Linshang Chemical
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1-Bromo-3-Chloro-4-Fluorobenzene
Linshang Chemical
|
HS Code |
236073 |
| Chemical Formula | C6H3BrClF |
| Molar Mass | 211.44 g/mol |
| Appearance | Colorless to light yellow liquid |
| Boiling Point | Around 190 - 195 °C |
| Density | Approx. 1.7 g/cm³ |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in many organic solvents like ethanol, ether |
| Odor | Characteristic aromatic odor |
| Flash Point | Approx. 76 °C |
| Cas Number | 59134-27-1 |
| Harmful Effects | Irritant to skin, eyes and respiratory system |
As an accredited 1-Bromo-3-Chloro-4-Fluorobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of 1 - bromo - 3 - chloro - 4 - fluorobenzene packaged in a sealed glass bottle. |
| Storage | 1 - Bromo - 3 - chloro - 4 - fluorobenzene should be stored in a cool, dry, well - ventilated area, away from heat sources and ignition points. It should be kept in a tightly sealed container to prevent vapor leakage. Store it separately from oxidizing agents, reducing agents, and reactive chemicals to avoid potential chemical reactions. |
| Shipping | 1 - bromo - 3 - chloro - 4 - fluorobenzene is a chemical. It should be shipped in well - sealed, corrosion - resistant containers, following strict hazardous materials regulations. Ensure proper labeling for safe and compliant transportation. |
Competitive 1-Bromo-3-Chloro-4-Fluorobenzene 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-Chloro-4-Fluorobenzene in China?
As a trusted 1-Bromo-3-Chloro-4-Fluorobenzene 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-Chloro-4-Fluorobenzene 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-chloro-4-fluorobenzene?
Mercury is soft and flowing in nature. It is liquid at room temperature, silver-white in color, with a metallic luster, like moonlight, so the ancients also called it "flowing beads". Its density is quite large, heavier than ordinary water. If it is contained in utensils and placed in water, it will sink to the bottom. And mercury is volatile and can gradually disperse in the air. Although it is invisible and colorless, it is very toxic and cannot be ignored.
Water is the most soft thing. The world is not softer than water, and those who attack the strong cannot win. Its nature is moisturized, colorless and transparent, clear and pure. It is liquid at room temperature and pressure, and can be shaped at will. The density of water is one gram per cubic centimeter, which is the basis for measuring all things. Its boiling point is one hundred degrees, and its freezing point is zero degrees. It is in an ordinary state. When heated, gas rises, and when cold, it condenses into a body.
Sand is fine and scattered, formed by rock weathering and water erosion. It varies in color, yellow or white or red. The sand is loose and the particles are distinct, and it slips through the fingers when held. Although the particles are small, they still gather sand into a tower, and they have a power that cannot be ignored. Its density is higher than that of water, and it sinks to the bottom more in water. It is insoluble in water and mixed with water. When it is still, the water and sand divide themselves.
The turpentine is condensed by the fat liquid of the pine tree. It is light yellow in color, light and brittle in weight, softens when heated, and can be melted into liquid, just like the wax that is first melted. Turpentine has a special aroma and smells refreshing. It is insoluble in water and floats on the water, like a boat. And turpentine burns with thick smoke and flashes of fire, which can be used for lighting, and is also a commonly used fire-inducing thing in ancient times.
Water is the most soft thing. The world is not softer than water, and those who attack the strong cannot win. Its nature is moisturized, colorless and transparent, clear and pure. It is liquid at room temperature and pressure, and can be shaped at will. The density of water is one gram per cubic centimeter, which is the basis for measuring all things. Its boiling point is one hundred degrees, and its freezing point is zero degrees. It is in an ordinary state. When heated, gas rises, and when cold, it condenses into a body.
Sand is fine and scattered, formed by rock weathering and water erosion. It varies in color, yellow or white or red. The sand is loose and the particles are distinct, and it slips through the fingers when held. Although the particles are small, they still gather sand into a tower, and they have a power that cannot be ignored. Its density is higher than that of water, and it sinks to the bottom more in water. It is insoluble in water and mixed with water. When it is still, the water and sand divide themselves.
The turpentine is condensed by the fat liquid of the pine tree. It is light yellow in color, light and brittle in weight, softens when heated, and can be melted into liquid, just like the wax that is first melted. Turpentine has a special aroma and smells refreshing. It is insoluble in water and floats on the water, like a boat. And turpentine burns with thick smoke and flashes of fire, which can be used for lighting, and is also a commonly used fire-inducing thing in ancient times.
What are the chemical properties of 1-bromo-3-chloro-4-fluorobenzene?
Mercury, bromine, radon, and astatine are all chemical substances, each of which has its own unique chemical properties, and with the changes of the times, its understanding has also expanded. Today, in ancient Chinese, I will describe it in detail for you.
Mercury, also known as mercury, is a liquid metal at room temperature. Its color is silver-white, with a metallic luster, and its fluidity is very good. Mercury's chemical properties are relatively stable, and it is not easy to react with most substances. In case of strong oxidants, such as chlorine, nitric acid, etc., it can combine with it. Mercury can form a variety of compounds, such as mercury sulfide, that is, cinnabar, which is a red pigment and is also used in medicine. Mercury vapor is highly toxic, and inhalation into the human body can damage the nervous system, kidneys, etc. Therefore, the ancients used it with caution.
Bromine is a dark reddish-brown fuming liquid at room temperature, and is the only non-metallic element that is liquid at room temperature. Bromine has a strong pungent odor, active chemical properties, and strong oxidizing properties. It can react with metals and non-metals, such as reacting with iron to form iron bromide. Bromine is widely used in organic synthesis and can be used to prepare a variety of drugs, dyes, etc. Because of its corrosiveness and toxicity, the ancients should also be careful when using it.
Radon is a colorless and odorless inert gas that is radioactive. Radon is the product of the decay of radioactive elements such as radium and thorium, and is often found in soil, rock, and water. Because of its radioactivity, it can cause damage to human cells, cancer, and especially lung cancer. Although the ancients were not well aware of its radioactive hazards, they also felt that it accumulated in confined spaces for a long time, or it was unfavorable.
Astatine is a halogen element, radioactive and active in nature. The half-life of astatine is extremely short, and the stock in nature is very small. The chemical properties of astatine are similar to iodine, and it can react with metals to form astatine. Due to its radioactivity and rarity, research and application are limited.
These four, the liquid metal properties of mercury, the active non-metallic properties of bromine, the radioactive inertness of radon, and the active and rare nature of astatine, each have their own wonders. Although the ancient knowledge is not as detailed as today's people, under limited conditions, they also have a glimpse of its characteristics, laying the foundation for later chemical research.
Mercury, also known as mercury, is a liquid metal at room temperature. Its color is silver-white, with a metallic luster, and its fluidity is very good. Mercury's chemical properties are relatively stable, and it is not easy to react with most substances. In case of strong oxidants, such as chlorine, nitric acid, etc., it can combine with it. Mercury can form a variety of compounds, such as mercury sulfide, that is, cinnabar, which is a red pigment and is also used in medicine. Mercury vapor is highly toxic, and inhalation into the human body can damage the nervous system, kidneys, etc. Therefore, the ancients used it with caution.
Bromine is a dark reddish-brown fuming liquid at room temperature, and is the only non-metallic element that is liquid at room temperature. Bromine has a strong pungent odor, active chemical properties, and strong oxidizing properties. It can react with metals and non-metals, such as reacting with iron to form iron bromide. Bromine is widely used in organic synthesis and can be used to prepare a variety of drugs, dyes, etc. Because of its corrosiveness and toxicity, the ancients should also be careful when using it.
Radon is a colorless and odorless inert gas that is radioactive. Radon is the product of the decay of radioactive elements such as radium and thorium, and is often found in soil, rock, and water. Because of its radioactivity, it can cause damage to human cells, cancer, and especially lung cancer. Although the ancients were not well aware of its radioactive hazards, they also felt that it accumulated in confined spaces for a long time, or it was unfavorable.
Astatine is a halogen element, radioactive and active in nature. The half-life of astatine is extremely short, and the stock in nature is very small. The chemical properties of astatine are similar to iodine, and it can react with metals to form astatine. Due to its radioactivity and rarity, research and application are limited.
These four, the liquid metal properties of mercury, the active non-metallic properties of bromine, the radioactive inertness of radon, and the active and rare nature of astatine, each have their own wonders. Although the ancient knowledge is not as detailed as today's people, under limited conditions, they also have a glimpse of its characteristics, laying the foundation for later chemical research.
In which chemical reactions is 1-bromo-3-chloro-4-fluorobenzene commonly used?
Mercury, arsenic, astatine, and thallium-germanium are all commonly used in various chemical reactions. For mercury, the chemical symbol is Hg, which is the only liquid metal at room temperature. It is active and plays a pivotal role in many chemical reactions. For example, in the art of alchemy, mercury is often used as a medicine, and by virtue of its volatile nature, it promotes the synthesis of various medicines, and forms pills to prolong life. Although it is many fallacies, the catalysis and synthesis of mercury in the reaction are fully apparent. Furthermore, mercury and sulfur are easily combined to form mercury sulfide. This reaction is crucial for the removal of mercury toxicity and the determination of mercury.
Arsenic, symbol As. In ancient times, it was often used in the preparation of poisons. In the field of chemistry, its compounds vary. For example, arsenic oxides are often involved in redox reactions, either as oxidizing agents or reducing agents, depending on the reaction environment. And arsenic is also used in the synthesis of semiconductor materials. With its special chemical properties, it can adjust the electrical properties of materials.
Astatine, symbol At, is radioactive. Although research is limited due to its short half-life, it is indispensable for specific nuclear chemical reactions. Its participation in reactions involves nuclear decay, particle bombardment, and the generation of new nuclides, which is of great significance in the frontier research of nuclear chemistry.
Thallium, symbol Tl. Useful for some crystal growth reactions. Thallium compounds can change the crystal structure and properties, and are used in the preparation of optical crystal materials. With the special coordination ability of thallium, the direction and shape of crystal growth can be controlled, resulting in high-quality optical crystals. And thallium salts can be used as electrolytes or catalysts in some electrochemical reactions to promote electrode reactions.
Germanium, symbol Ge. It is an important semiconductor material. In semiconductor synthesis reactions, germanium is purified, doped and other series of reactions to precisely control its electrical properties. In the electronics industry, germanium participates in the preparation of many electronic components, such as transistor manufacturing, and uses its special regulation of current to form basic electronic devices and promote the development of electronic technology.
Arsenic, symbol As. In ancient times, it was often used in the preparation of poisons. In the field of chemistry, its compounds vary. For example, arsenic oxides are often involved in redox reactions, either as oxidizing agents or reducing agents, depending on the reaction environment. And arsenic is also used in the synthesis of semiconductor materials. With its special chemical properties, it can adjust the electrical properties of materials.
Astatine, symbol At, is radioactive. Although research is limited due to its short half-life, it is indispensable for specific nuclear chemical reactions. Its participation in reactions involves nuclear decay, particle bombardment, and the generation of new nuclides, which is of great significance in the frontier research of nuclear chemistry.
Thallium, symbol Tl. Useful for some crystal growth reactions. Thallium compounds can change the crystal structure and properties, and are used in the preparation of optical crystal materials. With the special coordination ability of thallium, the direction and shape of crystal growth can be controlled, resulting in high-quality optical crystals. And thallium salts can be used as electrolytes or catalysts in some electrochemical reactions to promote electrode reactions.
Germanium, symbol Ge. It is an important semiconductor material. In semiconductor synthesis reactions, germanium is purified, doped and other series of reactions to precisely control its electrical properties. In the electronics industry, germanium participates in the preparation of many electronic components, such as transistor manufacturing, and uses its special regulation of current to form basic electronic devices and promote the development of electronic technology.
What are the methods for preparing 1-bromo-3-chloro-4-fluorobenzene?
Mercury has a strong and toxic nature, and its method of making it is quite crucial. To make mercury, the ancients had many alchemy techniques.
One of them can be burned with alexandrite. For alexandrite, mercury sulfide is also used. Take alexandrite and place it in a closed cauldron, and slowly burn it with charcoal fire. The temperature of the charcoal fire should be controlled moderately, not too much. After this burning, the alexandrite decomposes, and the mercury gas escapes and condenses to obtain mercury. This is a commonly used recipe in ancient methods, but when burning, you must be careful to prevent the leakage of mercury gas, because it is highly toxic, and if you are not careful, it will endanger your life.
Second, use aluminite and mercury. There are various types of aluminite, choose the right one and put it in the utensils together with mercury. Under fire refining, the properties of altzite and mercury can be factored, which can remove the toxicity of mercury and change the properties of mercury. In this process, the control of the heat is very important. If the fire is fierce, the mercury will be volatile and dissipated, and if the fire is small, the reaction will not be complete.
As for the production of oil shale, there is also a method. When oil shale is extracted, it is first broken into small pieces. Then it is put into a special kiln for proper heat dry distillation. The oil shale is thermally decomposed, and the escaping gas is condensed to obtain shale oil and other substances. The structure of the kiln should be able to distribute heat evenly, and it is easy to collect the escaping products. During dry distillation, pay close attention to temperature changes. If the temperature is not appropriate, the quality and yield of the product will be affected. Furthermore, the residual residue after dry distillation should also be properly disposed of to avoid polluting the environment.
One of them can be burned with alexandrite. For alexandrite, mercury sulfide is also used. Take alexandrite and place it in a closed cauldron, and slowly burn it with charcoal fire. The temperature of the charcoal fire should be controlled moderately, not too much. After this burning, the alexandrite decomposes, and the mercury gas escapes and condenses to obtain mercury. This is a commonly used recipe in ancient methods, but when burning, you must be careful to prevent the leakage of mercury gas, because it is highly toxic, and if you are not careful, it will endanger your life.
Second, use aluminite and mercury. There are various types of aluminite, choose the right one and put it in the utensils together with mercury. Under fire refining, the properties of altzite and mercury can be factored, which can remove the toxicity of mercury and change the properties of mercury. In this process, the control of the heat is very important. If the fire is fierce, the mercury will be volatile and dissipated, and if the fire is small, the reaction will not be complete.
As for the production of oil shale, there is also a method. When oil shale is extracted, it is first broken into small pieces. Then it is put into a special kiln for proper heat dry distillation. The oil shale is thermally decomposed, and the escaping gas is condensed to obtain shale oil and other substances. The structure of the kiln should be able to distribute heat evenly, and it is easy to collect the escaping products. During dry distillation, pay close attention to temperature changes. If the temperature is not appropriate, the quality and yield of the product will be affected. Furthermore, the residual residue after dry distillation should also be properly disposed of to avoid polluting the environment.
What are the main uses of 1-bromo-3-chloro-4-fluorobenzene?
Mercury, arsenic, lead, and cadmium are common harmful elements. Mercury is used in many fields, but it is also highly toxic. In ancient times, mercury was often used in alchemy, and alchemists tried to use it to refine elixirs of immortality. For example, Qin Shi Huang was obsessed with alchemy for longevity. Mercury is an important thing in this process. In industry, mercury is also used to make thermometers, sphygmomanometers and other instruments. Due to the characteristics of liquid metals, thermal expansion and contraction are obvious, making it easy to observe temperature and pressure changes. However, once mercury leaks, it is highly volatile into mercury vapor, which can seriously damage the nervous system and kidneys after inhalation.
Arsenic also has many uses. In ancient times, it was often used to make poisons, and the famous arsenic, the main ingredient is arsenic trioxide. In the field of agriculture, there were pesticides containing arsenic, which were used to kill pests to protect the growth of crops. However, long-term use of arsenic-containing pesticides can cause arsenic residues in soil and crops, endangering human health. And arsenic compounds are also used in the preparation of some medical preparations, but improper use can cause poisoning.
Lead is widely used. Lead is commonly used in ancient times to make appliances, such as lead pots, lead bowls, etc. However, long-term use of such appliances can easily lead to excessive intake of lead. In modern times, lead is mainly used in battery manufacturing, and batteries for automobiles and electric vehicles contain lead. Lead is extremely harmful to the human body, especially for children's nervous system development, can cause mental decline, abnormal behavior and other problems.
Cadmium is often symbiotic with zinc ore. In industry, cadmium is used for electroplating, which can make metal surfaces more resistant to corrosion. For example, some metal products are beautiful and durable after cadmium plating. Cadmium is also used to make nickel-cadmium batteries, which have been widely used in various small electrical appliances. However, after cadmium enters the human body, it can accumulate in the kidneys, bones and other organs, causing serious diseases such as pain and illness, which poses a great threat to human health.
Although these elements have their uses in some aspects, due to their toxicity, it is necessary to take precautions during use and contact to ensure human health and ecological environment safety.
Arsenic also has many uses. In ancient times, it was often used to make poisons, and the famous arsenic, the main ingredient is arsenic trioxide. In the field of agriculture, there were pesticides containing arsenic, which were used to kill pests to protect the growth of crops. However, long-term use of arsenic-containing pesticides can cause arsenic residues in soil and crops, endangering human health. And arsenic compounds are also used in the preparation of some medical preparations, but improper use can cause poisoning.
Lead is widely used. Lead is commonly used in ancient times to make appliances, such as lead pots, lead bowls, etc. However, long-term use of such appliances can easily lead to excessive intake of lead. In modern times, lead is mainly used in battery manufacturing, and batteries for automobiles and electric vehicles contain lead. Lead is extremely harmful to the human body, especially for children's nervous system development, can cause mental decline, abnormal behavior and other problems.
Cadmium is often symbiotic with zinc ore. In industry, cadmium is used for electroplating, which can make metal surfaces more resistant to corrosion. For example, some metal products are beautiful and durable after cadmium plating. Cadmium is also used to make nickel-cadmium batteries, which have been widely used in various small electrical appliances. However, after cadmium enters the human body, it can accumulate in the kidneys, bones and other organs, causing serious diseases such as pain and illness, which poses a great threat to human health.
Although these elements have their uses in some aspects, due to their toxicity, it is necessary to take precautions during use and contact to ensure human health and ecological environment safety.
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