Linshang Chemical
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Benzene, 1,3-Dibromo-2-Chloro-
Linshang Chemical
|
HS Code |
861288 |
| Chemical Formula | C6H3Br2Cl |
| Molar Mass | 285.35 g/mol |
| Appearance | Solid (likely, based on similar halogenated benzenes) |
| Melting Point | Data may vary, check literature |
| Boiling Point | Data may vary, check literature |
| Density | Data may vary, check literature |
| Solubility In Water | Low (non - polar compound) |
| Solubility In Organic Solvents | Soluble in non - polar organic solvents like hexane, benzene |
| Vapor Pressure | Low, as it is a relatively heavy and non - volatile organic compound |
| Flash Point | Data may vary, check literature |
| Odor | Pungent, characteristic of halogenated aromatics |
As an accredited Benzene, 1,3-Dibromo-2-Chloro- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 - gram vial of 1,3 - dibromo - 2 - chlorobenzene, tightly sealed for chemical safety. |
| Storage | 1,3 - Dibromo - 2 - chlorobenzene should be stored in a cool, dry, well - ventilated area, away from heat sources and open flames. It should be kept in a tightly sealed container, preferably made of corrosion - resistant materials like glass. Avoid storing it near oxidizing agents or reactive substances. Label the storage container clearly with the chemical name and relevant hazard information. |
| Shipping | 1,3 - Dibromo - 2 - chlorobenzene is a chemical. Shipping should be in well - sealed containers, compliant with hazardous chemical regulations. It must be handled carefully to prevent spills, with proper labeling indicating its nature. |
Competitive Benzene, 1,3-Dibromo-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
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As a trusted Benzene, 1,3-Dibromo-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 Benzene, 1,3-Dibromo-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 are the chemical properties of 1,3-dibromo-2-chlorobenzene?
Mercury is a special chemical substance. It has many unique chemical properties.
Mercury is liquid at room temperature and pressure, which is one of its remarkable characteristics. And the melting point of mercury is extremely low, about -38.87 ° C, and the boiling point is 356.6 ° C. This special physical state makes it very different from many common metals, most of which are solid at room temperature.
Mercury's chemical activity is also characteristic. It can form alloys with many metals, and these alloys are called amalgams. For example, when mercury is mixed with sodium, sodium amalgams can be formed. The formation of amalgams is often due to the fact that mercury atoms can fill the lattice gaps of other metal atoms, thereby changing the properties of the alloy.
Mercury is active in redox reactions. The common valence states of mercury are + 1 and + 2. Under appropriate conditions, mercury can be oxidized to mercury ions. If mercury reacts with a strong oxidant, such as concentrated nitric acid, mercury will be oxidized to mercury nitrate, and nitric acid will be reduced to form nitrogen oxides and other products. The chemical reaction equation is: Hg + 4HNO (concentrated) = Hg (NO) (concentrated) + 2NO (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2)).
) Mercury compounds also have their own characteristics. For example, mercury Mercury chloride has a certain solubility in water, and its aqueous solution has the effect of sterilization and disinfection, but its use is limited due to its strong toxicity. Mercury sulfide (HgS), natural or cinnabar, has relatively stable chemical properties and bright colors, and is often used in pigments and medicinal applications.
Mercury has attracted much attention in ancient alchemy and other fields due to its unique chemical properties, but its toxicity also needs to be treated with caution to prevent harm to human body and the environment.
Mercury is liquid at room temperature and pressure, which is one of its remarkable characteristics. And the melting point of mercury is extremely low, about -38.87 ° C, and the boiling point is 356.6 ° C. This special physical state makes it very different from many common metals, most of which are solid at room temperature.
Mercury's chemical activity is also characteristic. It can form alloys with many metals, and these alloys are called amalgams. For example, when mercury is mixed with sodium, sodium amalgams can be formed. The formation of amalgams is often due to the fact that mercury atoms can fill the lattice gaps of other metal atoms, thereby changing the properties of the alloy.
Mercury is active in redox reactions. The common valence states of mercury are + 1 and + 2. Under appropriate conditions, mercury can be oxidized to mercury ions. If mercury reacts with a strong oxidant, such as concentrated nitric acid, mercury will be oxidized to mercury nitrate, and nitric acid will be reduced to form nitrogen oxides and other products. The chemical reaction equation is: Hg + 4HNO (concentrated) = Hg (NO) (concentrated) + 2NO (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2) (2)).
) Mercury compounds also have their own characteristics. For example, mercury Mercury chloride has a certain solubility in water, and its aqueous solution has the effect of sterilization and disinfection, but its use is limited due to its strong toxicity. Mercury sulfide (HgS), natural or cinnabar, has relatively stable chemical properties and bright colors, and is often used in pigments and medicinal applications.
Mercury has attracted much attention in ancient alchemy and other fields due to its unique chemical properties, but its toxicity also needs to be treated with caution to prevent harm to human body and the environment.
What are the physical properties of 1,3-dibromo-2-chlorobenzene?
Mercury, commonly known as mercury, is a liquid at room temperature, with a shimmering silver light and amorphous flow, like a smart silver bead. It is a chemical element with the symbol Hg, which is a heavy, silver-white liquid transition metal.
The physical properties of mercury are specific. First, the melting point is extremely low, -38.83 ° C, so it is liquid at ordinary temperature, which makes mercury unique in many scientific experiments and industrial applications. Second, the boiling point is quite high, reaching 356.73 ° C, which means that in order to convert it from liquid to gas, a higher temperature needs to be applied. Third, the density is very high, about 13.59g/cm ³, far exceeding that of common liquids, which is heavy to the touch. Fourth, mercury has good electrical conductivity. Although it is slightly inferior to metals such as copper and silver, it is also indispensable in specific circuit systems. Fifth, the surface tension of mercury is high, so mercury drops on the plane and often gathers into a spherical shape, which is not easy to disperse. It is like a round pearl with a luster flowing.
Furthermore, mercury has a certain degree of volatility. Although the volatilization rate is relatively slow at room temperature, in a closed and poorly ventilated space, the concentration of mercury vapor in the air can gradually increase over time, causing the risk of mercury poisoning. This is the reason why when using and storing mercury, you must be careful to ensure good ventilation.
The physical properties of mercury are specific. First, the melting point is extremely low, -38.83 ° C, so it is liquid at ordinary temperature, which makes mercury unique in many scientific experiments and industrial applications. Second, the boiling point is quite high, reaching 356.73 ° C, which means that in order to convert it from liquid to gas, a higher temperature needs to be applied. Third, the density is very high, about 13.59g/cm ³, far exceeding that of common liquids, which is heavy to the touch. Fourth, mercury has good electrical conductivity. Although it is slightly inferior to metals such as copper and silver, it is also indispensable in specific circuit systems. Fifth, the surface tension of mercury is high, so mercury drops on the plane and often gathers into a spherical shape, which is not easy to disperse. It is like a round pearl with a luster flowing.
Furthermore, mercury has a certain degree of volatility. Although the volatilization rate is relatively slow at room temperature, in a closed and poorly ventilated space, the concentration of mercury vapor in the air can gradually increase over time, causing the risk of mercury poisoning. This is the reason why when using and storing mercury, you must be careful to ensure good ventilation.
In what chemical reactions does 1,3-dibromo-2-chlorobenzene act as a reactant?
In many chemical reactions, mercury (mercury) can be used as a reactant in specific reactions. Although "Tiangong Kaiji" does not explain the role of mercury in the reaction from a chemical perspective in detail, it can be analyzed from relevant records combined with later chemical knowledge.
In the chemical reactions involved in alchemy and some traditional processes, mercury often exhibits unique properties. For example, in the reaction with sulfur, mercury can react with sulfur. This reaction is quite critical, because mercury is highly toxic, and when it reacts with sulfur to form mercury sulfide, the toxicity is greatly reduced. In ancient times, mercury is active and sulfur has a certain fixed property. The two meet, such as yin and yang, and the "swimming" of mercury is bound by sulfur.
In some metal smelting-related reactions, mercury is sometimes involved. For example, when extracting metals from certain metal-containing ores, mercury can take advantage of its special physical and chemical properties to interact with some components in the ore. Mercury can dissolve some metals to form amalgams, which makes it a medium in metallurgical processes. When extracting precious metals such as gold and silver, mercury can be used to dissolve them from the ore, and then mercury and precious metals can be separated by distillation.
In ancient alchemy, mercury was an important raw material. Alchemists hoped to use the chemical reaction of mercury and other substances to refine "elixir". Although its purpose is impractical, many chemical reactions involving mercury do occur. Under heating and other conditions, mercury can interact with other substances such as lead and dansard to form complex compounds. In these reactions, mercury is oxidized or combined with other elements to become part of new compounds due to its chemical properties such as variable valence.
In the chemical reactions involved in alchemy and some traditional processes, mercury often exhibits unique properties. For example, in the reaction with sulfur, mercury can react with sulfur. This reaction is quite critical, because mercury is highly toxic, and when it reacts with sulfur to form mercury sulfide, the toxicity is greatly reduced. In ancient times, mercury is active and sulfur has a certain fixed property. The two meet, such as yin and yang, and the "swimming" of mercury is bound by sulfur.
In some metal smelting-related reactions, mercury is sometimes involved. For example, when extracting metals from certain metal-containing ores, mercury can take advantage of its special physical and chemical properties to interact with some components in the ore. Mercury can dissolve some metals to form amalgams, which makes it a medium in metallurgical processes. When extracting precious metals such as gold and silver, mercury can be used to dissolve them from the ore, and then mercury and precious metals can be separated by distillation.
In ancient alchemy, mercury was an important raw material. Alchemists hoped to use the chemical reaction of mercury and other substances to refine "elixir". Although its purpose is impractical, many chemical reactions involving mercury do occur. Under heating and other conditions, mercury can interact with other substances such as lead and dansard to form complex compounds. In these reactions, mercury is oxidized or combined with other elements to become part of new compounds due to its chemical properties such as variable valence.
What are the main uses of 1,3-dibromo-2-chlorobenzene?
What is the main use of 1% 2C3 + - + disulfide + - + 2 + - + mercaptan? Both of these are described in "Tiangong Kaiwu".
For disulfide, sulfur is also. It is described in the "Stones" chapter of "Tiangong Kaiwu". The use of sulfur, the first is to make gunpowder. The book says: "Where gunpowder is used, sulfur is pure yang, and nitrate is pure yin. The two essences are forced together to form sound and change, and this universe is an illusion of spiritual things." Sulfur and saltpeter are used in gunpowder, which is used in military, fireworks and other fields. In military, gunpowder is used in firearms, which can kill the enemy and win; in fireworks, it helps it bloom brilliantly. In addition, sulfur also has its uses in medicine, which can treat scabies and other diseases, and has the effect of killing insects and relieving itching.
Mercaptan mercury, mercury is also mercury, that is, mercury. The "Hardware" chapter of "Tiangong Kaiwu" is involved. One of the main uses of mercury is alchemy. In ancient times, alchemists used mercury in alchemy, thinking that it had magical effects. Although it is viewed today, there are many unscientific things, but it had a great impact on alchemy at that time. Second, mercury can be used in the gilding process. Mercury and gold are made into gold amalgam, which is applied to the surface of the utensils, heated to evaporate the mercury, and the gold is left in the utensils to form a gilt beauty decoration, which can make the utensils more luxurious. Third, in the field of medicine, mercury and its compounds have been used as medicine, such as light powder, etc., which have certain medicinal value, but mercury is toxic and should be used with caution.
In summary, disulfide and mercaptomercury had important uses in ancient production, life, medicine, etc., which added luster to the technological development and social life at that time.
For disulfide, sulfur is also. It is described in the "Stones" chapter of "Tiangong Kaiwu". The use of sulfur, the first is to make gunpowder. The book says: "Where gunpowder is used, sulfur is pure yang, and nitrate is pure yin. The two essences are forced together to form sound and change, and this universe is an illusion of spiritual things." Sulfur and saltpeter are used in gunpowder, which is used in military, fireworks and other fields. In military, gunpowder is used in firearms, which can kill the enemy and win; in fireworks, it helps it bloom brilliantly. In addition, sulfur also has its uses in medicine, which can treat scabies and other diseases, and has the effect of killing insects and relieving itching.
Mercaptan mercury, mercury is also mercury, that is, mercury. The "Hardware" chapter of "Tiangong Kaiwu" is involved. One of the main uses of mercury is alchemy. In ancient times, alchemists used mercury in alchemy, thinking that it had magical effects. Although it is viewed today, there are many unscientific things, but it had a great impact on alchemy at that time. Second, mercury can be used in the gilding process. Mercury and gold are made into gold amalgam, which is applied to the surface of the utensils, heated to evaporate the mercury, and the gold is left in the utensils to form a gilt beauty decoration, which can make the utensils more luxurious. Third, in the field of medicine, mercury and its compounds have been used as medicine, such as light powder, etc., which have certain medicinal value, but mercury is toxic and should be used with caution.
In summary, disulfide and mercaptomercury had important uses in ancient production, life, medicine, etc., which added luster to the technological development and social life at that time.
What are the environmental effects of 1,3-dibromo-2-chlorobenzene?
The impact of dideuterium and trideuterium-dideuterium-2-tritium helium on the environment is related to ecological survival and the reproduction of life, and is a matter of paramount importance.
Deuterium and tritium are all isotopes of hydrogen. Dideuterium, trideuterium and related combinations may have applications in specific industrial and scientific research situations. However, if they escape into the environment, the consequences are unpredictable. Although deuterium is heavier than hydrogen, its chemical properties are slightly different, but it gradually accumulates in natural water bodies and biological systems, or causes subtle changes. The metabolism of organisms depends on water as the basis. If hydrogen in water is replaced by deuterium, the biochemical reaction rate and enzyme activity may be affected.
As for tritium and helium, tritium is radioactive and releases beta particles when it decays. Once it enters the ecology, it is passed through the food chain layer by layer and gathers in the living body, which can cause radiation damage. The DNA of cells may be damaged, causing mutations, which can cause diseases and deformities in individuals, and affect the reproduction of populations. In the long run, the ecological balance may be impacted.
And the emission of dideuterium and trideuterium-dideuterium-2-tritium helium may disturb the chemical composition of the atmosphere and water bodies. If the concentration of such substances in the atmosphere increases, it may affect the atmospheric radiation balance and climate patterns; its accumulation in water bodies may change the water quality, endangering the habitat and survival of aquatic organisms.
Although the current research on the environmental impact of such substances may not be complete, it is necessary to take precautions, treat relevant industrial and scientific research activities cautiously, strictly control their emissions, and monitor environmental concentrations. It is necessary to protect the ecological environment and ensure the vitality of all things.
Deuterium and tritium are all isotopes of hydrogen. Dideuterium, trideuterium and related combinations may have applications in specific industrial and scientific research situations. However, if they escape into the environment, the consequences are unpredictable. Although deuterium is heavier than hydrogen, its chemical properties are slightly different, but it gradually accumulates in natural water bodies and biological systems, or causes subtle changes. The metabolism of organisms depends on water as the basis. If hydrogen in water is replaced by deuterium, the biochemical reaction rate and enzyme activity may be affected.
As for tritium and helium, tritium is radioactive and releases beta particles when it decays. Once it enters the ecology, it is passed through the food chain layer by layer and gathers in the living body, which can cause radiation damage. The DNA of cells may be damaged, causing mutations, which can cause diseases and deformities in individuals, and affect the reproduction of populations. In the long run, the ecological balance may be impacted.
And the emission of dideuterium and trideuterium-dideuterium-2-tritium helium may disturb the chemical composition of the atmosphere and water bodies. If the concentration of such substances in the atmosphere increases, it may affect the atmospheric radiation balance and climate patterns; its accumulation in water bodies may change the water quality, endangering the habitat and survival of aquatic organisms.
Although the current research on the environmental impact of such substances may not be complete, it is necessary to take precautions, treat relevant industrial and scientific research activities cautiously, strictly control their emissions, and monitor environmental concentrations. It is necessary to protect the ecological environment and ensure the vitality of all things.
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