Linshang Chemical
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Benzene, 1,5-Dichloro-3-Fluoro-2-(4-Nitrophenoxy)- (9Ci)
Linshang Chemical
|
HS Code |
201133 |
| Chemical Formula | C12H6Cl2FNO4 |
As an accredited Benzene, 1,5-Dichloro-3-Fluoro-2-(4-Nitrophenoxy)- (9Ci) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 - gram bottle of 1,5 - dichloro - 3 - fluoro - 2-(4 - nitrophenoxy)benzene. |
| Storage | Store "Benzene, 1,5 - dichloro - 3 - fluoro - 2 - (4 - nitrophenoxy) - (9ci)" in a cool, dry, well - ventilated area away from heat, sparks, and open flames. Keep it in a tightly sealed container, preferably made of corrosion - resistant material. Separate from oxidizing agents, reducing agents, and reactive chemicals to prevent dangerous reactions. |
| Shipping | The chemical "Benzene, 1,5 - dichloro - 3 - fluoro - 2 - (4 - nitrophenoxy) - (9ci)" must be shipped in accordance with strict hazardous material regulations. Use appropriate, well - sealed containers to prevent leakage during transit. |
Competitive Benzene, 1,5-Dichloro-3-Fluoro-2-(4-Nitrophenoxy)- (9Ci) prices that fit your budget—flexible terms and customized quotes for every order.
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What is the chemical structure of this compound?
The chemical structure of a compound is of great importance in relation to its properties and functions. Let me tell you in detail how the structure of this compound is.
All compound structures are formed by atoms connected in a specific way. Atoms are connected by chemical bonds to form a unique structure. Either chain-like, ring-like, or complex three-dimensional configuration.
In this compound, the bonding between atoms is exquisite. Take covalent bonds as an example, which are formed by atoms sharing electron pairs, which are stable and directional. Different types of atoms have different electronegativity, resulting in covalent bonds having polarity, which affects the physical and chemical properties of compounds.
Looking at the spatial structure again, single bonds can be rotated to make molecules have different conformations; double bonds and triple bonds restrict rotation and give molecules a specific shape. And the arrangement of atomic space affects the intermolecular forces, such as van der Waals force, hydrogen bond, etc., which have a great impact on the melting point and solubility of compounds.
or functional groups exist in compounds. Functional groups are atomic groups with specific properties and determine the main chemical properties of compounds. Such as hydroxyl groups, carboxyl groups, amino groups, etc., each has unique reactivity.
To know the exact chemical structure of this compound, it is necessary to determine by various experimental means. Such as X-ray single crystal diffraction, which can accurately determine the three-dimensional coordinates of atoms; nuclear magnetic resonance, which can provide information on the chemical environment of atoms; infrared spectroscopy, which can identify the vibration frequency of functional groups.
Comprehensive experimental data can clearly describe the chemical structure of this compound, laying the foundation for in-depth study of its properties and applications.
All compound structures are formed by atoms connected in a specific way. Atoms are connected by chemical bonds to form a unique structure. Either chain-like, ring-like, or complex three-dimensional configuration.
In this compound, the bonding between atoms is exquisite. Take covalent bonds as an example, which are formed by atoms sharing electron pairs, which are stable and directional. Different types of atoms have different electronegativity, resulting in covalent bonds having polarity, which affects the physical and chemical properties of compounds.
Looking at the spatial structure again, single bonds can be rotated to make molecules have different conformations; double bonds and triple bonds restrict rotation and give molecules a specific shape. And the arrangement of atomic space affects the intermolecular forces, such as van der Waals force, hydrogen bond, etc., which have a great impact on the melting point and solubility of compounds.
or functional groups exist in compounds. Functional groups are atomic groups with specific properties and determine the main chemical properties of compounds. Such as hydroxyl groups, carboxyl groups, amino groups, etc., each has unique reactivity.
To know the exact chemical structure of this compound, it is necessary to determine by various experimental means. Such as X-ray single crystal diffraction, which can accurately determine the three-dimensional coordinates of atoms; nuclear magnetic resonance, which can provide information on the chemical environment of atoms; infrared spectroscopy, which can identify the vibration frequency of functional groups.
Comprehensive experimental data can clearly describe the chemical structure of this compound, laying the foundation for in-depth study of its properties and applications.
What are the physical properties of this compound?
The physical properties of this compound are as follows:
Its color is usually high, or its color is transparent, or it has a slight color, just like clear water, mixed in. Its shape, often crystal, crystal and orderly, in what shape, the crystal surface is flat and smooth, just like a natural carving. The feeling is hard, but it also has a certain degree of brittleness, so that it is slightly brittle.
Its melting is special, and under a specific degree, it begins to be solid and melt liquid. This melting phase is determined, which can be used as one of the important dependencies of this compound. And the melting process is smooth, which is a sudden phenomenon. The boiling temperature is also fixed, and when added to a certain degree, the liquid substance is strongly vaporized and reduced.
The density of this compound is uniform, and the density difference between different parts is negligible. When placed in water, according to its density, the water may sink or float, from which its density characteristics can be initially judged. Its solubility is also important, and it can be well dissolved in some solutions to form a uniform solution; in others, it dissolves and appears to float or sink.
Furthermore, its performance is also shown. In terms of performance, it can be reduced to a certain extent, but the rate and efficiency of the compound depend on the compound. As for the performance, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow.
Its color is usually high, or its color is transparent, or it has a slight color, just like clear water, mixed in. Its shape, often crystal, crystal and orderly, in what shape, the crystal surface is flat and smooth, just like a natural carving. The feeling is hard, but it also has a certain degree of brittleness, so that it is slightly brittle.
Its melting is special, and under a specific degree, it begins to be solid and melt liquid. This melting phase is determined, which can be used as one of the important dependencies of this compound. And the melting process is smooth, which is a sudden phenomenon. The boiling temperature is also fixed, and when added to a certain degree, the liquid substance is strongly vaporized and reduced.
The density of this compound is uniform, and the density difference between different parts is negligible. When placed in water, according to its density, the water may sink or float, from which its density characteristics can be initially judged. Its solubility is also important, and it can be well dissolved in some solutions to form a uniform solution; in others, it dissolves and appears to float or sink.
Furthermore, its performance is also shown. In terms of performance, it can be reduced to a certain extent, but the rate and efficiency of the compound depend on the compound. As for the performance, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow, or the ability to flow.
What are the chemical properties of this compound?
The chemical properties of this compound are as follows:
It is active and can react with many substances under normal temperature and pressure. In case of strong acid, it is like a warrior encountering an enemy, quickly fighting each other to form a new compound. And it is quite sensitive to heat. If it is heated too high, it is like dry wood in case of fire, easy to decompose and turn into other things. This decomposition process is often accompanied by the release of heat, or cause violent changes.
Furthermore, in an oxidizing environment, this compound is like a delicate flower in the rain, and it is easily oxidized. Its structure will change accordingly, and its chemical properties will also change accordingly. When it meets metal ions, it is like the mutual introduction of stars, and can form a coordination compound. This coordination substance has unique properties and is useful in many fields such as catalysis.
In organic solvents, its solubility varies. In some polar organic solvents, such as fish in water, it can be well dissolved and evenly dispersed; however, in non-polar solvents, it is like oil and water, which is difficult to blend.
Its reactivity is closely related to the molecular structure. The specific groups in the structure are like the teeth of the key, which determines the way and difficulty of reacting with others. The electron cloud distribution of the groups, like the force of a magnetic field, affects the reaction check point and reaction rate. Just like the art of war, the structure of each part cooperates with each other to deduce thousands of changes in the battlefield of chemical reactions. Therefore, to study the chemical properties of this compound, it is necessary to investigate its structure in detail and understand the influence of external conditions, so as to understand the mystery of its reaction and pave the way for practical application.
It is active and can react with many substances under normal temperature and pressure. In case of strong acid, it is like a warrior encountering an enemy, quickly fighting each other to form a new compound. And it is quite sensitive to heat. If it is heated too high, it is like dry wood in case of fire, easy to decompose and turn into other things. This decomposition process is often accompanied by the release of heat, or cause violent changes.
Furthermore, in an oxidizing environment, this compound is like a delicate flower in the rain, and it is easily oxidized. Its structure will change accordingly, and its chemical properties will also change accordingly. When it meets metal ions, it is like the mutual introduction of stars, and can form a coordination compound. This coordination substance has unique properties and is useful in many fields such as catalysis.
In organic solvents, its solubility varies. In some polar organic solvents, such as fish in water, it can be well dissolved and evenly dispersed; however, in non-polar solvents, it is like oil and water, which is difficult to blend.
Its reactivity is closely related to the molecular structure. The specific groups in the structure are like the teeth of the key, which determines the way and difficulty of reacting with others. The electron cloud distribution of the groups, like the force of a magnetic field, affects the reaction check point and reaction rate. Just like the art of war, the structure of each part cooperates with each other to deduce thousands of changes in the battlefield of chemical reactions. Therefore, to study the chemical properties of this compound, it is necessary to investigate its structure in detail and understand the influence of external conditions, so as to understand the mystery of its reaction and pave the way for practical application.
What fields is this compound used in?
This compound has a wide range of uses and applications in many fields.
In the field of medicine, it can be used as a key raw material for drug synthesis. Due to the specific chemical structure and properties of this compound, it can participate in the construction of many drug molecules. For example, in the synthesis of some antibacterial drugs, its unique functional groups can precisely react with other chemical substances and undergo a series of chemical transformations to generate antibacterial active pharmaceutical ingredients, providing effective drugs for the treatment of bacterial infections.
In the field of materials science, this compound also plays an important role. It can be used to prepare high-performance materials, such as special plastics. By reacting with other monomers, it can give plastics special properties, such as improving their heat resistance and corrosion resistance. In the aerospace field, the material performance requirements are extremely high. Such plastics modified by this compound can be used to make some parts inside the aircraft, reducing the weight of the aircraft while ensuring the strength and stability of the parts.
Furthermore, in the agricultural field, the compound can be used as a pesticide aid. It can enhance the adhesion and permeability of pesticides on the surface of plants, so that pesticides can cover plants more evenly, better exert their efficacy, improve the utilization rate of pesticides, reduce the amount of pesticides used, and is beneficial to environmental protection. At the same time, it helps to control crop diseases and insect pests and ensure agricultural production.
In the field of electronics industry, its application should not be underestimated. It can be used to make special coating materials for electronic components. This coating can improve the insulation and oxidation resistance of electronic components, prolong the service life of components, and ensure the stable operation of electronic equipment. For example, some electronic components on the main board of the computer, after being treated with the relevant coating of the compound, the performance is more stable, and the probability of computer crashes due to component failures is reduced.
In the field of medicine, it can be used as a key raw material for drug synthesis. Due to the specific chemical structure and properties of this compound, it can participate in the construction of many drug molecules. For example, in the synthesis of some antibacterial drugs, its unique functional groups can precisely react with other chemical substances and undergo a series of chemical transformations to generate antibacterial active pharmaceutical ingredients, providing effective drugs for the treatment of bacterial infections.
In the field of materials science, this compound also plays an important role. It can be used to prepare high-performance materials, such as special plastics. By reacting with other monomers, it can give plastics special properties, such as improving their heat resistance and corrosion resistance. In the aerospace field, the material performance requirements are extremely high. Such plastics modified by this compound can be used to make some parts inside the aircraft, reducing the weight of the aircraft while ensuring the strength and stability of the parts.
Furthermore, in the agricultural field, the compound can be used as a pesticide aid. It can enhance the adhesion and permeability of pesticides on the surface of plants, so that pesticides can cover plants more evenly, better exert their efficacy, improve the utilization rate of pesticides, reduce the amount of pesticides used, and is beneficial to environmental protection. At the same time, it helps to control crop diseases and insect pests and ensure agricultural production.
In the field of electronics industry, its application should not be underestimated. It can be used to make special coating materials for electronic components. This coating can improve the insulation and oxidation resistance of electronic components, prolong the service life of components, and ensure the stable operation of electronic equipment. For example, some electronic components on the main board of the computer, after being treated with the relevant coating of the compound, the performance is more stable, and the probability of computer crashes due to component failures is reduced.
What is the preparation method of this compound?
To make this compound, the method is as follows:
First take an appropriate amount of the A liquid and put it in the purifier. The A liquid is pure in texture and free of impurities. Heat it slowly over low heat, let it be slightly heated, wait for it to be slightly soft, and take advantage of the situation to grind it with a pestle and mortar to make it a delicate powder. This is the first step.
Then, take an appropriate amount of the B liquid and slowly pour it into the container containing the A powder. Be careful when tilting, and do not speed too fast to prevent spills. After the B liquid is injected, gently stir it with bamboo chopsticks to fully blend the two. When stirring, it can be seen that it gradually changes, with different colors and textures. At this time, when paying attention to its changing state, adjust the speed and intensity of stirring in a timely manner.
Take a few more pieces of propionite. This propionite needs to be selected, and the one with warm color and fine texture is better. Calcinate the propionite on the charcoal fire, wait for the whole body to be red, and put it into the above mixture while it is hot. In an instant, the smoke rises, and the smell is special. Quickly cover it, and do not let the smoke escape. After a while, wait for the smoke to rest, uncover and observe, and the contents have taken a different state.
Then, move the mixture to a cool and ventilated place, let it stand for a while, and let it cool naturally. After cooling, it can be seen that the surface has condensed and is slightly shiny. The desired compound can be obtained by carefully scraping with a knife. However, the quality of the finished product may be affected by many factors, such as the purity of the product A, the amount of liquid B, the pros and cons of the stone, the size of the heat, whether the mixing is uniform, and the length of standing time. Therefore, every time you make it, you need to pay careful attention and sum up experience to make the quality of the obtained compound better.
First take an appropriate amount of the A liquid and put it in the purifier. The A liquid is pure in texture and free of impurities. Heat it slowly over low heat, let it be slightly heated, wait for it to be slightly soft, and take advantage of the situation to grind it with a pestle and mortar to make it a delicate powder. This is the first step.
Then, take an appropriate amount of the B liquid and slowly pour it into the container containing the A powder. Be careful when tilting, and do not speed too fast to prevent spills. After the B liquid is injected, gently stir it with bamboo chopsticks to fully blend the two. When stirring, it can be seen that it gradually changes, with different colors and textures. At this time, when paying attention to its changing state, adjust the speed and intensity of stirring in a timely manner.
Take a few more pieces of propionite. This propionite needs to be selected, and the one with warm color and fine texture is better. Calcinate the propionite on the charcoal fire, wait for the whole body to be red, and put it into the above mixture while it is hot. In an instant, the smoke rises, and the smell is special. Quickly cover it, and do not let the smoke escape. After a while, wait for the smoke to rest, uncover and observe, and the contents have taken a different state.
Then, move the mixture to a cool and ventilated place, let it stand for a while, and let it cool naturally. After cooling, it can be seen that the surface has condensed and is slightly shiny. The desired compound can be obtained by carefully scraping with a knife. However, the quality of the finished product may be affected by many factors, such as the purity of the product A, the amount of liquid B, the pros and cons of the stone, the size of the heat, whether the mixing is uniform, and the length of standing time. Therefore, every time you make it, you need to pay careful attention and sum up experience to make the quality of the obtained compound better.
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