Linshang Chemical
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1-Bromo-3,5-Dichlorobenzene
Linshang Chemical
|
HS Code |
201832 |
| Chemical Formula | C6H3BrCl2 |
| Molar Mass | 225.899 g/mol |
| Appearance | Colorless to light - yellow liquid or solid |
| Boiling Point | 244 - 246 °C |
| Melting Point | 36 - 38 °C |
| Density | 1.727 g/cm³ |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in common organic solvents like ethanol, ether |
| Flash Point | 110 °C |
| Odor | Characteristic aromatic odor |
| Cas Number | 10242-09-4 |
As an accredited 1-Bromo-3,5-Dichlorobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 - bromo - 3,5 - dichlorobenzene in 500g glass bottle with tight - sealed lid. |
| Storage | 1 - Bromo - 3,5 - dichlorobenzene should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, flames, and oxidizing agents. Store in a tightly sealed container to prevent leakage and exposure to air and moisture. This helps maintain its chemical stability and reduces the risk of potential hazards. |
| Shipping | 1 - bromo - 3,5 - dichlorobenzene is shipped in tightly sealed, corrosion - resistant containers. These are carefully packed to prevent breakage during transit, ensuring safe transport of this chemical compound. |
Competitive 1-Bromo-3,5-Dichlorobenzene 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-Bromo-3,5-Dichlorobenzene in China?
As a trusted 1-Bromo-3,5-Dichlorobenzene manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery.
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-Bromo-3,5-Dichlorobenzene 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 physical properties of 1-bromo-3,5-dichlorobenzene?
Mercury, also known as mercury, flows and soars in the face of fire. Potassium disulfide is a newly made thing in modern times, and it does not exist in ancient times. Therefore, the physical properties of mercury and potassium disulfide are not described in Tiangong Kaiwu. However, the physical properties of mercury and potassium disulfide are described today.
Mercury is a liquid metal at room temperature, with a silver-white luster and a high density of 13.59 g/cm ³. It is heavier than ordinary substances and slippery to the touch. Its melting point is extremely low, -38.87 ° C, and its boiling point is not very high, 356.6 ° C. Mercury has good electrical conductivity and is volatile. It gradually dissipates in the air, and its vapor is toxic. Be careful.
As for potassium disulfide, its molecular formula is KIS -2, and it is a white to yellow powder at room temperature and pressure, odorless. Its density is about 2.92 g/cm ³, and its melting point is about 172.3 ° C. Potassium disulfide is slightly soluble in water, and has a slightly greater solubility in organic solvents such as ethanol and acetone. The stability of this substance is acceptable. When it encounters strong acids, strong bases or hot topics, it can undergo chemical reactions and decompose to produce corresponding products.
Mercury and potassium disulfide, one is a common liquid metal, and the other is a compound containing sulfur, iodine, and potassium. Their physical properties are different, and they are all wonders of the material world. They have their own uses in human production, life, scientific research, and many other aspects. They also need to be treated with scientific methods in order to avoid their harm.
Mercury is a liquid metal at room temperature, with a silver-white luster and a high density of 13.59 g/cm ³. It is heavier than ordinary substances and slippery to the touch. Its melting point is extremely low, -38.87 ° C, and its boiling point is not very high, 356.6 ° C. Mercury has good electrical conductivity and is volatile. It gradually dissipates in the air, and its vapor is toxic. Be careful.
As for potassium disulfide, its molecular formula is KIS -2, and it is a white to yellow powder at room temperature and pressure, odorless. Its density is about 2.92 g/cm ³, and its melting point is about 172.3 ° C. Potassium disulfide is slightly soluble in water, and has a slightly greater solubility in organic solvents such as ethanol and acetone. The stability of this substance is acceptable. When it encounters strong acids, strong bases or hot topics, it can undergo chemical reactions and decompose to produce corresponding products.
Mercury and potassium disulfide, one is a common liquid metal, and the other is a compound containing sulfur, iodine, and potassium. Their physical properties are different, and they are all wonders of the material world. They have their own uses in human production, life, scientific research, and many other aspects. They also need to be treated with scientific methods in order to avoid their harm.
What are the chemical properties of 1-bromo-3,5-dichlorobenzene?
Mercury is soft and fluent, often in a liquid state with a silver luster. It can evaporate at room temperature, which is a major characteristic. The density of mercury is quite high, far exceeding that of ordinary liquids.
Arsenic trioxide, commonly known as arsenic, is a white powdery solid with strong toxicity. Its properties are relatively stable and do not change easily at room temperature and pressure.
Mercury and arsenic trioxide both have significant chemical properties. Mercury can form amalgams with many metals, which is its unique reaction. And mercury can quickly combine with sulfur and other substances to form mercury sulfide.
Although arsenic trioxide is chemically stable, it can be reduced to arsenic elemental when exposed to specific reducing agents. At the same time, it can react with acids and bases to generate corresponding salts.
Mercury and arsenic trioxide are both highly toxic substances. The volatile gases of mercury can seriously damage the human nervous system, kidneys and other organs. Once arsenic trioxide enters the human body, it will interfere with the normal metabolism of cells, lead to multi-organ failure, and endanger life.
Therefore, when using and storing mercury and arsenic trioxide, it is necessary to follow strict operating procedures and take comprehensive protective measures to avoid serious harm to the human body and the environment.
Arsenic trioxide, commonly known as arsenic, is a white powdery solid with strong toxicity. Its properties are relatively stable and do not change easily at room temperature and pressure.
Mercury and arsenic trioxide both have significant chemical properties. Mercury can form amalgams with many metals, which is its unique reaction. And mercury can quickly combine with sulfur and other substances to form mercury sulfide.
Although arsenic trioxide is chemically stable, it can be reduced to arsenic elemental when exposed to specific reducing agents. At the same time, it can react with acids and bases to generate corresponding salts.
Mercury and arsenic trioxide are both highly toxic substances. The volatile gases of mercury can seriously damage the human nervous system, kidneys and other organs. Once arsenic trioxide enters the human body, it will interfere with the normal metabolism of cells, lead to multi-organ failure, and endanger life.
Therefore, when using and storing mercury and arsenic trioxide, it is necessary to follow strict operating procedures and take comprehensive protective measures to avoid serious harm to the human body and the environment.
What are the main applications of 1-bromo-3,5-dichlorobenzene?
"Tiangong Kaiwu" says: There are many kinds of alum, and they are also widely used. This is where alum and carbon dioxide are mainly used.
The categories of alum include green alum, alum, etc. Green alum, that is, ferrous sulfate, is green in color and often comes from mining and smelting places. Alum, that is, potassium aluminum sulfate, is white and translucent.
Green alum is very useful in dyeing workshops. In the past, dyeers relied on green alum to fix the color. The method is to first dip the fabric in the liquid containing green alum, and then add the dye, so that the color is firm and not easy to fade. In agriculture, green alum can treat the alkali of the soil, adjust its acid and alkali, and make crops easy to grow.
The use of alum is more extensive. In the food industry, it can be used as a water purification agent. In the past, when the well water was turbid, a little alum was added, and when stirred, the filth in the water would sink, and the water would be clear and ready for drinking. In the way of medicine, alum has the effect of astringent and dry. Where the skin is itchy and sores are ulcerated, alum can be used as the last application to stop wet itching and promote sores to heal.
Carbon dioxide, although colorless and invisible, is also very useful. In the industry of ice making, carbon dioxide can be compressed, liquefied, and then released under pressure, which can absorb a lot of heat and make water freeze. Although there were no refrigerators in ancient times, in a similar way, ice is taken and stored in the cellar in winter, and used in summer to relieve heat.
In the matter of extinguishing fires, carbon dioxide is also a good agent. When a fire starts, cover it with carbon dioxide, and the fire will go out. Because it does not support combustion and is heavier than air, it can isolate the contact between air and fire.
In wineries, yeast ferments to produce carbon dioxide, which makes the wine gas and retains the flavor of the wine. Carbon dioxide is also used to make drinks such as soda, making it feel cool to drink.
All of these are the main applications of alum and carbon dioxide, and they have great contributions to people's livelihood.
The categories of alum include green alum, alum, etc. Green alum, that is, ferrous sulfate, is green in color and often comes from mining and smelting places. Alum, that is, potassium aluminum sulfate, is white and translucent.
Green alum is very useful in dyeing workshops. In the past, dyeers relied on green alum to fix the color. The method is to first dip the fabric in the liquid containing green alum, and then add the dye, so that the color is firm and not easy to fade. In agriculture, green alum can treat the alkali of the soil, adjust its acid and alkali, and make crops easy to grow.
The use of alum is more extensive. In the food industry, it can be used as a water purification agent. In the past, when the well water was turbid, a little alum was added, and when stirred, the filth in the water would sink, and the water would be clear and ready for drinking. In the way of medicine, alum has the effect of astringent and dry. Where the skin is itchy and sores are ulcerated, alum can be used as the last application to stop wet itching and promote sores to heal.
Carbon dioxide, although colorless and invisible, is also very useful. In the industry of ice making, carbon dioxide can be compressed, liquefied, and then released under pressure, which can absorb a lot of heat and make water freeze. Although there were no refrigerators in ancient times, in a similar way, ice is taken and stored in the cellar in winter, and used in summer to relieve heat.
In the matter of extinguishing fires, carbon dioxide is also a good agent. When a fire starts, cover it with carbon dioxide, and the fire will go out. Because it does not support combustion and is heavier than air, it can isolate the contact between air and fire.
In wineries, yeast ferments to produce carbon dioxide, which makes the wine gas and retains the flavor of the wine. Carbon dioxide is also used to make drinks such as soda, making it feel cool to drink.
All of these are the main applications of alum and carbon dioxide, and they have great contributions to people's livelihood.
What are the synthesis methods of 1-bromo-3,5-dichlorobenzene?
"Tiangong Kaiwu" states that there are many kinds of alum. Black alum is ferrous sulfate, and green alum is also ferrous sulfate crystal, which is different from the things mentioned in the question. The method of making nitrate and alum can be explored from the following aspects.
First, in ancient techniques, the soil containing nitrate is often used to drizzle water to extract juice. This juice contains nitrate and other impurities. To obtain pure nitrate, it is necessary to remove impurities and refine. Alum, green alum, etc., can play a role in removing impurities. For example, with the characteristics of alum, it reacts with impurities to precipitate or separate impurities, thereby improving the purity of nitrate.
Second, in terms of alchemy methods, alum is often an important thing. Alchemists are quite familiar with the characteristics of various alum, or in the process of alchemy, they have explored ways to combine alum with nitrate. Under high temperature and other conditions, alum reacts with other substances, which indirectly affects the formation or purification of nitrate. Although the purpose of alchemy is different from that of making nitrate, the chemical change experience accumulated may be transferred to the nitrate process.
Third, from the perspective of traditional process inheritance, folk nitrate craftsmen, or skills passed down from generation to generation, skillfully use alum to make nitrate. Or in soaking nitrate-containing raw materials and adjusting the reaction environment, the chemical properties of alum can be used to improve the efficiency and quality of nitrate production. For example, alum can adjust the pH of the solution and promote better crystallization and precipitation of nitrate.
In the process of nitrate production, alum, green alum, etc. play a key role in removing impurities and adjusting reaction conditions by virtue of their unique chemical properties, becoming an important part of the traditional nitrate production process. Although the "Tiangong Kaiwu" does not describe the specific combination of the two methods in detail, its possible application can be inferred from the perspective of relevant process principles and traditional skills inheritance.
First, in ancient techniques, the soil containing nitrate is often used to drizzle water to extract juice. This juice contains nitrate and other impurities. To obtain pure nitrate, it is necessary to remove impurities and refine. Alum, green alum, etc., can play a role in removing impurities. For example, with the characteristics of alum, it reacts with impurities to precipitate or separate impurities, thereby improving the purity of nitrate.
Second, in terms of alchemy methods, alum is often an important thing. Alchemists are quite familiar with the characteristics of various alum, or in the process of alchemy, they have explored ways to combine alum with nitrate. Under high temperature and other conditions, alum reacts with other substances, which indirectly affects the formation or purification of nitrate. Although the purpose of alchemy is different from that of making nitrate, the chemical change experience accumulated may be transferred to the nitrate process.
Third, from the perspective of traditional process inheritance, folk nitrate craftsmen, or skills passed down from generation to generation, skillfully use alum to make nitrate. Or in soaking nitrate-containing raw materials and adjusting the reaction environment, the chemical properties of alum can be used to improve the efficiency and quality of nitrate production. For example, alum can adjust the pH of the solution and promote better crystallization and precipitation of nitrate.
In the process of nitrate production, alum, green alum, etc. play a key role in removing impurities and adjusting reaction conditions by virtue of their unique chemical properties, becoming an important part of the traditional nitrate production process. Although the "Tiangong Kaiwu" does not describe the specific combination of the two methods in detail, its possible application can be inferred from the perspective of relevant process principles and traditional skills inheritance.
What are the precautions for storing and transporting 1-bromo-3,5-dichlorobenzene?
Mercury and mercury disulfide, when storing and transporting, many matters need to be paid attention to.
Mercury is active, liquid at room temperature, and volatile, and its vapor is highly toxic. Therefore, when storing, it must be tightly sealed to prevent the volatilization of mercury from escaping, causing contamination of the surrounding environment and endangering humans and animals. The storage place should be cool and dry, avoiding high temperature and open flames. Mercury is more volatile when heated, and may cause danger in case of open flames. At the same time, it should be kept away from food, medicine and other substances to avoid its contamination.
Mercury disulfide, although relatively stable, should not be ignored. When storing, it should also be sealed to prevent it from being exposed to air, moisture, etc. for a long time and causing deterioration. Because it may contain impurities, impurities or reactions under specific conditions affect its quality.
When transporting mercury, it is necessary to choose a suitable container. The material should have good corrosion resistance and good sealing. During transportation, it must be safe to prevent the container from being damaged due to vibration and collision, and the mercury will leak out. The escort should be familiar with the characteristics of mercury and emergency treatment methods. If there is any leakage, appropriate measures can be taken quickly.
When transporting mercury disulfide, it is also necessary to ensure that the packaging is intact. Pay attention to the surrounding temperature and humidity, and do not leave it in a state of excessive humidity and overheating. The means of transportation should also be clean, and there should be no residues of substances that may react with it.
In conclusion, mercury and mercury disulfide must be stored and transported with care, following the corresponding norms and requirements to ensure the safety of personnel and the environment.
Mercury is active, liquid at room temperature, and volatile, and its vapor is highly toxic. Therefore, when storing, it must be tightly sealed to prevent the volatilization of mercury from escaping, causing contamination of the surrounding environment and endangering humans and animals. The storage place should be cool and dry, avoiding high temperature and open flames. Mercury is more volatile when heated, and may cause danger in case of open flames. At the same time, it should be kept away from food, medicine and other substances to avoid its contamination.
Mercury disulfide, although relatively stable, should not be ignored. When storing, it should also be sealed to prevent it from being exposed to air, moisture, etc. for a long time and causing deterioration. Because it may contain impurities, impurities or reactions under specific conditions affect its quality.
When transporting mercury, it is necessary to choose a suitable container. The material should have good corrosion resistance and good sealing. During transportation, it must be safe to prevent the container from being damaged due to vibration and collision, and the mercury will leak out. The escort should be familiar with the characteristics of mercury and emergency treatment methods. If there is any leakage, appropriate measures can be taken quickly.
When transporting mercury disulfide, it is also necessary to ensure that the packaging is intact. Pay attention to the surrounding temperature and humidity, and do not leave it in a state of excessive humidity and overheating. The means of transportation should also be clean, and there should be no residues of substances that may react with it.
In conclusion, mercury and mercury disulfide must be stored and transported with care, following the corresponding norms and requirements to ensure the safety of personnel and the environment.
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