Linshang Chemical
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1-Tert-Butyl-3-Nitro-4-Chlorobenzene
Linshang Chemical
|
HS Code |
679167 |
| Chemical Formula | C10H12ClNO2 |
| Molecular Weight | 213.66 |
| Appearance | Solid (usually) |
| Physical State At Room Temp | Solid |
| Odor | Typical organic chemical odor |
| Melting Point | Varies, needs experimental determination |
| Boiling Point | Varies, needs experimental determination |
| Solubility In Water | Low solubility |
| Solubility In Organic Solvents | Soluble in common organic solvents |
| Density | Needs experimental determination |
| Flash Point | Needs experimental determination |
| Hazard Class | May be classified as toxic, flammable depending on exposure, needs proper assessment |
As an accredited 1-Tert-Butyl-3-Nitro-4-Chlorobenzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 - tert - butyl - 3 - nitro - 4 - chlorobenzene packaged in 1 - kg containers. |
| Storage | 1 - tert - butyl - 3 - nitro - 4 - chlorobenzene should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, flames, and oxidizing agents. Store in a tightly closed container, preferably in a corrosion - resistant material. This is to prevent decomposition, potential combustion due to the nitro group, and any unwanted reactions that could pose risks to safety and the integrity of the chemical. |
| Shipping | 1 - tert - butyl - 3 - nitro - 4 - chlorobenzene is a chemical. Ship it in well - sealed, corrosion - resistant containers. Label clearly with relevant hazard warnings. Follow strict transportation regulations for nitro - containing and chlorinated chemicals. |
Competitive 1-Tert-Butyl-3-Nitro-4-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-Tert-Butyl-3-Nitro-4-Chlorobenzene in China?
As a trusted 1-Tert-Butyl-3-Nitro-4-Chlorobenzene 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-Tert-Butyl-3-Nitro-4-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 main uses of 1-tert-butyl-3-nitro-4-chlorobenzene?
1-Pentyl, 3-heptyl, and 4-bromobenzyl are all common groups in chemical compounds, and their main uses are different. The main uses are as follows:
pentyl, which is the alkyl group formed by removing one atom from the pentane molecule. Its use is good, and it is often used as the base element of carbon in the field of synthesis. For example, it can be esterified to generate amyl ester compounds of the phase. This ester is often used in perfumery to give the special fragrance of the product. In addition, amyl derivatives are also widely used in surface active products, which can improve the interfacial properties of the product, increase emulsification, dispersion and other properties.
heptyl, derived from heptane to remove one atom. In the petrochemical industry, heptyl compounds are often used in the formulation of lubricating oil. The introduction of heptyl groups can improve the viscosity, oxidation resistance and low flow properties of lubricating oil, and improve the viscosity of lubricating oil products, making them more suitable for various processes. In addition, in some soluble synthesis, heptyl groups can increase the solubility of soluble oil, making it more soluble for specific compounds.
Bromobenzyl is obtained by the substitution of the benzyl atom on the benzyl group by the bromine atom. It plays an important role in the synthesis of lubricating oil, especially in the nuclear substitution of the anti-reactive oil. Bromobenzyl is easily replaced by various nuclear substitutes due to the activity of the bromine atom, resulting in the formation of multi-functional compounds. In the field of chemical synthesis, bromobenzyl is often used for the introduction of benzyl to improve the physicalization and biological activity of the whole molecule. In the same way, in the synthesis of polymer materials, bromobenzyl can be used for the induction of polymeric reactions, polymers with specific properties.
, 1-pentyl, 3-heptyl, and 4-bromobenzyl each, by virtue of their properties, play an indispensable role in the field of multiplexing and scientific research, and promote the development of related technologies.
pentyl, which is the alkyl group formed by removing one atom from the pentane molecule. Its use is good, and it is often used as the base element of carbon in the field of synthesis. For example, it can be esterified to generate amyl ester compounds of the phase. This ester is often used in perfumery to give the special fragrance of the product. In addition, amyl derivatives are also widely used in surface active products, which can improve the interfacial properties of the product, increase emulsification, dispersion and other properties.
heptyl, derived from heptane to remove one atom. In the petrochemical industry, heptyl compounds are often used in the formulation of lubricating oil. The introduction of heptyl groups can improve the viscosity, oxidation resistance and low flow properties of lubricating oil, and improve the viscosity of lubricating oil products, making them more suitable for various processes. In addition, in some soluble synthesis, heptyl groups can increase the solubility of soluble oil, making it more soluble for specific compounds.
Bromobenzyl is obtained by the substitution of the benzyl atom on the benzyl group by the bromine atom. It plays an important role in the synthesis of lubricating oil, especially in the nuclear substitution of the anti-reactive oil. Bromobenzyl is easily replaced by various nuclear substitutes due to the activity of the bromine atom, resulting in the formation of multi-functional compounds. In the field of chemical synthesis, bromobenzyl is often used for the introduction of benzyl to improve the physicalization and biological activity of the whole molecule. In the same way, in the synthesis of polymer materials, bromobenzyl can be used for the induction of polymeric reactions, polymers with specific properties.
, 1-pentyl, 3-heptyl, and 4-bromobenzyl each, by virtue of their properties, play an indispensable role in the field of multiplexing and scientific research, and promote the development of related technologies.
What are the physical properties of 1-tert-butyl-3-nitro-4-chlorobenzene?
There are many kinds of alum, common are green alum, bile alum, Hao alum, etc., each with specific physical properties.
Green alum, the color is emerald green, the shape is fine crystals, and the quality is brittle. Placed in the air, it is susceptible to oxidation, and the color is gradually changed. This is its remarkable characteristic. Its taste is astringent, soluble in water, and when dissolved, the aqueous solution is light green, due to ferrous ions.
Alum, blue in color, dazzling, like a gem. The shape is mostly block or granular, and the surface is shiny. The texture is hard and brittle, and it feels cool to the touch. Its taste is also astringent, and it is easily soluble in water. The resulting solution is blue, which is the characteristic color of copper ions.
Hao alum, white and transparent, like ice crystals, crystal clear. Fine texture, moderate relative density. Easily soluble in water, the dissolution process is relatively mild, and the aqueous solution is colorless and transparent. And Hao alum will gradually lose its crystal water under heating conditions, and its shape and properties will change.
Alum substances, each because of their unique physical properties, have wonderful uses in many fields. Or used in medicine, or applied to printing and dyeing, or used in metallurgy. Its different properties and wide range of uses are really treasures bestowed by nature. The ancients have long practiced and explored and well understood its properties before they could make the best use of it, adding color to life and production.
Green alum, the color is emerald green, the shape is fine crystals, and the quality is brittle. Placed in the air, it is susceptible to oxidation, and the color is gradually changed. This is its remarkable characteristic. Its taste is astringent, soluble in water, and when dissolved, the aqueous solution is light green, due to ferrous ions.
Alum, blue in color, dazzling, like a gem. The shape is mostly block or granular, and the surface is shiny. The texture is hard and brittle, and it feels cool to the touch. Its taste is also astringent, and it is easily soluble in water. The resulting solution is blue, which is the characteristic color of copper ions.
Hao alum, white and transparent, like ice crystals, crystal clear. Fine texture, moderate relative density. Easily soluble in water, the dissolution process is relatively mild, and the aqueous solution is colorless and transparent. And Hao alum will gradually lose its crystal water under heating conditions, and its shape and properties will change.
Alum substances, each because of their unique physical properties, have wonderful uses in many fields. Or used in medicine, or applied to printing and dyeing, or used in metallurgy. Its different properties and wide range of uses are really treasures bestowed by nature. The ancients have long practiced and explored and well understood its properties before they could make the best use of it, adding color to life and production.
What are the chemical properties of 1-tert-butyl-3-nitro-4-chlorobenzene?
Fluoroacetonitrile is a highly toxic organic substance. It is highly toxic and can inhibit metabolism in living organisms, causing sudden death in humans and animals, which is very dangerous.
As for cyanuric acid, it is a white crystalline solid. Although slightly less toxic than fluoroacetonitrile, if it is accidentally involved, it can also damage the human body, especially the kidneys, or cause stones, affecting the function of the viscera.
Borax is mostly in the shape of colorless crystals. It has a wide range of industrial uses, but it is also toxic. If it enters the human body, it can accumulate too much, which can disturb the digestive system, cause nausea, vomiting, and even endanger life.
Heroin, a notorious drug. Its sexual addiction is very deep, once contaminated, both body and mind fall into the abyss. Those who taste it for the first time are easy to be captured by it, resulting in mental weakness and physical weakness. If you use it for a long time, your internal organs will be damaged, your immune system will collapse, and your life will be like a candle in the wind, and it will be precarious.
These things have different chemical properties, but they are all poisonous, or they will kill you for a moment, or they will damage your body invisibly. Therefore, people in the world should avoid them with caution, and do not use them near them, so as to protect their lives and protect themselves from their harm. In the field of chemical industry, practitioners must follow the rules and use them with strict caution, so as to prevent such poisons from escaping and endangering the public. How many can keep the world clean and the people's livelihood safe and sound.
As for cyanuric acid, it is a white crystalline solid. Although slightly less toxic than fluoroacetonitrile, if it is accidentally involved, it can also damage the human body, especially the kidneys, or cause stones, affecting the function of the viscera.
Borax is mostly in the shape of colorless crystals. It has a wide range of industrial uses, but it is also toxic. If it enters the human body, it can accumulate too much, which can disturb the digestive system, cause nausea, vomiting, and even endanger life.
Heroin, a notorious drug. Its sexual addiction is very deep, once contaminated, both body and mind fall into the abyss. Those who taste it for the first time are easy to be captured by it, resulting in mental weakness and physical weakness. If you use it for a long time, your internal organs will be damaged, your immune system will collapse, and your life will be like a candle in the wind, and it will be precarious.
These things have different chemical properties, but they are all poisonous, or they will kill you for a moment, or they will damage your body invisibly. Therefore, people in the world should avoid them with caution, and do not use them near them, so as to protect their lives and protect themselves from their harm. In the field of chemical industry, practitioners must follow the rules and use them with strict caution, so as to prevent such poisons from escaping and endangering the public. How many can keep the world clean and the people's livelihood safe and sound.
What is the synthesis method of 1-tert-butyl-3-nitro-4-chlorobenzene?
The synthesis of 1-furyl-3-pyridyl-4-bromothiophene involves many delicate chemical techniques and steps.
To synthesize this product, the following methods can be followed. First, choose a suitable starting material, which is the basis for synthesis. Among many optional raw materials, a specific compound containing furyl, pyridyl and bromine atoms is the first choice.
Then, select the suitable reaction conditions and reagents. Nucleophilic substitution can be used. In this reaction, the reaction temperature, time and proportion of reactants need to be precisely adjusted. For example, a furyl-containing compound and a pyridyl-containing reagent are mixed in an organic solvent according to a specific molar ratio, and the reaction is stirred at a moderate temperature. The choice of this organic solvent is very critical, such as dichloromethane, N, N-dimethylformamide, etc., need to be selected according to the reaction characteristics, to ensure the dissolution of the reactants and the smooth progress of the reaction.
Furthermore, the introduction of the bromothiophene part can be achieved by halogenation reaction. In this step, select high-efficiency halogenating reagents, such as copper bromide, N-bromosuccinimide, etc. Control the reaction conditions, such as reaction temperature, lighting conditions, etc., so that the bromine atom can be accurately connected to the target location.
During the synthesis process, attention needs to be paid to the monitoring and purification of the reaction. By means of analysis methods such as thin-layer chromatography and nuclear magnetic resonance spectroscopy, the reaction process can be monitored in real time to determine whether the reaction proceeds as expected. After the reaction is completed, impurities are removed by column chromatography, recrystallization and other purification methods to obtain high-purity 1-furyl-3-pyridyl-4-bromothiophene products.
This synthesis method requires fine operation and strict control of reaction conditions in order to effectively achieve the synthesis of the target product, laying a solid foundation for subsequent chemical research and application.
To synthesize this product, the following methods can be followed. First, choose a suitable starting material, which is the basis for synthesis. Among many optional raw materials, a specific compound containing furyl, pyridyl and bromine atoms is the first choice.
Then, select the suitable reaction conditions and reagents. Nucleophilic substitution can be used. In this reaction, the reaction temperature, time and proportion of reactants need to be precisely adjusted. For example, a furyl-containing compound and a pyridyl-containing reagent are mixed in an organic solvent according to a specific molar ratio, and the reaction is stirred at a moderate temperature. The choice of this organic solvent is very critical, such as dichloromethane, N, N-dimethylformamide, etc., need to be selected according to the reaction characteristics, to ensure the dissolution of the reactants and the smooth progress of the reaction.
Furthermore, the introduction of the bromothiophene part can be achieved by halogenation reaction. In this step, select high-efficiency halogenating reagents, such as copper bromide, N-bromosuccinimide, etc. Control the reaction conditions, such as reaction temperature, lighting conditions, etc., so that the bromine atom can be accurately connected to the target location.
During the synthesis process, attention needs to be paid to the monitoring and purification of the reaction. By means of analysis methods such as thin-layer chromatography and nuclear magnetic resonance spectroscopy, the reaction process can be monitored in real time to determine whether the reaction proceeds as expected. After the reaction is completed, impurities are removed by column chromatography, recrystallization and other purification methods to obtain high-purity 1-furyl-3-pyridyl-4-bromothiophene products.
This synthesis method requires fine operation and strict control of reaction conditions in order to effectively achieve the synthesis of the target product, laying a solid foundation for subsequent chemical research and application.
What are the precautions for storing and transporting 1-tert-butyl-3-nitro-4-chlorobenzene?
Borax, sodium tripolyphosphate, silicic acid and borosilicate, when storing and transporting, pay attention to many matters.
Borax is toxic. When storing, it should be placed in a cool, dry and well-ventilated place, away from fire and heat sources. It must be stored separately from acids, food chemicals, etc., and should not be mixed to prevent chemical reactions from causing harm. The handling process must be handled lightly to avoid leakage due to damage to the packaging. During transportation, it should also ensure that the container does not leak, collapse, fall, or damage, and to prevent exposure to sunlight, rain, and high temperature.
Sodium tripolyphosphate, although relatively weak in toxicity, still needs to be kept dry for storage because it is easy to absorb moisture and agglomerate. It should be stored in a clean, cool and dry warehouse to avoid moisture affecting its quality. When transporting, it is also necessary to pay attention to moisture-proof, ensure that the packaging is complete, and prevent damage during transportation bumps.
Silicic acid, usually relatively stable, should be stored in a cool and dry place to avoid contact with strong alkaline substances to prevent reactions. During transportation, it is necessary to prevent collisions, ensure that the packaging is not damaged, and prevent dust leakage.
Borosilicate materials, many of which have good chemical stability, should also be stored in a humid environment to prevent its surface from being eroded. Pay attention to protection during transportation to avoid violent vibration and collision causing it to break.
All these items, in storage and transportation management, must follow relevant safety norms and standards, and carefully control the storage environment and transportation conditions, so as to be safe, avoid disasters, and ensure the integrity of materials.
Borax is toxic. When storing, it should be placed in a cool, dry and well-ventilated place, away from fire and heat sources. It must be stored separately from acids, food chemicals, etc., and should not be mixed to prevent chemical reactions from causing harm. The handling process must be handled lightly to avoid leakage due to damage to the packaging. During transportation, it should also ensure that the container does not leak, collapse, fall, or damage, and to prevent exposure to sunlight, rain, and high temperature.
Sodium tripolyphosphate, although relatively weak in toxicity, still needs to be kept dry for storage because it is easy to absorb moisture and agglomerate. It should be stored in a clean, cool and dry warehouse to avoid moisture affecting its quality. When transporting, it is also necessary to pay attention to moisture-proof, ensure that the packaging is complete, and prevent damage during transportation bumps.
Silicic acid, usually relatively stable, should be stored in a cool and dry place to avoid contact with strong alkaline substances to prevent reactions. During transportation, it is necessary to prevent collisions, ensure that the packaging is not damaged, and prevent dust leakage.
Borosilicate materials, many of which have good chemical stability, should also be stored in a humid environment to prevent its surface from being eroded. Pay attention to protection during transportation to avoid violent vibration and collision causing it to break.
All these items, in storage and transportation management, must follow relevant safety norms and standards, and carefully control the storage environment and transportation conditions, so as to be safe, avoid disasters, and ensure the integrity of materials.
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