Linshang Chemical
PRODUCTS
1-Bromo-3-Tert-Butyl-5-Chlorobenzene
Linshang Chemical
|
HS Code |
389115 |
| Chemical Formula | C10H12BrCl |
| Molecular Weight | 249.56 |
| Appearance | Solid (Typical for aromatic halides) |
| Boiling Point | Estimated around 230 - 250 °C (approx., based on similar structures) |
| Density | Estimated around 1.3 - 1.5 g/cm³ (approx., based on similar compounds) |
| Solubility In Water | Insoluble (Aromatic halides are generally hydrophobic) |
| Solubility In Organic Solvents | Soluble in common organic solvents like dichloromethane, toluene |
| Vapor Pressure | Low (Aromatic halides have low volatility) |
As an accredited 1-Bromo-3-Tert-Butyl-5-Chlorobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 g of 1 - bromo - 3 - tert - butyl - 5 - chlorobenzene in sealed glass bottle. |
| Storage | 1 - bromo - 3 - tert - butyl - 5 - chlorobenzene should be stored in a cool, dry, well - ventilated area, away from heat sources and ignition points. Keep it in a tightly sealed container to prevent vapor leakage. Store separately from oxidizing agents, reducing agents, and other reactive chemicals to avoid potential reactions. |
| Shipping | 1 - bromo - 3 - tert - butyl - 5 - chlorobenzene is shipped in well - sealed, corrosion - resistant containers. It follows strict hazardous chemical shipping regulations to ensure safe transport, avoiding exposure to heat, ignition sources, and incompatible substances. |
Competitive 1-Bromo-3-Tert-Butyl-5-Chlorobenzene 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
Where to Buy 1-Bromo-3-Tert-Butyl-5-Chlorobenzene in China?
As a trusted 1-Bromo-3-Tert-Butyl-5-Chlorobenzene 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 1-Bromo-3-Tert-Butyl-5-Chlorobenzene 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-bromo-3-tert-butyl-5-chlorobenzene?
Hydrogen is light and pure gas. It is lively and can combine with various substances. Hydrogen is colorless and odorless, although it is formless and useful. At room temperature, hydrogen is in a gaseous state, but if extreme cold and high pressure are applied, it can also form a liquid.
Looking at hydrogen and oxygenation, it can generate water, which is the most important thing. The two burn in case of fire, emit great heat, and their flames are light blue. This reaction is common between heaven and earth when lightning strikes the air, water vaporizes to generate hydrogen and oxygen, and compounds into water.
Chlorine and hydrogen combine, and under light, react quickly to produce hydrogen chloride. Hydrogen chloride meets water to form acids and can erode various substances. It is also commonly used in industry.
Furthermore, hydrogen also has special functions in the metallurgical industry. It can capture oxygen in metal oxides, reduce metals, and obtain pure metals.
In alkanes, hydrogen is connected to carbon, forming an organic base. Its properties are relatively stable. In case of fire, it can also be burned, providing energy for the world.
Fluorine and hydrogen have strong chemical properties. When the two meet, they quickly combine to form hydrogen fluoride. Hydrogen fluoride has strong corrosion properties and can erode glass. Its strong properties are evident.
In summary, the chemical properties of hydrogen are lively and changeable. It is crucial to the transformation of all things, the prosperity of industry, and the luck of heaven and earth. Or burn and generate heat, or combine to form a new thing, its use is infinite, and it is also a wonder of creation.
Looking at hydrogen and oxygenation, it can generate water, which is the most important thing. The two burn in case of fire, emit great heat, and their flames are light blue. This reaction is common between heaven and earth when lightning strikes the air, water vaporizes to generate hydrogen and oxygen, and compounds into water.
Chlorine and hydrogen combine, and under light, react quickly to produce hydrogen chloride. Hydrogen chloride meets water to form acids and can erode various substances. It is also commonly used in industry.
Furthermore, hydrogen also has special functions in the metallurgical industry. It can capture oxygen in metal oxides, reduce metals, and obtain pure metals.
In alkanes, hydrogen is connected to carbon, forming an organic base. Its properties are relatively stable. In case of fire, it can also be burned, providing energy for the world.
Fluorine and hydrogen have strong chemical properties. When the two meet, they quickly combine to form hydrogen fluoride. Hydrogen fluoride has strong corrosion properties and can erode glass. Its strong properties are evident.
In summary, the chemical properties of hydrogen are lively and changeable. It is crucial to the transformation of all things, the prosperity of industry, and the luck of heaven and earth. Or burn and generate heat, or combine to form a new thing, its use is infinite, and it is also a wonder of creation.
What are the physical properties of 1-bromo-3-tert-butyl-5-chlorobenzene
The physical properties of mercury, tribromomethane, and sodium pentachlorophenol are as follows:
Mercury, commonly known as mercury, is the only metal that exists as a liquid at room temperature and pressure. Its color is silver-white, metallic luster, weight, density is 13.59 g/cm ³, and it is very easy to flow. Melting point - 38.87 ° C, boiling point 356.6 ° C. Mercury vapor is highly toxic and volatile. Although it is difficult to dissolve in water, it can be soluble in nitric acid, hot concentrated sulfuric acid, etc.
Tribromomethane, also known as bromoform, is a colorless heavy liquid with a special odor. Density 2.89 g/cm ³, melting point 7.8 ° C, boiling point 149.5 ° C. Insoluble in water, miscible in most organic solvents such as ethanol, ether, benzene, chloroform, etc.
Sodium pentachlorophenol, pure product is white needle-like crystal with a special smell. Its industrial product is light red or light brown scaly crystal. Easily soluble in water, the aqueous solution is alkaline, soluble in organic solvents such as ethanol, methanol, acetone, etc. Melting point 190 ° C, easily decomposes when heated, and emits toxic gases.
These three have different physical properties and are useful in many fields such as industry, agriculture, medicine, etc. However, due to their toxicity or special properties, when using and disposing, it should abide by the norms to prevent harm to the environment and human health.
Mercury, commonly known as mercury, is the only metal that exists as a liquid at room temperature and pressure. Its color is silver-white, metallic luster, weight, density is 13.59 g/cm ³, and it is very easy to flow. Melting point - 38.87 ° C, boiling point 356.6 ° C. Mercury vapor is highly toxic and volatile. Although it is difficult to dissolve in water, it can be soluble in nitric acid, hot concentrated sulfuric acid, etc.
Tribromomethane, also known as bromoform, is a colorless heavy liquid with a special odor. Density 2.89 g/cm ³, melting point 7.8 ° C, boiling point 149.5 ° C. Insoluble in water, miscible in most organic solvents such as ethanol, ether, benzene, chloroform, etc.
Sodium pentachlorophenol, pure product is white needle-like crystal with a special smell. Its industrial product is light red or light brown scaly crystal. Easily soluble in water, the aqueous solution is alkaline, soluble in organic solvents such as ethanol, methanol, acetone, etc. Melting point 190 ° C, easily decomposes when heated, and emits toxic gases.
These three have different physical properties and are useful in many fields such as industry, agriculture, medicine, etc. However, due to their toxicity or special properties, when using and disposing, it should abide by the norms to prevent harm to the environment and human health.
What are the main uses of 1-bromo-3-tert-butyl-5-chlorobenzene?
Mercury, lead, and arsenic are all highly toxic substances, and their uses have been used throughout the ages, which have both benefits and serious troubles.
Mercury is listed as the top grade in the "Shennong Materia Medica". In the past, alchemists relied heavily on it, hoping to refine elixirs for longevity. In the Mausoleum of Qin Shi Huang, mercury was used as a hundred rivers, rivers and seas to create a strange underground universe, and it evaporated to protect the tombs from corrosion and theft. In the field of medicine, mercury was used as a medicine in ancient times, such as treating scabies and other diseases, but it is rarely used today because of its strong toxicity. In industry, mercury has been used in the manufacture of thermometers, sphygmomanometers and other instruments due to its good electrical conductivity. However, it is volatile and highly toxic. Accidental leakage can cause serious mercury pollution, which is extremely harmful. Therefore, it is gradually being replaced today.
Lead has a soft texture and is easy to shape. In ancient times, it was mostly used to cast tripods and other ceremonial vessels to show dignity and power. Later, lead was used to make weapons to enhance its lethality and weight. In the field of writing, although the lead lead lead of pencils is not pure lead, it originated from the tradition of ancient people writing with pencil strips. Lead is also used in construction, such as making lead plates to waterproof and soundproof. However, lead poisoning can cause damage to many systems in the human body, especially on the development of children's nervous system. Therefore, its use is strictly controlled today.
Arsenic, often seen in the world in the form of realgar, orpiment, etc. Realgar is often sprinkled on the folk during the Dragon Boat Festival to repel snakes and insects. Ancient physicians occasionally used arsenic to treat sores and insecticides, which is also recorded in the Compendium of Materia Medica. However, arsenic is highly toxic, and a small amount of ingestion can also cause chronic poisoning. In ancient times, some people used it for mischief, such as poisoning. In industry, arsenic was used to make pesticides and insecticides. Later, due to its strong toxicity, it was seriously harmful to the environment and human body, and was gradually banned.
Although mercury, lead, and arsenic have their own uses, they are highly toxic. When using them, the pros and cons must be carefully weighed to prevent the spread of poison and endanger life.
Mercury is listed as the top grade in the "Shennong Materia Medica". In the past, alchemists relied heavily on it, hoping to refine elixirs for longevity. In the Mausoleum of Qin Shi Huang, mercury was used as a hundred rivers, rivers and seas to create a strange underground universe, and it evaporated to protect the tombs from corrosion and theft. In the field of medicine, mercury was used as a medicine in ancient times, such as treating scabies and other diseases, but it is rarely used today because of its strong toxicity. In industry, mercury has been used in the manufacture of thermometers, sphygmomanometers and other instruments due to its good electrical conductivity. However, it is volatile and highly toxic. Accidental leakage can cause serious mercury pollution, which is extremely harmful. Therefore, it is gradually being replaced today.
Lead has a soft texture and is easy to shape. In ancient times, it was mostly used to cast tripods and other ceremonial vessels to show dignity and power. Later, lead was used to make weapons to enhance its lethality and weight. In the field of writing, although the lead lead lead of pencils is not pure lead, it originated from the tradition of ancient people writing with pencil strips. Lead is also used in construction, such as making lead plates to waterproof and soundproof. However, lead poisoning can cause damage to many systems in the human body, especially on the development of children's nervous system. Therefore, its use is strictly controlled today.
Arsenic, often seen in the world in the form of realgar, orpiment, etc. Realgar is often sprinkled on the folk during the Dragon Boat Festival to repel snakes and insects. Ancient physicians occasionally used arsenic to treat sores and insecticides, which is also recorded in the Compendium of Materia Medica. However, arsenic is highly toxic, and a small amount of ingestion can also cause chronic poisoning. In ancient times, some people used it for mischief, such as poisoning. In industry, arsenic was used to make pesticides and insecticides. Later, due to its strong toxicity, it was seriously harmful to the environment and human body, and was gradually banned.
Although mercury, lead, and arsenic have their own uses, they are highly toxic. When using them, the pros and cons must be carefully weighed to prevent the spread of poison and endanger life.
What are the synthesis methods of 1-bromo-3-tert-butyl-5-chlorobenzene
To prepare 1-hydroxy-3-pyridyl-5-bromoindole, there are many methods, each with its own ingenuity.
First, you can start from the basic raw materials and build a molecular structure in a specific reaction sequence. First select a suitable bromine-containing compound, and carry out a nucleophilic substitution reaction with a pyridyl-containing raw material under the action of a suitable solvent and catalyst. This step requires precise control of the reaction temperature and time, so that the bromine atom is properly connected to the pyridyl group to build a preliminary structural framework. Then, the hydroxyl group is introduced, either through hydrolysis or through the addition of specific reagents, the hydroxyl group is precisely placed at the target position. This process requires strict reaction conditions, and the polarity and pH of the solvent need to be finely regulated to obtain high-purity products.
Second, the reverse synthesis analysis method can be used, with the target product as the guide, to disassemble the molecule into several easy-to-obtain fragments. For example, the fragment containing the indole skeleton is first synthesized, and then the bromine atom, pyridyl group and hydroxyl group are gradually introduced. First, the classic indole synthesis method, such as the Fisher indole synthesis reaction, is used to prepare the indole matrix. Subsequently, the bromine atom is introduced by a halogenation reaction at a specific position of the indole ring. According to the electron cloud distribution law of the indole ring, the appropriate halogenation reagent and reaction conditions need to be selected to ensure the accurate positioning of the bromine atom. After that, through coupling reaction and other means, the pyridyl group is connected, and then the hydroxyl group is introduced through appropriate conversion to achieve the construction of the target molecule.
Third, there are also methods for derivatization using natural products or existing compounds as starting materials. If a natural product with a similar structure is found, the desired functional group can be gradually introduced through modification and modification by using its existing skeleton structure. For example, a certain type of natural product containing indole structure can be operated with protective groups to protect specific functional groups and avoid being affected in subsequent reactions. Then, according to the structural requirements of the target molecule, bromination, pyridylation and hydroxylation reactions are carried out in sequence, and the structural advantages of natural products are cleverly used to simplify the synthesis process and improve the reaction efficiency and selectivity.
Each of these methods has its own advantages and disadvantages. In actual operation, it is necessary to comprehensively consider many factors such as the availability of raw materials, the cost of reaction, yield and purity requirements, and make careful choices to achieve the desired synthetic effect.
First, you can start from the basic raw materials and build a molecular structure in a specific reaction sequence. First select a suitable bromine-containing compound, and carry out a nucleophilic substitution reaction with a pyridyl-containing raw material under the action of a suitable solvent and catalyst. This step requires precise control of the reaction temperature and time, so that the bromine atom is properly connected to the pyridyl group to build a preliminary structural framework. Then, the hydroxyl group is introduced, either through hydrolysis or through the addition of specific reagents, the hydroxyl group is precisely placed at the target position. This process requires strict reaction conditions, and the polarity and pH of the solvent need to be finely regulated to obtain high-purity products.
Second, the reverse synthesis analysis method can be used, with the target product as the guide, to disassemble the molecule into several easy-to-obtain fragments. For example, the fragment containing the indole skeleton is first synthesized, and then the bromine atom, pyridyl group and hydroxyl group are gradually introduced. First, the classic indole synthesis method, such as the Fisher indole synthesis reaction, is used to prepare the indole matrix. Subsequently, the bromine atom is introduced by a halogenation reaction at a specific position of the indole ring. According to the electron cloud distribution law of the indole ring, the appropriate halogenation reagent and reaction conditions need to be selected to ensure the accurate positioning of the bromine atom. After that, through coupling reaction and other means, the pyridyl group is connected, and then the hydroxyl group is introduced through appropriate conversion to achieve the construction of the target molecule.
Third, there are also methods for derivatization using natural products or existing compounds as starting materials. If a natural product with a similar structure is found, the desired functional group can be gradually introduced through modification and modification by using its existing skeleton structure. For example, a certain type of natural product containing indole structure can be operated with protective groups to protect specific functional groups and avoid being affected in subsequent reactions. Then, according to the structural requirements of the target molecule, bromination, pyridylation and hydroxylation reactions are carried out in sequence, and the structural advantages of natural products are cleverly used to simplify the synthesis process and improve the reaction efficiency and selectivity.
Each of these methods has its own advantages and disadvantages. In actual operation, it is necessary to comprehensively consider many factors such as the availability of raw materials, the cost of reaction, yield and purity requirements, and make careful choices to achieve the desired synthetic effect.
What are the precautions for storing and transporting 1-bromo-3-tert-butyl-5-chlorobenzene?
1. Mercury is a highly toxic substance and its sexual flow. When hiding, you must choose a closed device to prevent it from escaping, causing the poisonous gas to disperse and harming everyone. And it should be placed in a cool place to avoid heat and light. Covering heat and light can promote its volatilization and increase risk.
2. For trinitrotoluene, strong explosives, you need to be careful when hiding. Choose a sturdy library, away from human settlements, set up police around, and strictly prohibit fireworks. Its sex is sensitive, and it is easy to detonate after a little impact and friction, so when handling, handle it with care, use a gentle method, and do not use force.
3. Cyanide-based substances are also highly toxic. Hidden place, when there is a special person in charge, the registration is detailed, and there is a number of entry and exit. The warehouse should be dry, avoiding water and tide, because it is prone to toxic gas in contact with water or tide. When transporting, choose a special car and a special ship, marked with eye-catching poison, and protect it with proper methods to prevent leakage.
4. Halogenated hydrocarbons are mostly toxic and flammable. Hidden in the warehouse, it should be well ventilated and moderately controlled. Because it is flammable, fire and electricity are banned in the warehouse to prevent it from exploding. During transportation, it should also prevent its leakage. Use airtight devices. If there is a leak, dispose of it quickly to prevent it from emitting and endangering the environment and people.
All these things are dangerous goods. You must not slack off at all. You must abide by the rules to ensure safety, otherwise the disaster will come, and it will be too late to regret.
2. For trinitrotoluene, strong explosives, you need to be careful when hiding. Choose a sturdy library, away from human settlements, set up police around, and strictly prohibit fireworks. Its sex is sensitive, and it is easy to detonate after a little impact and friction, so when handling, handle it with care, use a gentle method, and do not use force.
3. Cyanide-based substances are also highly toxic. Hidden place, when there is a special person in charge, the registration is detailed, and there is a number of entry and exit. The warehouse should be dry, avoiding water and tide, because it is prone to toxic gas in contact with water or tide. When transporting, choose a special car and a special ship, marked with eye-catching poison, and protect it with proper methods to prevent leakage.
4. Halogenated hydrocarbons are mostly toxic and flammable. Hidden in the warehouse, it should be well ventilated and moderately controlled. Because it is flammable, fire and electricity are banned in the warehouse to prevent it from exploding. During transportation, it should also prevent its leakage. Use airtight devices. If there is a leak, dispose of it quickly to prevent it from emitting and endangering the environment and people.
All these things are dangerous goods. You must not slack off at all. You must abide by the rules to ensure safety, otherwise the disaster will come, and it will be too late to regret.
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