Linshang Chemical
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1-Bromo-2,3-Dichlorobenzene
Linshang Chemical
|
HS Code |
806440 |
| Chemical Formula | C6H3BrCl2 |
| Molar Mass | 225.898 g/mol |
| Appearance | Colorless to light yellow liquid |
| Density | 1.74 g/cm³ (approximate) |
| Boiling Point | 224 - 226 °C |
| Melting Point | −12 °C |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in many organic solvents like ethanol, ether |
| Odor | Characteristic aromatic odor |
| Flash Point | 98 °C (closed cup, approximate) |
As an accredited 1-Bromo-2,3-Dichlorobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 - bromo - 2,3 - dichlorobenzene in 500 - gram bottles for chemical packaging. |
| Storage | 1 - Bromo - 2,3 - dichlorobenzene should be stored in a cool, dry, well - ventilated area away from sources of ignition. Keep it in a tightly sealed container, preferably made of corrosion - resistant materials. Store it separately from oxidizing agents, strong acids, and bases to prevent chemical reactions. Ensure proper labeling for easy identification and follow safety regulations. |
| Shipping | 1 - bromo - 2,3 - dichlorobenzene is shipped in sealed, corrosion - resistant containers. It's carefully packaged to prevent leakage during transit, following strict hazardous chemical shipping regulations. |
Competitive 1-Bromo-2,3-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-2,3-Dichlorobenzene in China?
As a trusted 1-Bromo-2,3-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-2,3-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 main uses of 1-bromo-2,3-dichlorobenzene?
Mercury and mercury disulfide are of great significance in ancient chemical and industrial applications. Mercury, that is, water, is often a gold element, and it is often liquid and bright and white. Mercury disulfide, also known as cinnabar and sand, is a white color.
The use of mercury. First, in ancient times, mercury was used for cooking. The ancients believed that mercury has magical effects and can be used as a chemical ingredient, hoping to grow old. For example, in Ge Hong's "Baopuzi", there is no such thing as mercury. Second, in metallurgical processes, mercury forms mercury due to its energy, which can help to extract gold and other metals. Third, in terms of production and materials, mercury compounds can be used as color materials.
Mercury disulfide is mainly used in raw materials. Its color is dull and long-lasting, and the ancients often used it for wood, wood, and wood utensils. For example, when the color was unearthed from the tomb of Wangdui, the sand was used as an important material, and the color did not fade for thousands of years. Furthermore, in religious and cultural activities, mercury disulfide has a special status. The ancients used its auspicious objects for sacrifice, water, etc., and smeared them on utensils or runes, with the meaning of warding off evil spirits and praying for good luck. In addition, in medicine, mercury disulfide is also used for food, which has the effect of calming the mind, but because it contains mercury, it should be used with caution.
Therefore, mercury and mercury disulfide played an important role in many aspects of ancient history, metallurgy, culture, etc., reflecting the knowledge and wisdom of the ancient people.
The use of mercury. First, in ancient times, mercury was used for cooking. The ancients believed that mercury has magical effects and can be used as a chemical ingredient, hoping to grow old. For example, in Ge Hong's "Baopuzi", there is no such thing as mercury. Second, in metallurgical processes, mercury forms mercury due to its energy, which can help to extract gold and other metals. Third, in terms of production and materials, mercury compounds can be used as color materials.
Mercury disulfide is mainly used in raw materials. Its color is dull and long-lasting, and the ancients often used it for wood, wood, and wood utensils. For example, when the color was unearthed from the tomb of Wangdui, the sand was used as an important material, and the color did not fade for thousands of years. Furthermore, in religious and cultural activities, mercury disulfide has a special status. The ancients used its auspicious objects for sacrifice, water, etc., and smeared them on utensils or runes, with the meaning of warding off evil spirits and praying for good luck. In addition, in medicine, mercury disulfide is also used for food, which has the effect of calming the mind, but because it contains mercury, it should be used with caution.
Therefore, mercury and mercury disulfide played an important role in many aspects of ancient history, metallurgy, culture, etc., reflecting the knowledge and wisdom of the ancient people.
What are the physical properties of 1-bromo-2,3-dichlorobenzene?
Mercury, commonly known as mercury, is liquid at room temperature, and is the only liquid metal. Its color is silver-white, with a metallic luster, heavy quality and good fluidity. Mercury has a high density, about 13.6 times that of water. This property makes it possible to float when placed on mercury. Mercury has a melting point of minus 38 degrees 87 degrees Celsius and a boiling point of 357 degrees 04 degrees Celsius, with a narrow range of melting points.
Mercury disulfide, also known as cinnabar, is a red or dark red powdery solid. Its color is bright and dazzling, and it was often used as a pigment in ancient times. Mercury disulfide is relatively stable in chemical properties, and it does not easily react with many common substances at room temperature and pressure. However, under high temperature conditions, mercury disulfide can decompose to form mercury and sulfur.
Mercury has certain toxicity and is easily volatilized into mercury vapor, which enters the human body through the respiratory tract and damages the nervous system, kidneys and other organs. Although mercury disulfide has relatively low toxicity, if it is not handled properly, it may also release mercury and endanger human health.
In the industrial field, mercury is often used in the manufacture of thermometers, sphygmomanometers and other instruments. Due to the stable thermal expansion and contraction properties of mercury, it can accurately indicate temperature changes. Mercury disulfide is mostly used in pigment production, traditional Chinese medicine and other aspects. However, in view of the toxicity of mercury, many fields are gradually seeking alternative materials to reduce the harm to the environment and human body.
Mercury disulfide, also known as cinnabar, is a red or dark red powdery solid. Its color is bright and dazzling, and it was often used as a pigment in ancient times. Mercury disulfide is relatively stable in chemical properties, and it does not easily react with many common substances at room temperature and pressure. However, under high temperature conditions, mercury disulfide can decompose to form mercury and sulfur.
Mercury has certain toxicity and is easily volatilized into mercury vapor, which enters the human body through the respiratory tract and damages the nervous system, kidneys and other organs. Although mercury disulfide has relatively low toxicity, if it is not handled properly, it may also release mercury and endanger human health.
In the industrial field, mercury is often used in the manufacture of thermometers, sphygmomanometers and other instruments. Due to the stable thermal expansion and contraction properties of mercury, it can accurately indicate temperature changes. Mercury disulfide is mostly used in pigment production, traditional Chinese medicine and other aspects. However, in view of the toxicity of mercury, many fields are gradually seeking alternative materials to reduce the harm to the environment and human body.
Is 1-bromo-2,3-dichlorobenzene chemically stable?
Mercury is active, volatile, and liquid at room temperature. It is a metal element. Its mercury dichloride is highly toxic. Mercury dibromide, on the other hand, has relatively stable properties, but its harm should not be underestimated.
Mercury bis halides, there are reasons for the difference in chemical properties. From the perspective of mercury dichloride, the chlorine atom has strong electronegativity. When combined with mercury, mercury is easily dissociated from ions, which is the reason for its activity and toxicity. Furthermore, the chemical bond properties in its structure make it active in many reactions.
As for mercury dibromide, the electronegativity of bromine atom is slightly weaker than that of chlorine, and the chemical bond formed with mercury is relatively stable. The difference in structure makes its chemical activity inferior to mercury dichloride. Under normal conditions, mercury dibromide is less likely to undergo reactions such as dissociation, so its properties are more stable.
Of course, both contain mercury, which is a highly toxic substance. Even if mercury dibromide is relatively stable, it should not be negligent. When using, storing, and disposing of these two types of compounds, strict safety procedures should be followed to prevent mercury leakage and volatilization, endangering personal safety and the environment. When operating, appropriate protective measures must be taken to avoid mercury and its compounds from invading the human body and causing the risk of poisoning.
Mercury bis halides, there are reasons for the difference in chemical properties. From the perspective of mercury dichloride, the chlorine atom has strong electronegativity. When combined with mercury, mercury is easily dissociated from ions, which is the reason for its activity and toxicity. Furthermore, the chemical bond properties in its structure make it active in many reactions.
As for mercury dibromide, the electronegativity of bromine atom is slightly weaker than that of chlorine, and the chemical bond formed with mercury is relatively stable. The difference in structure makes its chemical activity inferior to mercury dichloride. Under normal conditions, mercury dibromide is less likely to undergo reactions such as dissociation, so its properties are more stable.
Of course, both contain mercury, which is a highly toxic substance. Even if mercury dibromide is relatively stable, it should not be negligent. When using, storing, and disposing of these two types of compounds, strict safety procedures should be followed to prevent mercury leakage and volatilization, endangering personal safety and the environment. When operating, appropriate protective measures must be taken to avoid mercury and its compounds from invading the human body and causing the risk of poisoning.
What are the precautions for the production of 1-bromo-2,3-dichlorobenzene?
The method of smelting mercury is related to mercury and mercury disulfide, and many attention needs to be paid in detail.
Mercury is active in nature and easy to evaporate in the air, so the smelting place must be well ventilated. If mercury gas accumulates in an occluded place, and people inhale it, it will cause physical damage, such as organ damage, nerve disturbance and other diseases. And mercury is fluid, accidentally sprinkled, difficult to collect, must be careful to prevent spillage.
Mercury disulfide, that is, cinnabar, although relatively stable, it needs to be carefully decomposed when heated. Control of the heat is the key. Small fire can be difficult to decompose, and large fire can cause mercury to evaporate quickly, which is not suitable. It is necessary to step by step to observe its changes, so that cinnabar slowly decomposes mercury.
In addition, the utensils used are also particular. It is advisable to choose materials that are resistant to hot topics and do not react with mercury and mercury disulfide. During smelting, the utensils must be tightly sealed to prevent mercury gas from escaping. The container for collecting mercury should also ensure its airtightness to prevent mercury from evaporating again.
Operators should be protected. Wear special clothes, masks and gloves to avoid direct contact with mercury to the skin and inhalation into the body. After smelting, the site must be properly cleaned to prevent subsequent hidden dangers caused by residual mercury.
In short, the mercury smelting process involves all the details of success or failure and safety. It cannot be slack. It must be carried out in accordance with regulations to ensure smooth smelting and healthy personnel.
Mercury is active in nature and easy to evaporate in the air, so the smelting place must be well ventilated. If mercury gas accumulates in an occluded place, and people inhale it, it will cause physical damage, such as organ damage, nerve disturbance and other diseases. And mercury is fluid, accidentally sprinkled, difficult to collect, must be careful to prevent spillage.
Mercury disulfide, that is, cinnabar, although relatively stable, it needs to be carefully decomposed when heated. Control of the heat is the key. Small fire can be difficult to decompose, and large fire can cause mercury to evaporate quickly, which is not suitable. It is necessary to step by step to observe its changes, so that cinnabar slowly decomposes mercury.
In addition, the utensils used are also particular. It is advisable to choose materials that are resistant to hot topics and do not react with mercury and mercury disulfide. During smelting, the utensils must be tightly sealed to prevent mercury gas from escaping. The container for collecting mercury should also ensure its airtightness to prevent mercury from evaporating again.
Operators should be protected. Wear special clothes, masks and gloves to avoid direct contact with mercury to the skin and inhalation into the body. After smelting, the site must be properly cleaned to prevent subsequent hidden dangers caused by residual mercury.
In short, the mercury smelting process involves all the details of success or failure and safety. It cannot be slack. It must be carried out in accordance with regulations to ensure smooth smelting and healthy personnel.
What are the environmental effects of 1-bromo-2,3-dichlorobenzene?
Mercury is a highly toxic substance, and mercury disulfide is also very harmful to the environment. Today, the impact of the two on the environment is discussed in detail.
Mercury is a liquid metal at room temperature and is highly volatile. Once released into the environment, it can migrate long distances in the atmosphere. In the atmosphere, mercury is converted into different forms through complex chemical reactions, such as gaseous elemental mercury and mercury oxide. Gaseous elemental mercury can persist in the atmosphere for a long time, while mercury oxide is more likely to settle.
Mercury deposition into water bodies can cause serious damage to aquatic ecosystems. Mercury in water can be converted into methylmercury by microorganisms, which is a more toxic form and is easily enriched in organisms. After fish and other aquatic organisms ingest methylmercury, not only their own health is damaged, but also their growth and reproduction are inhibited. When humans eat contaminated fish, methylmercury will also enter the human body, damage the nervous system, immune system, etc., posing a great threat to human health. And mercury will accumulate in sediment, affecting the water ecological environment for a long time.
If mercury enters the soil, it will combine with organic matter and minerals in the soil, affecting soil microbial activity and soil fertility. Mercury in soil may also be absorbed by plants and transmitted through the food chain, harming terrestrial ecosystems.
Mercury disulfide is more stable than mercury, but under certain environmental conditions, in case of strong acid, high temperature, etc., mercury disulfide will decompose and release mercury, resulting in similar environmental hazards to mercury. And if its production and use process is not handled properly, it will also cause mercury leakage and pollution of the environment.
In short, both mercury and mercury disulfide are extremely harmful to the environment. Its mining, production, use and disposal must be treated with caution and strictly controlled to reduce its threat to the ecological environment and human health.
Mercury is a liquid metal at room temperature and is highly volatile. Once released into the environment, it can migrate long distances in the atmosphere. In the atmosphere, mercury is converted into different forms through complex chemical reactions, such as gaseous elemental mercury and mercury oxide. Gaseous elemental mercury can persist in the atmosphere for a long time, while mercury oxide is more likely to settle.
Mercury deposition into water bodies can cause serious damage to aquatic ecosystems. Mercury in water can be converted into methylmercury by microorganisms, which is a more toxic form and is easily enriched in organisms. After fish and other aquatic organisms ingest methylmercury, not only their own health is damaged, but also their growth and reproduction are inhibited. When humans eat contaminated fish, methylmercury will also enter the human body, damage the nervous system, immune system, etc., posing a great threat to human health. And mercury will accumulate in sediment, affecting the water ecological environment for a long time.
If mercury enters the soil, it will combine with organic matter and minerals in the soil, affecting soil microbial activity and soil fertility. Mercury in soil may also be absorbed by plants and transmitted through the food chain, harming terrestrial ecosystems.
Mercury disulfide is more stable than mercury, but under certain environmental conditions, in case of strong acid, high temperature, etc., mercury disulfide will decompose and release mercury, resulting in similar environmental hazards to mercury. And if its production and use process is not handled properly, it will also cause mercury leakage and pollution of the environment.
In short, both mercury and mercury disulfide are extremely harmful to the environment. Its mining, production, use and disposal must be treated with caution and strictly controlled to reduce its threat to the ecological environment and human health.
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