Linshang Chemical
PRODUCTS
Benzene, 1-Bromo-5-Chloro-3-Fluoro-2-Iodo-
Linshang Chemical
|
HS Code |
319961 |
| Chemical Formula | C6H2BrClFI |
| Molecular Weight | 329.34 |
| Appearance | Solid (predicted) |
| Boiling Point | Predicted high (due to high molecular weight and halogen atoms) |
| Melting Point | Predicted high (due to halogen - induced intermolecular forces) |
| Density | Relatively high (due to heavy halogen atoms) |
| Solubility In Water | Low (non - polar aromatic compound with halogens) |
| Solubility In Organic Solvents | High (non - polar nature, soluble in non - polar and some polar - aprotic solvents) |
| Vapor Pressure | Low (high molecular weight and strong intermolecular forces) |
| Reactivity | Reactive towards nucleophiles due to the presence of halogens |
As an accredited Benzene, 1-Bromo-5-Chloro-3-Fluoro-2-Iodo- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 - gram vial packaging for 1 - bromo - 5 - chloro - 3 - fluoro - 2 - iodo - benzene chemical. |
| Storage | 1 - bromo - 5 - chloro - 3 - fluoro - 2 - iodobenzene should be stored in a cool, dry, well - ventilated area away from heat sources and ignition sources. Keep it in a tightly sealed container, preferably made of corrosion - resistant materials. Since it is a potentially hazardous chemical, store it separately from oxidizing agents, reducing agents, and reactive substances to prevent chemical reactions. |
| Shipping | The chemical "Benzene, 1 - bromo - 5 - chloro - 3 - fluoro - 2 - iodo -" must be shipped in accordance with strict hazardous material regulations. Use appropriate, well - sealed containers to prevent leakage during transport. |
Competitive Benzene, 1-Bromo-5-Chloro-3-Fluoro-2-Iodo- 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.
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Tel: +8615365006308
Email: info@alchemist-chem.com
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What is the structure of the compound 1-bromo-5-chloro-3-fluoro-2-iodobenzene?
The name of this compound contains "ytterbium", "lutetium" and "tritium", etc. It is difficult to accurately describe its structure in classical Chinese, but I try to describe it in a way similar to the ancients.
The compound is constructed in the order of "1-erbium-5-lutetium-3-tritium-2-astatine iridium". Erbium, a rare metal, is the starting base in the compound, such as the head of a beam and column, which lays the initial shape of the structure. Following 5-lutetium, lutetium is also a group of rare metals. It is named after erbium, which seems to add wings to the beam and column, expanding the dimension of the structure. The two are connected and form an important part of the structural backbone of this compound.
And 3-tritium, tritium is an isotope of hydrogen and is radioactive. It is like a flexible feather in compounds. Although light in weight, its characteristics may bring unique changes to the structure, affecting the stability and activity of the whole. Interacting with the former two makes the structure more complex and delicate.
The last 2 - astatine iridium, astatine is highly radioactive, and iridium is also a metal. The combination of the two seems to be the crown of the structure, giving the compound unique chemical properties. Although it is at the bottom, it is crucial and affects many physical and chemical properties of the compound.
Overall, the structure of this compound is composed of a variety of special elements in a specific order, and each element interacts to build a unique and complex microscopic structure, revealing the wonders of the chemical world.
The compound is constructed in the order of "1-erbium-5-lutetium-3-tritium-2-astatine iridium". Erbium, a rare metal, is the starting base in the compound, such as the head of a beam and column, which lays the initial shape of the structure. Following 5-lutetium, lutetium is also a group of rare metals. It is named after erbium, which seems to add wings to the beam and column, expanding the dimension of the structure. The two are connected and form an important part of the structural backbone of this compound.
And 3-tritium, tritium is an isotope of hydrogen and is radioactive. It is like a flexible feather in compounds. Although light in weight, its characteristics may bring unique changes to the structure, affecting the stability and activity of the whole. Interacting with the former two makes the structure more complex and delicate.
The last 2 - astatine iridium, astatine is highly radioactive, and iridium is also a metal. The combination of the two seems to be the crown of the structure, giving the compound unique chemical properties. Although it is at the bottom, it is crucial and affects many physical and chemical properties of the compound.
Overall, the structure of this compound is composed of a variety of special elements in a specific order, and each element interacts to build a unique and complex microscopic structure, revealing the wonders of the chemical world.
What are the physical properties of 1-bromo-5-chloro-3-fluoro-2-iodobenzene
Mercury, astatine, bromine, and francium are all special chemical substances, each with unique physical properties. The following is an ancient saying:
Mercury, at room temperature, is a liquid metal, shining with silver light, heavy texture, and flowing like water, so it is also known as mercury. Its melting point is very low, -38.87 ° C, and its boiling point is not high, reaching 356.6 ° C. The surface tension of mercury is quite large, and it can aggregate into bright silver balls on a plane, rolling freely. And mercury has a certain degree of volatility, and it can slowly turn into mercury vapor in the air. This gas is highly toxic, so be careful.
Astatine is the last of the halogen elements and is radioactive. Because of its very short half-life, it is very rare in nature. When the astatine is solid, it may be black, but the specific color varies depending on the conditions. Although its physical properties are difficult to observe in detail, it is deduced from the law of halogen elements, or it has a certain volatility and has halogen elements in common.
Bromine is the only non-metallic element that is liquid at room temperature and pressure. It is dark red-brown in color and has a strong pungent odor. Its gas is pungent and can damage the eyes and respiratory tract. The melting point of bromine is -7.2 ° C, and the boiling point is 58.78 ° C. Bromine has a density greater than that of water, and is slightly soluble in water. It is easily soluble in organic solvents, such as carbon tetrachloride, and is orange-red in organic solutions.
Francium is highly radioactive and is an alkali metal element. Its melting point is about 27 ° C and boiling point is about 677 ° C. Due to the strong radioactivity and short half-life of francium, the amount of natural existence is very small, and the research is limited. However, by analogy with the properties of alkali metals, francium is a soft metal with good electrical and thermal conductivity, and its chemical properties are extremely active. When exposed to water, it reacts violently to generate hydrogen and hydroxides.
Mercury, at room temperature, is a liquid metal, shining with silver light, heavy texture, and flowing like water, so it is also known as mercury. Its melting point is very low, -38.87 ° C, and its boiling point is not high, reaching 356.6 ° C. The surface tension of mercury is quite large, and it can aggregate into bright silver balls on a plane, rolling freely. And mercury has a certain degree of volatility, and it can slowly turn into mercury vapor in the air. This gas is highly toxic, so be careful.
Astatine is the last of the halogen elements and is radioactive. Because of its very short half-life, it is very rare in nature. When the astatine is solid, it may be black, but the specific color varies depending on the conditions. Although its physical properties are difficult to observe in detail, it is deduced from the law of halogen elements, or it has a certain volatility and has halogen elements in common.
Bromine is the only non-metallic element that is liquid at room temperature and pressure. It is dark red-brown in color and has a strong pungent odor. Its gas is pungent and can damage the eyes and respiratory tract. The melting point of bromine is -7.2 ° C, and the boiling point is 58.78 ° C. Bromine has a density greater than that of water, and is slightly soluble in water. It is easily soluble in organic solvents, such as carbon tetrachloride, and is orange-red in organic solutions.
Francium is highly radioactive and is an alkali metal element. Its melting point is about 27 ° C and boiling point is about 677 ° C. Due to the strong radioactivity and short half-life of francium, the amount of natural existence is very small, and the research is limited. However, by analogy with the properties of alkali metals, francium is a soft metal with good electrical and thermal conductivity, and its chemical properties are extremely active. When exposed to water, it reacts violently to generate hydrogen and hydroxides.
What are the chemical properties of 1-bromo-5-chloro-3-fluoro-2-iodobenzene?
Mercury is strong and toxic. Its substance is liquid at room temperature, with silver light flickering, and flows like water. Throughout the ages, although it has a wide range of uses, its toxicity should not be underestimated.
Mercury is volatile and can form mercury vapor in the air. Once inhaled, it directly invades the human body and damages the internal organs, especially the liver, kidney and nervous system. If people accidentally touch it, the skin may feel burning pain, or even poisoned into the bloodstream, endangering life.
Furthermore, mercury compounds, such as mercury chloride and mercury sulfide, are also highly toxic. Mercury chloride dissolves in water. If you drink water containing this by mistake, you will experience severe gastrointestinal pain, vomiting and diarrhea, and organ function will gradually decline. Although mercury sulfide has a slightly higher stability, it can also decompose and release mercury under specific conditions, causing toxicity.
Bromine is a dark reddish-brown smoky liquid at room temperature, with a strong pungent odor. Its chemical properties are active and highly oxidizing, and it can react with many metals and non-metals. Bromine bears the brunt of the harm to the human body for the respiratory tract and skin. Smell its gas, the respiratory tract burns and stings, and coughs endlessly; touch its liquid, the skin has erythema and blisters, and the pain is unbearable.
Iodine, purple-black crystals, with metallic luster. Although this trace element is indispensable to the human body, excessive intake also has drawbacks. Iodine is corrosive and can cause burns when it touches the skin. And iodine can react with other substances under specific conditions to form toxic compounds.
Water is the source of life, and all things in the world depend on it for growth. Its nature is peaceful, colorless and odorless, and it is the medium for many chemical reactions. Water can dissolve many substances, which makes it capable of transporting nutrients as well as harmful substances.
To sum up, mercury, bromine, and iodine each have unique chemical properties and hazards. When used in daily life, care must be taken to prevent the danger of poisoning. Although water is good in nature, it needs to be used well to keep it pure for life and health.
Mercury is volatile and can form mercury vapor in the air. Once inhaled, it directly invades the human body and damages the internal organs, especially the liver, kidney and nervous system. If people accidentally touch it, the skin may feel burning pain, or even poisoned into the bloodstream, endangering life.
Furthermore, mercury compounds, such as mercury chloride and mercury sulfide, are also highly toxic. Mercury chloride dissolves in water. If you drink water containing this by mistake, you will experience severe gastrointestinal pain, vomiting and diarrhea, and organ function will gradually decline. Although mercury sulfide has a slightly higher stability, it can also decompose and release mercury under specific conditions, causing toxicity.
Bromine is a dark reddish-brown smoky liquid at room temperature, with a strong pungent odor. Its chemical properties are active and highly oxidizing, and it can react with many metals and non-metals. Bromine bears the brunt of the harm to the human body for the respiratory tract and skin. Smell its gas, the respiratory tract burns and stings, and coughs endlessly; touch its liquid, the skin has erythema and blisters, and the pain is unbearable.
Iodine, purple-black crystals, with metallic luster. Although this trace element is indispensable to the human body, excessive intake also has drawbacks. Iodine is corrosive and can cause burns when it touches the skin. And iodine can react with other substances under specific conditions to form toxic compounds.
Water is the source of life, and all things in the world depend on it for growth. Its nature is peaceful, colorless and odorless, and it is the medium for many chemical reactions. Water can dissolve many substances, which makes it capable of transporting nutrients as well as harmful substances.
To sum up, mercury, bromine, and iodine each have unique chemical properties and hazards. When used in daily life, care must be taken to prevent the danger of poisoning. Although water is good in nature, it needs to be used well to keep it pure for life and health.
What are the common synthesis methods of 1-bromo-5-chloro-3-fluoro-2-iodobenzene?
Mercury, astatine, bromine, iodine, etc. are active non-metallic elements. Although their knowledge was limited in ancient times, there were also related preparation and application methods.
Mercury, known as "mercury" in ancient times, is commonly prepared by two methods. First, roasted dansha (mercury sulfide), the chemical reaction formula is: HgS + O < 3 = Hg + SO < 3. For example, Ge Hong's "Baopuzi" states: "The dansha is burned into mercury, and the accumulation becomes dansha." The ancients placed dansha in an airtight container, roasted at high temperature, and the dansha was decomposed to obtain mercury. Second, cinnabar was heated with iron filings, and the reaction formula was: HgS + Fe = Hg + FeS. The ancients replaced mercury with the activity of iron.
Astatine, because of its radioactivity and minimal content in nature, was rarely paid attention to in ancient times, and there was no way to prepare it.
Bromine, its elemental substance is liquid at room temperature, and it was difficult for the ancients to produce. However, seawater contains bromide, or it is derived from seawater, and it can be obtained through multiple complex processes, such as concentration, oxidation, distillation, etc. However, the specific ancient books are not detailed.
Iodine, seaweed and other marine plants contain iodine. In ancient times, seaweed may be burned to obtain ash, and then through water immersion, filtration, evaporation and other steps, iodine-containing compounds can be obtained. After oxidation with an oxidizing agent, such as chlorine gas, iodine ions can be oxidized to iodine elemental substance. However, the ancient operation may be simpler and rougher, and there are few records in ancient books.
To sum up, mercury has a relatively clear method of preparation, and the rest are poorly recorded in ancient production due to nature or cognitive limitations.
Mercury, known as "mercury" in ancient times, is commonly prepared by two methods. First, roasted dansha (mercury sulfide), the chemical reaction formula is: HgS + O < 3 = Hg + SO < 3. For example, Ge Hong's "Baopuzi" states: "The dansha is burned into mercury, and the accumulation becomes dansha." The ancients placed dansha in an airtight container, roasted at high temperature, and the dansha was decomposed to obtain mercury. Second, cinnabar was heated with iron filings, and the reaction formula was: HgS + Fe = Hg + FeS. The ancients replaced mercury with the activity of iron.
Astatine, because of its radioactivity and minimal content in nature, was rarely paid attention to in ancient times, and there was no way to prepare it.
Bromine, its elemental substance is liquid at room temperature, and it was difficult for the ancients to produce. However, seawater contains bromide, or it is derived from seawater, and it can be obtained through multiple complex processes, such as concentration, oxidation, distillation, etc. However, the specific ancient books are not detailed.
Iodine, seaweed and other marine plants contain iodine. In ancient times, seaweed may be burned to obtain ash, and then through water immersion, filtration, evaporation and other steps, iodine-containing compounds can be obtained. After oxidation with an oxidizing agent, such as chlorine gas, iodine ions can be oxidized to iodine elemental substance. However, the ancient operation may be simpler and rougher, and there are few records in ancient books.
To sum up, mercury has a relatively clear method of preparation, and the rest are poorly recorded in ancient production due to nature or cognitive limitations.
In which fields is 1-bromo-5-chloro-3-fluoro-2-iodobenzene used?
Looking at the present world, if you want to know the application of 1 + - + mercury + - + 5 + - + bromine + - + 3 + - +++ 2 + - + astatine silver, you need to study various fields in detail.
Mercury is smart and heavy in nature. In the art of alchemy, it was often used by those who sought longevity in the past, hoping to use its miraculous power to refine the elixir of longevity. In medicine, there were once medicines made of mercury to treat scabies and other diseases, but its toxicity was gradually recognized by doctors. And in industry, mercury is used in the manufacture of instruments, such as thermometers, sphygmomanometers, etc., to measure changes in temperature and pressure due to its thermal expansion and contraction. In the electrical field, mercury vapor lamps have been widely used in streets and alleys, illuminating all directions.
Bromine is reddish brown in color and smelly. In medicine, it is a raw material for many medicines, used to make antibacterial and analgesic agents. In chemical industry, bromide is an important intermediate, which can make dyes and fragrances, making the world colorful and fragrant. In agriculture, bromide can be used as an insecticide to protect crops from pests.
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Astatine silver is a rare element, and although astatine silver is rare, it can be used in scientific research, or can be used for radioactive tracing, to explore the mysteries of living things, and to understand the mechanism of chemical reactions. Although its application is not wide, it may have extraordinary effects in future scientific research.
Overall, mercury, bromine, water, and astatine silver have obvious or hidden applications in many fields such as medicine, industry, agriculture, and scientific research, which are related to people's livelihood and have far-reaching impact.
Mercury is smart and heavy in nature. In the art of alchemy, it was often used by those who sought longevity in the past, hoping to use its miraculous power to refine the elixir of longevity. In medicine, there were once medicines made of mercury to treat scabies and other diseases, but its toxicity was gradually recognized by doctors. And in industry, mercury is used in the manufacture of instruments, such as thermometers, sphygmomanometers, etc., to measure changes in temperature and pressure due to its thermal expansion and contraction. In the electrical field, mercury vapor lamps have been widely used in streets and alleys, illuminating all directions.
Bromine is reddish brown in color and smelly. In medicine, it is a raw material for many medicines, used to make antibacterial and analgesic agents. In chemical industry, bromide is an important intermediate, which can make dyes and fragrances, making the world colorful and fragrant. In agriculture, bromide can be used as an insecticide to protect crops from pests.
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< r >
< r >
< In shipping, the river reaches the sea, allowing goods to circulate in all directions.
Astatine silver is a rare element, and although astatine silver is rare, it can be used in scientific research, or can be used for radioactive tracing, to explore the mysteries of living things, and to understand the mechanism of chemical reactions. Although its application is not wide, it may have extraordinary effects in future scientific research.
Overall, mercury, bromine, water, and astatine silver have obvious or hidden applications in many fields such as medicine, industry, agriculture, and scientific research, which are related to people's livelihood and have far-reaching impact.
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