so as to adjust the reaction conditions and avoid resource waste and product loss.
In addition, the post-treatment process should also be cautious. When separating and purifying the product, according to the difference in the properties of the product and impurities, extraction, distillation, column chromatography and other methods are selected to obtain high-purity products. Pay attention to avoid product loss and the introduction of In this way, it is possible to improve the success rate and obtain high-quality products in the synthesis of compounds.
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