Linshang Chemical
PRODUCTS
2,4-,5-Trichloro-5-Nitro Benzene
Linshang Chemical
|
HS Code |
472983 |
| Chemical Formula | C6H2Cl3NO2 |
| Molar Mass | 226.44 g/mol |
| Appearance | Solid |
| Color | Typically pale - colored |
| Odor | Characteristic chemical odor |
| Solubility In Water | Low solubility |
| Solubility In Organic Solvents | Soluble in some organic solvents like chloroform, benzene |
| Melting Point | Data - specific value needed |
| Boiling Point | Data - specific value needed |
| Density | Data - specific value needed |
| Vapor Pressure | Low vapor pressure |
| Stability | Stable under normal conditions but reactive with strong oxidizing agents |
As an accredited 2,4-,5-Trichloro-5-Nitro Benzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500 - gram bottle packaging for 2,4,5 - trichloro - 5 - nitro benzene chemical. |
| Storage | 2,4,5 - trichloro - 5 - nitro benzene should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in a tightly sealed container, preferably made of corrosion - resistant materials. Label the storage clearly to prevent misidentification and ensure compliance with safety regulations. |
| Shipping | 2,4,5 - trichloro - 5 - nitro benzene is a chemical. Shipping should be in accordance with hazardous material regulations. Use proper packaging to prevent leakage, and label clearly. Ensure carriers are trained for handling such chemicals. |
Competitive 2,4-,5-Trichloro-5-Nitro Benzene 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 2,4-,5-Trichloro-5-Nitro Benzene in China?
As a trusted 2,4-,5-Trichloro-5-Nitro Benzene 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 2,4-,5-Trichloro-5-Nitro Benzene 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 2,4,5-trichloro-5-nitrobenzene?
2% 2C4% 2C5-trichloro-5-cyanopyridine, this compound is an important compound in the field of chemistry. Its physical properties are unique, let me tell you in detail.
Looking at its morphology, under room temperature and pressure, 2% 2C4% 2C5-trichloro-5-cyanopyridine is mostly white to light yellow crystalline powder. This morphological feature is easy to identify and operate, and provides intuitive judgment basis for relevant practitioners in many processes such as chemical production.
When it comes to melting point, the melting point of this compound is quite high, usually within a certain range. A higher melting point indicates that its intermolecular force is strong and its structure is relatively stable. This property is of great significance in application scenarios such as material preparation, which can ensure that the material maintains its inherent morphology and properties under a specific temperature environment.
On solubility again, 2% 2C4% 2C5-trichloro-5-cyanopyridine exhibits a certain solubility in organic solvents. For example, in some common organic solvents, it can be partially dissolved to form a uniform dispersion system. In water, its solubility is poor. This difference in solubility provides the basis for its separation, purification and selection of conditions for participating in chemical reactions. In industrial production, according to its solubility characteristics, the separation process can be precisely designed to obtain high-purity products.
In addition, the density of 2% 2C4% 2C5-trichloro-5-cyanopyridine also has a specific value. Density, as one of the basic physical properties of a substance, has a significant impact on storage and transportation. Knowing its density, the specifications of the storage container can be reasonably planned, and the transportation plan can be optimized to ensure the safety and efficiency of the transportation process.
All in all, the physical properties such as the morphology, melting point, solubility and density of 2% 2C4% 2C5-trichloro-5-cyanopyridine are of great value for in-depth exploration of its chemical behavior, development of related applications, and ensuring the safety of production and use processes.
Looking at its morphology, under room temperature and pressure, 2% 2C4% 2C5-trichloro-5-cyanopyridine is mostly white to light yellow crystalline powder. This morphological feature is easy to identify and operate, and provides intuitive judgment basis for relevant practitioners in many processes such as chemical production.
When it comes to melting point, the melting point of this compound is quite high, usually within a certain range. A higher melting point indicates that its intermolecular force is strong and its structure is relatively stable. This property is of great significance in application scenarios such as material preparation, which can ensure that the material maintains its inherent morphology and properties under a specific temperature environment.
On solubility again, 2% 2C4% 2C5-trichloro-5-cyanopyridine exhibits a certain solubility in organic solvents. For example, in some common organic solvents, it can be partially dissolved to form a uniform dispersion system. In water, its solubility is poor. This difference in solubility provides the basis for its separation, purification and selection of conditions for participating in chemical reactions. In industrial production, according to its solubility characteristics, the separation process can be precisely designed to obtain high-purity products.
In addition, the density of 2% 2C4% 2C5-trichloro-5-cyanopyridine also has a specific value. Density, as one of the basic physical properties of a substance, has a significant impact on storage and transportation. Knowing its density, the specifications of the storage container can be reasonably planned, and the transportation plan can be optimized to ensure the safety and efficiency of the transportation process.
All in all, the physical properties such as the morphology, melting point, solubility and density of 2% 2C4% 2C5-trichloro-5-cyanopyridine are of great value for in-depth exploration of its chemical behavior, development of related applications, and ensuring the safety of production and use processes.
What are the chemical properties of 2,4,5-trichloro-5-nitrobenzene
2% 2C4% 2C5-trifluoro-5-cyanopyridine is a key raw material in organic synthesis. Its chemical properties are unique and diverse.
In this compound, the introduction of fluorine atoms greatly changes the electron cloud distribution and spatial structure of the molecule. Fluorine atoms have high electronegativity, which will reduce the electron cloud density of the carbon atoms connected to them, making this part more electron-absorbing. This property makes 2% 2C4% 2C5-trifluoro-5-cyanopyridine more vulnerable to attack by nucleophiles in nucleophilic substitution reactions. Nucleophiles can use their electron-rich parts to attack carbon atoms that are positively charged because fluorine atoms absorb electrons, and then perform substitution reactions to generate new organic compounds.
Cyanyl (-CN) is also an important chemical group of 2% 2C4% 2C5-trifluoro-5-cyanopyridine. Cyanyl groups have multiple reactivity. On the one hand, it can undergo hydrolysis reaction under specific conditions, and the cyanyl group will be gradually converted into carboxyl groups (-COOH). This reaction is often used in organic synthesis to construct compounds containing carboxyl groups, which are common functional groups in many drugs and bioactive molecules. On the other hand, cyanyl groups can also participate in nucleophilic addition reactions, such as addition with compounds containing active hydrogen, such as alcohols and amines, to form derivatives such as amides and imide esters, which greatly expands the application scope of this compound in the field of organic synthesis.
2% 2C4% 2C5-trifluoro-5-cyanopyridine The pyridine ring structure imparts its aromaticity and makes its chemical properties relatively stable. However, the nitrogen atom on the pyridine ring has lone pairs of electrons and can interact with protons or metal ions to form coordination compounds. This property has applications in the field of catalysis. It can be used as a ligand to combine with metal catalysts to adjust the activity and selectivity of catalysts and promote the efficient progress of specific organic reactions.
2% 2C4% 2C5-trifluoro-5-cyanopyridine exhibits rich chemical properties due to the synergistic action of fluorine atoms, cyano groups and pyridine rings, and has important application values in organic synthesis, medicinal chemistry and other fields.
In this compound, the introduction of fluorine atoms greatly changes the electron cloud distribution and spatial structure of the molecule. Fluorine atoms have high electronegativity, which will reduce the electron cloud density of the carbon atoms connected to them, making this part more electron-absorbing. This property makes 2% 2C4% 2C5-trifluoro-5-cyanopyridine more vulnerable to attack by nucleophiles in nucleophilic substitution reactions. Nucleophiles can use their electron-rich parts to attack carbon atoms that are positively charged because fluorine atoms absorb electrons, and then perform substitution reactions to generate new organic compounds.
Cyanyl (-CN) is also an important chemical group of 2% 2C4% 2C5-trifluoro-5-cyanopyridine. Cyanyl groups have multiple reactivity. On the one hand, it can undergo hydrolysis reaction under specific conditions, and the cyanyl group will be gradually converted into carboxyl groups (-COOH). This reaction is often used in organic synthesis to construct compounds containing carboxyl groups, which are common functional groups in many drugs and bioactive molecules. On the other hand, cyanyl groups can also participate in nucleophilic addition reactions, such as addition with compounds containing active hydrogen, such as alcohols and amines, to form derivatives such as amides and imide esters, which greatly expands the application scope of this compound in the field of organic synthesis.
2% 2C4% 2C5-trifluoro-5-cyanopyridine The pyridine ring structure imparts its aromaticity and makes its chemical properties relatively stable. However, the nitrogen atom on the pyridine ring has lone pairs of electrons and can interact with protons or metal ions to form coordination compounds. This property has applications in the field of catalysis. It can be used as a ligand to combine with metal catalysts to adjust the activity and selectivity of catalysts and promote the efficient progress of specific organic reactions.
2% 2C4% 2C5-trifluoro-5-cyanopyridine exhibits rich chemical properties due to the synergistic action of fluorine atoms, cyano groups and pyridine rings, and has important application values in organic synthesis, medicinal chemistry and other fields.
What are the main uses of 2,4,5-trichloro-5-nitrobenzene?
2% 2C4% 2C5-tribromo-5-cyanopyridine is a crucial raw material in organic synthesis and has a wide range of uses in many fields. It is described as follows:
First, in the field of medicinal chemistry, this compound is a key intermediate. The special structure of the genopyridine ring and the cyano group gives it unique chemical and biological activities. It can be converted into drug molecules with specific pharmacological activities through a series of chemical reactions. For example, in the synthesis of some antibacterial drugs and anticancer drugs, 2% 2C4% 2C5-tribromo-5-cyanopyridine acts as an intermediate link, which is very effective in building the core skeleton of drug molecules. By modifying and modifying its structure, new drugs with better curative effect and less side effects can be developed.
Second, it also has important applications in the field of materials science. Because cyano can participate in a variety of polymerization reactions, 2% 2C4% 2C5-tribromo-5-cyanopyridine can be used as a functional monomer to prepare polymer materials with special properties. For example, the preparation of conjugated polymers with good photoelectric properties has shown great application potential in the fields of organic Light Emitting Diodes (OLEDs), solar cells and other optoelectronic devices, which can improve the performance and efficiency of optoelectronic devices.
Third, in the field of organic synthetic chemistry, 2% 2C4% 2C5 -tribromo-5 -cyanopyridine is a multifunctional synthetic building block. With its multiple reactive activity check points, different functional groups can be introduced through nucleophilic substitution, coupling and other reactions to construct complex and diverse organic compounds, providing rich choices for organic synthetic chemists to explore the synthesis path of new compounds and promoting the development and innovation of organic synthetic chemistry.
In conclusion, 2% 2C4% 2C5-tribromo-5-cyanopyridine, with its unique structure and chemical properties, plays an indispensable role in many fields such as drug research and development, material preparation, and organic synthesis. It is of great significance to promote technological progress and industrial development in related fields.
First, in the field of medicinal chemistry, this compound is a key intermediate. The special structure of the genopyridine ring and the cyano group gives it unique chemical and biological activities. It can be converted into drug molecules with specific pharmacological activities through a series of chemical reactions. For example, in the synthesis of some antibacterial drugs and anticancer drugs, 2% 2C4% 2C5-tribromo-5-cyanopyridine acts as an intermediate link, which is very effective in building the core skeleton of drug molecules. By modifying and modifying its structure, new drugs with better curative effect and less side effects can be developed.
Second, it also has important applications in the field of materials science. Because cyano can participate in a variety of polymerization reactions, 2% 2C4% 2C5-tribromo-5-cyanopyridine can be used as a functional monomer to prepare polymer materials with special properties. For example, the preparation of conjugated polymers with good photoelectric properties has shown great application potential in the fields of organic Light Emitting Diodes (OLEDs), solar cells and other optoelectronic devices, which can improve the performance and efficiency of optoelectronic devices.
Third, in the field of organic synthetic chemistry, 2% 2C4% 2C5 -tribromo-5 -cyanopyridine is a multifunctional synthetic building block. With its multiple reactive activity check points, different functional groups can be introduced through nucleophilic substitution, coupling and other reactions to construct complex and diverse organic compounds, providing rich choices for organic synthetic chemists to explore the synthesis path of new compounds and promoting the development and innovation of organic synthetic chemistry.
In conclusion, 2% 2C4% 2C5-tribromo-5-cyanopyridine, with its unique structure and chemical properties, plays an indispensable role in many fields such as drug research and development, material preparation, and organic synthesis. It is of great significance to promote technological progress and industrial development in related fields.
What is the preparation method of 2,4,5-trichloro-5-nitrobenzene
The preparation method of 2% 2C4% 2C5-trichloro-5-carbonyl indole is described in the ancient saying as follows:
To make 2,4,5-trichloro-5-carbonyl indole, you need to follow a specific method. Take the right raw material first. The choice of this raw material is a matter of success or failure. When carefully selected, there should be no mistakes. With caution, place the selected raw material in a clean vessel. This vessel should also be suitable, so that impurities do not mix in and ruin the reaction.
Then, add an appropriate amount of reagent to the vessel. The amount of reagent must be accurate. If it is too much or too little, it can cause the reaction to fail to meet expectations. The temperature is the key to the reaction. Either slow heating or sudden heating depends on the needs of the reaction. During the process, you need to keep your eyes on it, observe its changes, and observe the differences in color and shape. If there is any accident, deal with it immediately.
When reacting, you should also pay attention to the length of time. If it is too long, it will be too long, and if it is too short, the reaction will not be completed. When the reaction reaches the right moment, separate the product according to a specific method. Separation techniques, or filtration, or extraction, each has its own suitability, and choose the right one. After separation, purify it to remove impurities and obtain pure 2,4,5-trichloro-5-carbonyl indole. This step, interlocking, can not tolerate the slightest negligence, in order to produce a good product.
To make 2,4,5-trichloro-5-carbonyl indole, you need to follow a specific method. Take the right raw material first. The choice of this raw material is a matter of success or failure. When carefully selected, there should be no mistakes. With caution, place the selected raw material in a clean vessel. This vessel should also be suitable, so that impurities do not mix in and ruin the reaction.
Then, add an appropriate amount of reagent to the vessel. The amount of reagent must be accurate. If it is too much or too little, it can cause the reaction to fail to meet expectations. The temperature is the key to the reaction. Either slow heating or sudden heating depends on the needs of the reaction. During the process, you need to keep your eyes on it, observe its changes, and observe the differences in color and shape. If there is any accident, deal with it immediately.
When reacting, you should also pay attention to the length of time. If it is too long, it will be too long, and if it is too short, the reaction will not be completed. When the reaction reaches the right moment, separate the product according to a specific method. Separation techniques, or filtration, or extraction, each has its own suitability, and choose the right one. After separation, purify it to remove impurities and obtain pure 2,4,5-trichloro-5-carbonyl indole. This step, interlocking, can not tolerate the slightest negligence, in order to produce a good product.
What are the environmental effects of 2,4,5-trichloro-5-nitrobenzene?
2% 2C4% 2C5-trifluoro-5-cyanopyridine, which has many effects on the environment.
Its chemical properties are active, difficult to degrade in the environment, and will persist for a long time. Once released into natural water bodies, it will cause water pollution, and aquatic organisms will bear the brunt. After fish are exposed, they may cause physiological disorders, affect reproduction and growth, and even die; plankton are sensitive to it, and changes in quantity will destroy the foundation of the aquatic ecological food chain, triggering an ecological chain reaction.
If it enters the soil, it will change the soil chemical properties, affect the structure and function of soil microbial communities, hinder the absorption of nutrients by plant roots, cause plant growth inhibition, stunting, and then affect the productivity and stability of terrestrial ecosystems.
Its volatilization into the atmosphere will participate in photochemical reactions, produce secondary pollutants, aggravate air pollution, endanger human health, cause respiratory diseases, irritate eyes, etc.
And such fluorine and cyanyl compounds, some of which are bioaccumulative, pass through the food chain, and continue to accumulate in organisms. Humans at the top of the food chain ingest organisms containing high concentrations of pollutants, which increases health risks, or has potential carcinogenic, teratogenic and mutagenic effects. Therefore, the production, use and emission of 2% 2C4% 2C5-trifluoro-5-cyanopyridine need to be strictly controlled to reduce its negative impact on the environment and protect the ecological environment and human health.
Its chemical properties are active, difficult to degrade in the environment, and will persist for a long time. Once released into natural water bodies, it will cause water pollution, and aquatic organisms will bear the brunt. After fish are exposed, they may cause physiological disorders, affect reproduction and growth, and even die; plankton are sensitive to it, and changes in quantity will destroy the foundation of the aquatic ecological food chain, triggering an ecological chain reaction.
If it enters the soil, it will change the soil chemical properties, affect the structure and function of soil microbial communities, hinder the absorption of nutrients by plant roots, cause plant growth inhibition, stunting, and then affect the productivity and stability of terrestrial ecosystems.
Its volatilization into the atmosphere will participate in photochemical reactions, produce secondary pollutants, aggravate air pollution, endanger human health, cause respiratory diseases, irritate eyes, etc.
And such fluorine and cyanyl compounds, some of which are bioaccumulative, pass through the food chain, and continue to accumulate in organisms. Humans at the top of the food chain ingest organisms containing high concentrations of pollutants, which increases health risks, or has potential carcinogenic, teratogenic and mutagenic effects. Therefore, the production, use and emission of 2% 2C4% 2C5-trifluoro-5-cyanopyridine need to be strictly controlled to reduce its negative impact on the environment and protect the ecological environment and human health.
Scan to WhatsApp
