Linshang Chemical
PRODUCTS
Benzenemethanol, 5-Bromo-2-Chloro-
Linshang Chemical
|
HS Code |
353768 |
| Chemical Formula | C7H6BrClO |
| Molar Mass | 221.48 g/mol |
| Appearance | Solid (predicted from similar compounds) |
| Solubility In Water | Low (aromatic and halogen - containing compounds usually have low water solubility) |
| Solubility In Organic Solvents | Soluble in common organic solvents like ethanol, dichloromethane (due to its organic nature) |
| Vapor Pressure | Low (typical for non - volatile organic solids) |
As an accredited Benzenemethanol, 5-Bromo-2-Chloro- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 5 - bromo - 2 - chloro - benzenemethanol, 100g, packaged in a sealed chemical - grade bottle. |
| Storage | **Storage of 5 - bromo - 2 - chloro - benzenemethanol** Store 5 - bromo - 2 - chloro - benzenemethanol in a cool, dry, well - ventilated area away from heat sources and open flames. Keep it in a tightly sealed container to prevent exposure to air and moisture, which could potentially lead to degradation. As it is a chemical, store it separately from incompatible substances like strong oxidizing agents to avoid dangerous reactions. |
| Shipping | Benzenemethanol, 5 - bromo - 2 - chloro - is shipped in containers designed to handle chemicals. Precautions are taken due to its nature. Shipment is via approved carriers, following strict safety and regulatory guidelines for chemical transport. |
Competitive Benzenemethanol, 5-Bromo-2-Chloro- 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 Benzenemethanol, 5-Bromo-2-Chloro- in China?
As a trusted Benzenemethanol, 5-Bromo-2-Chloro- 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 Benzenemethanol, 5-Bromo-2-Chloro- 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 chemical property of this substance?
What are the chemical properties of this substance? To understand it in detail, it is necessary to study the composition, structure and reaction characteristics of this substance in detail. The chemical properties of
substances are often determined by the elements, chemical bonds and molecular structures they contain. Looking at the types of elements, whether they are active or not, can judge the difficulty of reacting with other substances. If they contain active metal elements, such as sodium and potassium, they often react violently with water, acids, etc., losing electrons and forming cations.
Chemical bonds are also key. The difference in covalent bonds and ionic bonds makes substances behave differently in chemical reactions. In the case of ionic compounds, ions can move freely and easily participate in ionic reactions when in aqueous solution or in a molten state. In covalent compounds, the difference between polar covalent bonds and non-polar covalent bonds affects their solubility and reactivity.
Molecular structure also affects chemical properties. Organic compounds with special functional groups have unique reactions. For example, alcohols contain hydroxyl groups, which can undergo esterification, oxidation and other reactions; aldose groups contain aldehyde groups, which can react with silver mirrors and react with new copper hydroxide.
Furthermore, external conditions such as temperature, pressure, and catalyst also affect the appearance of chemical properties of substances. Increasing temperature often accelerates the reaction rate. Some reactions that are difficult to occur at room temperature may be carried out at high temperatures. Catalysts can change the rate of chemical reactions, but do not change the final equilibrium state of the reaction, so that some reactions that originally require harsh conditions can occur in milder environments.
To determine the chemical properties of this substance, it is necessary to conduct experimental investigations, observe its reaction phenomena with various reagents, measure its reaction products, and summarize its chemical properties under various conditions.
substances are often determined by the elements, chemical bonds and molecular structures they contain. Looking at the types of elements, whether they are active or not, can judge the difficulty of reacting with other substances. If they contain active metal elements, such as sodium and potassium, they often react violently with water, acids, etc., losing electrons and forming cations.
Chemical bonds are also key. The difference in covalent bonds and ionic bonds makes substances behave differently in chemical reactions. In the case of ionic compounds, ions can move freely and easily participate in ionic reactions when in aqueous solution or in a molten state. In covalent compounds, the difference between polar covalent bonds and non-polar covalent bonds affects their solubility and reactivity.
Molecular structure also affects chemical properties. Organic compounds with special functional groups have unique reactions. For example, alcohols contain hydroxyl groups, which can undergo esterification, oxidation and other reactions; aldose groups contain aldehyde groups, which can react with silver mirrors and react with new copper hydroxide.
Furthermore, external conditions such as temperature, pressure, and catalyst also affect the appearance of chemical properties of substances. Increasing temperature often accelerates the reaction rate. Some reactions that are difficult to occur at room temperature may be carried out at high temperatures. Catalysts can change the rate of chemical reactions, but do not change the final equilibrium state of the reaction, so that some reactions that originally require harsh conditions can occur in milder environments.
To determine the chemical properties of this substance, it is necessary to conduct experimental investigations, observe its reaction phenomena with various reagents, measure its reaction products, and summarize its chemical properties under various conditions.
In which fields is this substance used?
This substance is used in many fields such as farming mulberry, construction, equipment, etc.
In the field of farming mulberry, it can help agricultural labor. For example, during spring plowing, using this substance to improve the soil can make the soil more fertile and loose, which is conducive to seed germination and crop root growth, and then improve crop yield. In irrigation facilities, the use of this substance can make water flow distribution more reasonable, avoid floods and droughts, and ensure that farmland moisture is suitable. When raising silkworms and reeling silk, this substance can create a suitable temperature and humidity environment, so that the quality of silkworm cocoons is better.
In the field of construction, its use is also quite extensive. Building houses, based on this object, can enhance the stability of the foundation of the house, resist wind and rain erosion and earthquake disasters, and ensure the durability of the house. When building bridges, it can strengthen the bridge structure, allow the bridge to carry more weight, and ensure the safe passage of pedestrians and horses. The construction of city walls, this object is even more crucial, which can make the city wall extremely strong and become a solid barrier for urban defense.
Equipment manufacturing is also indispensable. Build farm tools, the use of this object can make farm tools more sharp and durable, and improve farmers' labor efficiency. Manufacture weapons, which can enhance the strength and toughness of weapons, and exert greater power on the battlefield. In mechanical devices, this object can optimize the performance of parts, make machinery run more smoothly, and reduce malfunctions. In short, this substance plays an important role in many important fields, greatly promoting the development of agricultural mulberry, building progress and equipment manufacturing, and providing strong support for people's lives and national development.
In the field of farming mulberry, it can help agricultural labor. For example, during spring plowing, using this substance to improve the soil can make the soil more fertile and loose, which is conducive to seed germination and crop root growth, and then improve crop yield. In irrigation facilities, the use of this substance can make water flow distribution more reasonable, avoid floods and droughts, and ensure that farmland moisture is suitable. When raising silkworms and reeling silk, this substance can create a suitable temperature and humidity environment, so that the quality of silkworm cocoons is better.
In the field of construction, its use is also quite extensive. Building houses, based on this object, can enhance the stability of the foundation of the house, resist wind and rain erosion and earthquake disasters, and ensure the durability of the house. When building bridges, it can strengthen the bridge structure, allow the bridge to carry more weight, and ensure the safe passage of pedestrians and horses. The construction of city walls, this object is even more crucial, which can make the city wall extremely strong and become a solid barrier for urban defense.
Equipment manufacturing is also indispensable. Build farm tools, the use of this object can make farm tools more sharp and durable, and improve farmers' labor efficiency. Manufacture weapons, which can enhance the strength and toughness of weapons, and exert greater power on the battlefield. In mechanical devices, this object can optimize the performance of parts, make machinery run more smoothly, and reduce malfunctions. In short, this substance plays an important role in many important fields, greatly promoting the development of agricultural mulberry, building progress and equipment manufacturing, and providing strong support for people's lives and national development.
What is the preparation method of 5-bromo-2-chlorobenzyl alcohol?
The method of producing 5 + -shen- 2 -bromophenethane is obtained by bromination of phenethane as a starting material. The steps are as follows:
Take the first amount of phenethane and place it in a container with condensation. This condensation process can make the reaction and reaction materials in the reaction process. Cold flow to the reaction system, to ensure the full operation of the reaction, and also to avoid the loss of reaction materials and reaction materials.
times, in the reaction container, in the presence of appropriate temperature and catalysis, bromine is added. For catalysis, it can be used such as powder or tribromide, which can effectively promote the rate of bromide reaction. The control of the degree of resistance is particularly important. Generally speaking, it is necessary to maintain the degree of resistance in a specific environment. If the degree of resistance is high, it is easy to cause the generation of side effects, the generation of polybrominates, etc.; if the degree of resistance is low, the reaction rate is slow, and it takes a long time.
If the reaction is carried out, the reaction system needs to be fully mixed, so that the reaction material can be fully connected, and the reaction rate can be accelerated, which can also make the reaction more uniform. After a period of reaction, the reaction is basically completed. The reaction mixture contains the target bromophenylethane and the raw materials and side substances that have not been reversed.
The reaction mixture needs to be separated. First, the appropriate soluble solution, such as dichloromethane, etc., is extracted with the anti-phase mixture, so that the oil is moved to the water phase. And then, wash the water phase with water to remove the water-soluble water, such as the water left behind. Then use the dry phase such as sulfuric acid to remove the moisture. The most important way is to remove the low-boiling raw materials that are soluble and not reversed by steaming.
In this way, it is the approximate step of the method of 5 + - 2 - bromophenethane.
Take the first amount of phenethane and place it in a container with condensation. This condensation process can make the reaction and reaction materials in the reaction process. Cold flow to the reaction system, to ensure the full operation of the reaction, and also to avoid the loss of reaction materials and reaction materials.
times, in the reaction container, in the presence of appropriate temperature and catalysis, bromine is added. For catalysis, it can be used such as powder or tribromide, which can effectively promote the rate of bromide reaction. The control of the degree of resistance is particularly important. Generally speaking, it is necessary to maintain the degree of resistance in a specific environment. If the degree of resistance is high, it is easy to cause the generation of side effects, the generation of polybrominates, etc.; if the degree of resistance is low, the reaction rate is slow, and it takes a long time.
If the reaction is carried out, the reaction system needs to be fully mixed, so that the reaction material can be fully connected, and the reaction rate can be accelerated, which can also make the reaction more uniform. After a period of reaction, the reaction is basically completed. The reaction mixture contains the target bromophenylethane and the raw materials and side substances that have not been reversed.
The reaction mixture needs to be separated. First, the appropriate soluble solution, such as dichloromethane, etc., is extracted with the anti-phase mixture, so that the oil is moved to the water phase. And then, wash the water phase with water to remove the water-soluble water, such as the water left behind. Then use the dry phase such as sulfuric acid to remove the moisture. The most important way is to remove the low-boiling raw materials that are soluble and not reversed by steaming.
In this way, it is the approximate step of the method of 5 + - 2 - bromophenethane.
What are the physical properties of 5-bromo-2-chlorobenzyl alcohol
Ethyl 5 + -alcohol-2-chlorophenylacetate, an organic compound with unique physical properties, is described as follows:
It is a colorless to pale yellow transparent liquid at room temperature and pressure. Looking at its color, the pure one is light in color, and the influence of impurities will cause a slightly darker color. As for the liquid form of the property, it has good fluidity, due to moderate intermolecular force, and has no special sticky feeling.
When it comes to smell, it has a special aromatic smell, but it is not a simple and pleasant fragrance, but it is slightly mixed with the smell of chemical agents. However, in specific application scenarios, this unique smell may be used as a characteristic of identification. In terms of density,
is larger than that of water. If it is placed in the same container as water, it will sink to the bottom of the water. Due to the tight molecular structure, the mass per unit volume is larger. For example, in some experiments or industrial operations, this density characteristic can be used to separate by layered operation.
In terms of solubility, in organic solvents such as ethanol and ether, it has good solubility. Due to the principle of similar miscibility, its organic molecular structure is similar to that of organic solvents and can be well miscible. However, its solubility in water is very small. Because of its non-polar organic compounds, the polarity of water molecules is very different and it is difficult to dissolve. Like in the post-treatment process of chemical synthesis, this difference in solubility can be used for extraction and separation.
Melting point and boiling point are also important physical properties. Low melting point and non-solid state at room temperature, which determines that its storage and use do not require a special low temperature environment. The relatively high boiling point means that a higher temperature is required to transform it from liquid to gaseous state. In the separation and purification process such as distillation, it can be separated from other substances according to the difference in boiling point.
5 + -alcohol-2-chlorophenylacetate ethyl ester has weak volatility and evaporates slowly at room temperature. Due to the large intermolecular force, it is difficult for molecules to break away from the liquid surface and enter the gas phase. This is an advantage during storage and can reduce losses due to volatilization. In summary, the physical properties of ethyl 5 + -alcohol-2-chlorophenylacetate determine its application mode and scope in chemical, pharmaceutical, and other fields, and it is essential for practitioners in related industries to be familiar with these properties.
It is a colorless to pale yellow transparent liquid at room temperature and pressure. Looking at its color, the pure one is light in color, and the influence of impurities will cause a slightly darker color. As for the liquid form of the property, it has good fluidity, due to moderate intermolecular force, and has no special sticky feeling.
When it comes to smell, it has a special aromatic smell, but it is not a simple and pleasant fragrance, but it is slightly mixed with the smell of chemical agents. However, in specific application scenarios, this unique smell may be used as a characteristic of identification. In terms of density,
is larger than that of water. If it is placed in the same container as water, it will sink to the bottom of the water. Due to the tight molecular structure, the mass per unit volume is larger. For example, in some experiments or industrial operations, this density characteristic can be used to separate by layered operation.
In terms of solubility, in organic solvents such as ethanol and ether, it has good solubility. Due to the principle of similar miscibility, its organic molecular structure is similar to that of organic solvents and can be well miscible. However, its solubility in water is very small. Because of its non-polar organic compounds, the polarity of water molecules is very different and it is difficult to dissolve. Like in the post-treatment process of chemical synthesis, this difference in solubility can be used for extraction and separation.
Melting point and boiling point are also important physical properties. Low melting point and non-solid state at room temperature, which determines that its storage and use do not require a special low temperature environment. The relatively high boiling point means that a higher temperature is required to transform it from liquid to gaseous state. In the separation and purification process such as distillation, it can be separated from other substances according to the difference in boiling point.
5 + -alcohol-2-chlorophenylacetate ethyl ester has weak volatility and evaporates slowly at room temperature. Due to the large intermolecular force, it is difficult for molecules to break away from the liquid surface and enter the gas phase. This is an advantage during storage and can reduce losses due to volatilization. In summary, the physical properties of ethyl 5 + -alcohol-2-chlorophenylacetate determine its application mode and scope in chemical, pharmaceutical, and other fields, and it is essential for practitioners in related industries to be familiar with these properties.
What are the relevant safety considerations for 5-bromo-2-chlorobenzyl alcohol?
It is important to pay attention to the safety of 5 + -2-bromoethane.
First of all, in terms of storage, it is necessary to know that bromoethane is a flammable and sensitive material. It is appropriate to store it in a safe and well-connected room, and to avoid mixing.
In addition, if it is used, the operator must use it and follow the operation procedures. The operator should wear a self-priming gas mask (half mask), wear a safety eye mask, wear anti-smoking work clothes, and wear rubber and oil-resistant gloves. The operation should prevent steam leakage into the work space, avoid oxidation and connection. The handling should be unloaded to prevent bags and containers from being damaged.
If there is an unfortunate leakage, the leakage should be quickly removed and contaminated to safety. The line should be separated, and access should be restricted. Cut off the fire source. The emergency manager should wear a self-priming breathing apparatus and wear anti-smoking work clothes. May cut the source of leakage. Prevent the flow into the sewer, flood discharge and other restrictive air. Small leakage: adsorption or absorption with sand or other non-combustible materials. It can also be scrubbed with a non-flammable dispersed emulsion, and the lotion is diluted and placed in the water system. Large leaks: embankment or dig for containment. Cover with foam to reduce steaming damage. Move to the tank with an explosion-proof pump or use a collector for recycling or storage.
Of course, in the case of 5 + - 2 - bromoethane, storage, use, and surface leakage accidents, all comply with safety requirements to ensure human safety and environmental safety.
First of all, in terms of storage, it is necessary to know that bromoethane is a flammable and sensitive material. It is appropriate to store it in a safe and well-connected room, and to avoid mixing.
In addition, if it is used, the operator must use it and follow the operation procedures. The operator should wear a self-priming gas mask (half mask), wear a safety eye mask, wear anti-smoking work clothes, and wear rubber and oil-resistant gloves. The operation should prevent steam leakage into the work space, avoid oxidation and connection. The handling should be unloaded to prevent bags and containers from being damaged.
If there is an unfortunate leakage, the leakage should be quickly removed and contaminated to safety. The line should be separated, and access should be restricted. Cut off the fire source. The emergency manager should wear a self-priming breathing apparatus and wear anti-smoking work clothes. May cut the source of leakage. Prevent the flow into the sewer, flood discharge and other restrictive air. Small leakage: adsorption or absorption with sand or other non-combustible materials. It can also be scrubbed with a non-flammable dispersed emulsion, and the lotion is diluted and placed in the water system. Large leaks: embankment or dig for containment. Cover with foam to reduce steaming damage. Move to the tank with an explosion-proof pump or use a collector for recycling or storage.
Of course, in the case of 5 + - 2 - bromoethane, storage, use, and surface leakage accidents, all comply with safety requirements to ensure human safety and environmental safety.
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