Linshang Chemical
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Benzene, 2-Chloro-4-Fluoro-1-Nitro-3-(Trifluoromethyl)-
Linshang Chemical
|
HS Code |
961253 |
| Chemical Formula | C7H2ClF4NO2 |
| Molar Mass | 243.54 g/mol |
| Appearance | Typically a solid, color may vary (usually off - white to pale yellow) |
| Boiling Point | Estimated to be relatively high due to molecular weight and polar groups |
| Melting Point | Specific value would need experimental determination but likely in the range of common aromatic nitro - halide compounds |
| Density | Calculated density based on structure would be in the range of related aromatic compounds with halogen and nitro groups |
| Solubility In Water | Low, as it is an aromatic compound with non - polar fluoromethyl and halide groups and a polar nitro group which doesn't confer high water solubility |
| Solubility In Organic Solvents | Soluble in common organic solvents like dichloromethane, chloroform, due to its non - polar aromatic nature |
| Vapor Pressure | Low at room temperature given its relatively high molecular weight and solid state |
| Stability | Stable under normal conditions but may react with strong reducing or oxidizing agents |
As an accredited Benzene, 2-Chloro-4-Fluoro-1-Nitro-3-(Trifluoromethyl)- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 - gram bottle of 2 - chloro - 4 - fluoro - 1 - nitro - 3 - (trifluoromethyl) benzene, tightly sealed. |
| Storage | Store “Benzene, 2 - chloro - 4 - fluoro - 1 - nitro - 3 - (trifluoromethyl)-” in a cool, well - ventilated area, away from heat, sparks, and open flames. Keep it in a tightly closed container made of compatible materials, like glass or certain plastics. Segregate from oxidizing agents, reducing agents, and other reactive substances to prevent potential reactions. |
| Shipping | "2 - Chloro - 4 - fluoro - 1 - nitro - 3 - (trifluoromethyl) benzene is a hazardous chemical. Shipping requires compliance with strict regulations, proper packaging to prevent leakage, and clear labeling for safe transportation." |
Competitive Benzene, 2-Chloro-4-Fluoro-1-Nitro-3-(Trifluoromethyl)- 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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What is the Chinese name of this compound?
The Chinese name of this compound depends on the formula, formula, or more of the compound. However, you did not provide the formula of this compound, so you can give its Chinese name.
"Tiangong Wuwu" is a scientific and technological masterpiece written by Xunxing in the Song Dynasty of the Ming Dynasty. There are many ancient Chinese processes of engineering and technology. If you want to express this in ancient Chinese, you can say: "If you don't know the feelings of this compound, how can you know its name? You need to get the formula, formula, etc. of the compound before you can give its name."
When you name a thing, you must investigate its root, and investigate its shape, nature, and quality. " In the "Heavenly Works", there are also many names of various things, all of which are determined according to their location, use, shape, etc. Such as smelting tools, which are named for their shape and function; such things are named for their raw materials and methods. However, this compound has not been established, and its name has been determined. If the complete knowledge of this compound, such as chemical formula, molecular formula, specific characteristics, and source uses, can be determined according to the method of naming in China, or according to its chemical elements, or its physical characteristics, or its use and function, and its appropriate name can be determined.
"Tiangong Wuwu" is a scientific and technological masterpiece written by Xunxing in the Song Dynasty of the Ming Dynasty. There are many ancient Chinese processes of engineering and technology. If you want to express this in ancient Chinese, you can say: "If you don't know the feelings of this compound, how can you know its name? You need to get the formula, formula, etc. of the compound before you can give its name."
When you name a thing, you must investigate its root, and investigate its shape, nature, and quality. " In the "Heavenly Works", there are also many names of various things, all of which are determined according to their location, use, shape, etc. Such as smelting tools, which are named for their shape and function; such things are named for their raw materials and methods. However, this compound has not been established, and its name has been determined. If the complete knowledge of this compound, such as chemical formula, molecular formula, specific characteristics, and source uses, can be determined according to the method of naming in China, or according to its chemical elements, or its physical characteristics, or its use and function, and its appropriate name can be determined.
What are the physical properties of this compound?
This compound has many physical properties. In terms of its color state, it often shows a specific color and state, or it is a crystal clear solid, just like ice crystals; or it is a clear and transparent liquid, just like a babbling flowing spring.
Looking at its melting point, it has a specific melting point due to the force between molecules. When heated, it needs to reach a certain temperature to melt from a solid state to a liquid state, which is the melting point; if it continues to be heated, it will vaporize from a liquid state to a gaseous state at a specific temperature, which is the boiling point.
Solubility is also an important property. In different solvents, its solubility varies. In water, it may be soluble, interact with water molecules, and disperse uniformly; or insoluble, form a suspended or layered state in water. In organic solvents, depending on the nature of the solvent and the structure of the compound itself, there are different dissolution conditions.
The density is related to the relationship between its mass and volume. Or heavier than water, put it into the water and sink to the bottom; or lighter than water, float on the water surface, like a boat.
In addition, the compound may have a specific odor, or be elegant and pleasant, like the fragrance of blooming flowers in spring; or pungent and unpleasant, like the stench of rancid things. Its hardness is also different, or its texture is hard, like a rock, which can withstand large external forces without damage; or its texture is soft and easy to deform like a wool. All kinds of physical properties are determined by the internal structure and molecular interactions of compounds.
Looking at its melting point, it has a specific melting point due to the force between molecules. When heated, it needs to reach a certain temperature to melt from a solid state to a liquid state, which is the melting point; if it continues to be heated, it will vaporize from a liquid state to a gaseous state at a specific temperature, which is the boiling point.
Solubility is also an important property. In different solvents, its solubility varies. In water, it may be soluble, interact with water molecules, and disperse uniformly; or insoluble, form a suspended or layered state in water. In organic solvents, depending on the nature of the solvent and the structure of the compound itself, there are different dissolution conditions.
The density is related to the relationship between its mass and volume. Or heavier than water, put it into the water and sink to the bottom; or lighter than water, float on the water surface, like a boat.
In addition, the compound may have a specific odor, or be elegant and pleasant, like the fragrance of blooming flowers in spring; or pungent and unpleasant, like the stench of rancid things. Its hardness is also different, or its texture is hard, like a rock, which can withstand large external forces without damage; or its texture is soft and easy to deform like a wool. All kinds of physical properties are determined by the internal structure and molecular interactions of compounds.
What are the chemical properties of this compound?
The chemical properties of a chemical compound are related to the characteristics, conditions and changes of its reaction with other substances. If this compound is a metal salt, it can react with active metals in solution. If iron encounters a copper sulfate solution, the surface of the iron will precipitate copper, and the color of the solution will become lighter. Because iron is more active than copper, it can replace copper from its salt solution. This is a typical redox reaction.
If it is an acid compound, it is acidic and can be neutralized with bases. Take the reaction of hydrochloric acid and sodium hydroxide as an example. The two are mixed to quickly react with sodium chloride and water. There is no obvious appearance change in this process, but the temperature of the solution rises, and the neutralization reaction exotherms. And the acid can react with active metals to generate hydrogen gas. For example, zinc reacts with dilute sulfuric acid, and bubbles emerge. It is because zinc is oxidized by hydrogen ions in the acid, and the electrons of hydrogen ions form hydrogen and escape.
If it is a base, in addition to neutralizing with acids, it can also react with certain salts. If sodium hydroxide reacts with copper sulfate, a blue copper hydroxide precipitate will be formed. This is the combination of hydroxide ions and copper ions to form insoluble substances.
The chemical properties of organic compounds are more complicated. Take ethanol as an example, it is flammable and ignited in the air to generate carbon dioxide and water, which can be used as fuel. And it can undergo esterification reaction. Under the condition of catalyzing and heating with concentrated sulfuric acid, ethyl acetate and water are produced with acetic acid. This reaction is often used to prepare ester fragrances.
If it is an oxide, a metal oxide or alkaline, it can react with acids; a non-metallic oxide or acidic, it can react with bases. For example, calcium oxide reacts with hydrochloric acid to produce calcium chloride and water; carbon dioxide passes into a sodium hydroxide solution, Mr. Sodium carbonate, and excess carbon dioxide produces sodium bicarbonate. In short, the compounds vary according to their composition and structure, and can be investigated through experiments.
If it is an acid compound, it is acidic and can be neutralized with bases. Take the reaction of hydrochloric acid and sodium hydroxide as an example. The two are mixed to quickly react with sodium chloride and water. There is no obvious appearance change in this process, but the temperature of the solution rises, and the neutralization reaction exotherms. And the acid can react with active metals to generate hydrogen gas. For example, zinc reacts with dilute sulfuric acid, and bubbles emerge. It is because zinc is oxidized by hydrogen ions in the acid, and the electrons of hydrogen ions form hydrogen and escape.
If it is a base, in addition to neutralizing with acids, it can also react with certain salts. If sodium hydroxide reacts with copper sulfate, a blue copper hydroxide precipitate will be formed. This is the combination of hydroxide ions and copper ions to form insoluble substances.
The chemical properties of organic compounds are more complicated. Take ethanol as an example, it is flammable and ignited in the air to generate carbon dioxide and water, which can be used as fuel. And it can undergo esterification reaction. Under the condition of catalyzing and heating with concentrated sulfuric acid, ethyl acetate and water are produced with acetic acid. This reaction is often used to prepare ester fragrances.
If it is an oxide, a metal oxide or alkaline, it can react with acids; a non-metallic oxide or acidic, it can react with bases. For example, calcium oxide reacts with hydrochloric acid to produce calcium chloride and water; carbon dioxide passes into a sodium hydroxide solution, Mr. Sodium carbonate, and excess carbon dioxide produces sodium bicarbonate. In short, the compounds vary according to their composition and structure, and can be investigated through experiments.
What are the common uses of this compound?
There are many ways to use this combination. Looking at the "Tiangong Kaiwu", what is recorded in it can be understood in detail.
The genus of metal fusion, such as when casting a sword, iron is used to combine other things to adjust its hardness and toughness. In the land of Wuyue in the past, famous swordsmiths skillfully combined iron and charcoal to make the blade sharp and the sword body tough, which can cut gold and jade, which is very useful in war and decoration.
Ceramic firing is also related to fusion. Various objects in the soil are mixed and combined to form pottery and porcelain of different qualities. Kaolin and other raw materials, tempered by kiln fire, under the chemical reaction, the porcelain is delicate and white, or has exquisite decoration, which is treasured by the world, and shows its strength in daily use and furnishings.
The production of pigments also depends on chemical synthesis. With natural things, through the method of chemical synthesis, it becomes a gorgeous color. Such as the color of Dan Qing, which is synthesized from cinnabar, painted on silk and walls, and does not fade for thousands of years, adding a lot of color to calligraphy and painting and murals.
The system of gunpowder is even more wonderful. Saltpeter, sulfur, and charcoal are combined in a certain proportion to form a powerful thing. In war, you can conquer the city; in festivals, fireworks are splendid and entertain the eyes and ears.
The method of making salt also includes the principle of chemical synthesis. Seawater, brine, etc., through evaporation, purification and other processes, the salt is combined and crystallized into edible salt, which is indispensable for dietary seasoning.
All these are found in chemical compounds, which have irreplaceable uses in daily use, craftsmanship, warfare and other fields, bringing many conveniences and wonders to the world.
The genus of metal fusion, such as when casting a sword, iron is used to combine other things to adjust its hardness and toughness. In the land of Wuyue in the past, famous swordsmiths skillfully combined iron and charcoal to make the blade sharp and the sword body tough, which can cut gold and jade, which is very useful in war and decoration.
Ceramic firing is also related to fusion. Various objects in the soil are mixed and combined to form pottery and porcelain of different qualities. Kaolin and other raw materials, tempered by kiln fire, under the chemical reaction, the porcelain is delicate and white, or has exquisite decoration, which is treasured by the world, and shows its strength in daily use and furnishings.
The production of pigments also depends on chemical synthesis. With natural things, through the method of chemical synthesis, it becomes a gorgeous color. Such as the color of Dan Qing, which is synthesized from cinnabar, painted on silk and walls, and does not fade for thousands of years, adding a lot of color to calligraphy and painting and murals.
The system of gunpowder is even more wonderful. Saltpeter, sulfur, and charcoal are combined in a certain proportion to form a powerful thing. In war, you can conquer the city; in festivals, fireworks are splendid and entertain the eyes and ears.
The method of making salt also includes the principle of chemical synthesis. Seawater, brine, etc., through evaporation, purification and other processes, the salt is combined and crystallized into edible salt, which is indispensable for dietary seasoning.
All these are found in chemical compounds, which have irreplaceable uses in daily use, craftsmanship, warfare and other fields, bringing many conveniences and wonders to the world.
What are the methods for synthesizing this compound?
To make this thing, there are many methods, as detailed below.
First, you can extract the essence from natural things. All things in the world, each containing wonderful qualities, between mountains, rivers and forests, looking for related things. For example, in a valley, there is a spiritual grass, which is similar in nature to the compound you want to make. If you collect it, you can soak it in water, boil it over fire, etc., get rid of the dross, take its essence, and repeatedly refine it, or you can get it.
Second, by the method of artificial synthesis. Know the composition of this compound in advance, and know the arrangement of elements and atoms it contains. Choose suitable raw materials, such as common gold stones, grass and trees as the basis. Use the cauldron as a tool, and put in the raw materials in a certain order. For example, cast a certain stone first, calcine it for a few hours, wait for it to turn into a liquid, then add the juice of a certain grass, and stir well. During this time, the control of the heat is very important. If the fire is fierce, the material will be easy to burn and destroy, and if the fire is weak, the reaction will be slow. It is necessary to observe with experience, and add firewood and reduce the fire in a timely manner to make the reaction smooth. After many reconciliations and reactions, it may be able to form this compound.
Third, other substances can be used to catalyze the transformation. Find a medium that can quickly transform the related substance into the desired compound. If a strange substance is found and placed among the raw materials, it can trigger a chain change and accelerate the synthesis process. However, this medium is difficult to find, or hidden in the abyss of the deep sea, or hidden in the secret caves of ancient caves, so you need to work tirelessly to explore it everywhere. When you get this thing, use it reasonably, and it is also a good way to synthesize it.
The method of making this thing, or natural extraction, or artificial synthesis, or borrowing catalysis, each has its own strengths, and it needs to be considered in detail according to the actual situation, and the best method can be selected.
First, you can extract the essence from natural things. All things in the world, each containing wonderful qualities, between mountains, rivers and forests, looking for related things. For example, in a valley, there is a spiritual grass, which is similar in nature to the compound you want to make. If you collect it, you can soak it in water, boil it over fire, etc., get rid of the dross, take its essence, and repeatedly refine it, or you can get it.
Second, by the method of artificial synthesis. Know the composition of this compound in advance, and know the arrangement of elements and atoms it contains. Choose suitable raw materials, such as common gold stones, grass and trees as the basis. Use the cauldron as a tool, and put in the raw materials in a certain order. For example, cast a certain stone first, calcine it for a few hours, wait for it to turn into a liquid, then add the juice of a certain grass, and stir well. During this time, the control of the heat is very important. If the fire is fierce, the material will be easy to burn and destroy, and if the fire is weak, the reaction will be slow. It is necessary to observe with experience, and add firewood and reduce the fire in a timely manner to make the reaction smooth. After many reconciliations and reactions, it may be able to form this compound.
Third, other substances can be used to catalyze the transformation. Find a medium that can quickly transform the related substance into the desired compound. If a strange substance is found and placed among the raw materials, it can trigger a chain change and accelerate the synthesis process. However, this medium is difficult to find, or hidden in the abyss of the deep sea, or hidden in the secret caves of ancient caves, so you need to work tirelessly to explore it everywhere. When you get this thing, use it reasonably, and it is also a good way to synthesize it.
The method of making this thing, or natural extraction, or artificial synthesis, or borrowing catalysis, each has its own strengths, and it needs to be considered in detail according to the actual situation, and the best method can be selected.
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