Linshang Chemical
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Benzene, 3-(Chloromethyl)-1,2,4,5-Tetrafluoro- (9Ci)
Linshang Chemical
|
HS Code |
783423 |
| Chemical Formula | C7H2ClF4 |
| Molar Mass | 200.54 g/mol |
| Solubility In Water | Low, as it is an organic halogen - fluorine compound |
| Solubility In Organic Solvents | Soluble in common organic solvents like dichloromethane, chloroform |
As an accredited Benzene, 3-(Chloromethyl)-1,2,4,5-Tetrafluoro- (9Ci) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of 3-(chloromethyl)-1,2,4,5 - tetrafluorobenzene in a sealed chemical - grade bottle. |
| Storage | Store "Benzene, 3-(chloromethyl)-1,2,4,5 - tetrafluoro - (9ci)" in a cool, dry, well - ventilated area. Keep it away from heat sources, ignition sources, and oxidizing agents. Store in a tightly - sealed container made of compatible materials like corrosion - resistant metal or certain plastics to prevent leakage and maintain its chemical integrity. |
| Shipping | The chemical "Benzene, 3-(chloromethyl)-1,2,4,5 - tetrafluoro - (9ci)" must be shipped in accordance with strict hazardous materials regulations. It should be in properly sealed, corrosion - resistant containers, clearly labeled, and transported by approved carriers. |
Competitive Benzene, 3-(Chloromethyl)-1,2,4,5-Tetrafluoro- (9Ci) 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
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What are the chemical properties of this substance?
The chemical properties of this substance are the characteristics presented by the chemical changes of the substance. Although the "Tiangong Kaiwu" does not describe the chemical properties of specific substances in detail in modern chemical terms, many of the records in it can infer the understanding and application of the chemical properties of substances at that time.
As far as metals are concerned, the book contains the smelting of metals such as copper, iron, and zinc. Taking iron as an example, the ancients knew that iron is easy to react with oxygen and water vapor in the air and rust, which is an important chemical property of iron. "Tiangong Kaiwu" records that charcoal is used as fuel during iron smelting, and charcoal is burned to generate carbon monoxide. Carbon monoxide is reductive and can reduce iron oxides in iron ores to iron. This is an example of using the chemical properties of carbon monoxide.
For non-metals, such as sulfur, the book mentions that it is used in gunpowder production. Sulfur is flammable. It reacts violently with oxygen under certain conditions, releasing a large amount of heat and gas. This chemical property makes it a key component of gunpowder. Sulfur in gunpowder is mixed with saltpeter and charcoal in a certain proportion, and after ignition, a violent chemical reaction occurs, resulting in an explosive effect. This is the result of the interaction of the chemical properties of each component.
Another example is lime, which is recorded in the book. Limestone is calcined at high temperature and chemically changes to form quicklime, which reflects the chemical properties of thermal decomposition of calcium carbonate. And quicklime reacts with water to form slaked lime, and the reaction is exothermic, which is the chemical property of the reaction of calcium oxide and water. Slashed lime is widely used in construction and other fields, such as for the preparation of lime, which is gradually hardened by the reaction with carbon dioxide in the air to enhance the durability of building materials.
It can be seen from "Tiangong Kaiwu" that although the ancients did not systematically explain the chemical properties of substances with modern chemical theory, they skillfully used many chemical properties of substances in practice to carry out activities such as smelting, manufacturing, and construction, which promoted technological progress and social development at that time.
As far as metals are concerned, the book contains the smelting of metals such as copper, iron, and zinc. Taking iron as an example, the ancients knew that iron is easy to react with oxygen and water vapor in the air and rust, which is an important chemical property of iron. "Tiangong Kaiwu" records that charcoal is used as fuel during iron smelting, and charcoal is burned to generate carbon monoxide. Carbon monoxide is reductive and can reduce iron oxides in iron ores to iron. This is an example of using the chemical properties of carbon monoxide.
For non-metals, such as sulfur, the book mentions that it is used in gunpowder production. Sulfur is flammable. It reacts violently with oxygen under certain conditions, releasing a large amount of heat and gas. This chemical property makes it a key component of gunpowder. Sulfur in gunpowder is mixed with saltpeter and charcoal in a certain proportion, and after ignition, a violent chemical reaction occurs, resulting in an explosive effect. This is the result of the interaction of the chemical properties of each component.
Another example is lime, which is recorded in the book. Limestone is calcined at high temperature and chemically changes to form quicklime, which reflects the chemical properties of thermal decomposition of calcium carbonate. And quicklime reacts with water to form slaked lime, and the reaction is exothermic, which is the chemical property of the reaction of calcium oxide and water. Slashed lime is widely used in construction and other fields, such as for the preparation of lime, which is gradually hardened by the reaction with carbon dioxide in the air to enhance the durability of building materials.
It can be seen from "Tiangong Kaiwu" that although the ancients did not systematically explain the chemical properties of substances with modern chemical theory, they skillfully used many chemical properties of substances in practice to carry out activities such as smelting, manufacturing, and construction, which promoted technological progress and social development at that time.
What are the physical properties of this substance?
The physical properties of a substance are related to its shape, color, odor, density, melting point, boiling point, hardness, solubility, and many other aspects.
The form is either solid, with a solid texture and a fixed shape and volume; or liquid, with fluidity, with a certain volume and the shape changes with the container; or gaseous, diffuse and scattered, without a fixed shape and volume.
Color is the appearance color of the substance, which is colorful, such as gold is golden and bright, silver is silvery white and bright. The smell is also different, or fragrant, or pungent, or odorless and intangible.
The density is the mass of the substance per unit volume, and the density of different substances varies significantly. For example, the density of iron is greater than that of water, so iron sinks in water. The melting point is the temperature at which a substance melts from a solid state to a liquid state. The melting point of ice is zero degrees Celsius. At this temperature, ice turns into water. The boiling point is the temperature at which a liquid boils, and the boiling point of water is 100 degrees Celsius at standard atmospheric pressure.
Hardness reflects the ability of a substance to resist being scratched or pressed into by foreign objects. Diamond is extremely hard and can cut many hard objects. Solubility is related to the degree to which a substance dissolves in a solvent. Salt is easily soluble in water, while oil is difficult to dissolve in water.
All kinds of physical properties are of great significance in identifying substances and exploring their uses. Only by knowing the physical properties of substances can we make good use of them for the benefit of life, production, scientific research and many other fields.
The form is either solid, with a solid texture and a fixed shape and volume; or liquid, with fluidity, with a certain volume and the shape changes with the container; or gaseous, diffuse and scattered, without a fixed shape and volume.
Color is the appearance color of the substance, which is colorful, such as gold is golden and bright, silver is silvery white and bright. The smell is also different, or fragrant, or pungent, or odorless and intangible.
The density is the mass of the substance per unit volume, and the density of different substances varies significantly. For example, the density of iron is greater than that of water, so iron sinks in water. The melting point is the temperature at which a substance melts from a solid state to a liquid state. The melting point of ice is zero degrees Celsius. At this temperature, ice turns into water. The boiling point is the temperature at which a liquid boils, and the boiling point of water is 100 degrees Celsius at standard atmospheric pressure.
Hardness reflects the ability of a substance to resist being scratched or pressed into by foreign objects. Diamond is extremely hard and can cut many hard objects. Solubility is related to the degree to which a substance dissolves in a solvent. Salt is easily soluble in water, while oil is difficult to dissolve in water.
All kinds of physical properties are of great significance in identifying substances and exploring their uses. Only by knowing the physical properties of substances can we make good use of them for the benefit of life, production, scientific research and many other fields.
What are the main uses of this substance?
This substance is an extraordinary thing, its main use is of great significance, and it is related to many fields.
In the way of military conquest, this substance is often used as a sharp weapon. Or as a siege tool, it can help soldiers break through the enemy's barriers. Looking at the past battles, when the city is attacked and defended, this object can make a strong impact on the enemy's defenses with its unique structure and performance, causing the enemy's defense line to collapse, opening up a way for the enemy's army to move forward, turning the tide of the battle, and laying the foundation for the final victory.
In the process of civil engineering, it also plays a key role. For example, when building a grand palace and a strong city, it can be used as an auxiliary device to help craftsmen carry heavy stones, wood and other materials. With its ingenious design, it can save effort and efficiently move heavy objects to where they are needed, greatly improving the progress of the project, so that magnificent buildings can be erected, preserved in the world, and become a witness to history and culture.
In daily life, it also brings convenience to the people. When farmers work in agriculture, they may use it to assist in the handling of grains and farm implements, reducing physical burden and improving labor efficiency. In the market, merchants may also use this material to move goods, making the turnover of goods smoother and promoting the prosperity of commerce.
In addition, in exploring unknown places, this material is also helpful. When traveling to dangerous places in mountains and rivers, it can be used to build simple bridges, assist in climbing, etc., to help people cross obstacles, open up new fields, and increase their knowledge and understanding of the world.
All of these, this material has a wide range of uses and plays an irreplaceable role in military, engineering, people's livelihood and exploration, and has a profound impact on the development process of human society.
In the way of military conquest, this substance is often used as a sharp weapon. Or as a siege tool, it can help soldiers break through the enemy's barriers. Looking at the past battles, when the city is attacked and defended, this object can make a strong impact on the enemy's defenses with its unique structure and performance, causing the enemy's defense line to collapse, opening up a way for the enemy's army to move forward, turning the tide of the battle, and laying the foundation for the final victory.
In the process of civil engineering, it also plays a key role. For example, when building a grand palace and a strong city, it can be used as an auxiliary device to help craftsmen carry heavy stones, wood and other materials. With its ingenious design, it can save effort and efficiently move heavy objects to where they are needed, greatly improving the progress of the project, so that magnificent buildings can be erected, preserved in the world, and become a witness to history and culture.
In daily life, it also brings convenience to the people. When farmers work in agriculture, they may use it to assist in the handling of grains and farm implements, reducing physical burden and improving labor efficiency. In the market, merchants may also use this material to move goods, making the turnover of goods smoother and promoting the prosperity of commerce.
In addition, in exploring unknown places, this material is also helpful. When traveling to dangerous places in mountains and rivers, it can be used to build simple bridges, assist in climbing, etc., to help people cross obstacles, open up new fields, and increase their knowledge and understanding of the world.
All of these, this material has a wide range of uses and plays an irreplaceable role in military, engineering, people's livelihood and exploration, and has a profound impact on the development process of human society.
What are the precautions for the synthesis of this substance?
When a substance is synthesized, many things need to be paid attention to. The first thing to consider is the selection of raw materials carefully. The quality of raw materials has a huge impact on the synthetic products. Pure and suitable raw materials must be selected. If there are many impurities in the raw materials, the synthesis process will inevitably take place, and the product will not achieve the expected purity and performance. For example, in alchemy, the quality of medicinal materials is not good, and the medicinal pills may be difficult to form or toxic.
Synthetic conditions cannot be ignored. Factors such as temperature, pressure, and reaction time all play a key role in the synthesis. If the temperature is too high or too low, the reaction rate can be abnormal and the product will vary. If a sword is cast, the heat is not properly grasped, and the texture of the sword will be poor. Improper pressure control, or the reaction cannot proceed smoothly, such as firing special ceramics, the pressure is wrong, and the ceramics are prone to cracks. If the reaction time is too short, the reaction will not be fully functional; if the time is too long, or the product will overreact and the quality will decline.
Furthermore, the operation of the synthesis process must be accurate. The details such as the stirring rate and the feeding sequence are all related to the success or failure of the synthesis. If the stirring is too slow, the raw materials will be unevenly mixed, and the reaction will not be uniform. If the stirring is too fast, it may destroy the stability of the reaction system. The order of feeding may be reversed, which may cause abnormal reactions. Taking the preparation of medicinal soup as an example, the order of feeding medicinal materials is disordered, and the efficacy may be greatly affected.
< A clean environment can avoid the mixing of impurities, such as pharmaceuticals in a dust-free workshop, to ensure the purity of medicines. Humid and dusty environments can easily cause contamination of synthetic products, affecting their quality and performance.
The utensils used for synthesis also need to be appropriate. Materials, specifications, etc. should be adapted to the needs of synthesis. If the utensils are not resistant to corrosion, they may be damaged during the reaction, which will affect the reaction and may introduce impurities. Such as alchemy, if the material of the crucible used is not good, the gold liquid or leakage, or react with the crucible material.
In summary, when synthesizing a substance, the raw materials, conditions, operation, environment, utensils, etc. need to be treated with caution in order to achieve the synthesis goal smoothly and obtain the ideal product.
Synthetic conditions cannot be ignored. Factors such as temperature, pressure, and reaction time all play a key role in the synthesis. If the temperature is too high or too low, the reaction rate can be abnormal and the product will vary. If a sword is cast, the heat is not properly grasped, and the texture of the sword will be poor. Improper pressure control, or the reaction cannot proceed smoothly, such as firing special ceramics, the pressure is wrong, and the ceramics are prone to cracks. If the reaction time is too short, the reaction will not be fully functional; if the time is too long, or the product will overreact and the quality will decline.
Furthermore, the operation of the synthesis process must be accurate. The details such as the stirring rate and the feeding sequence are all related to the success or failure of the synthesis. If the stirring is too slow, the raw materials will be unevenly mixed, and the reaction will not be uniform. If the stirring is too fast, it may destroy the stability of the reaction system. The order of feeding may be reversed, which may cause abnormal reactions. Taking the preparation of medicinal soup as an example, the order of feeding medicinal materials is disordered, and the efficacy may be greatly affected.
< A clean environment can avoid the mixing of impurities, such as pharmaceuticals in a dust-free workshop, to ensure the purity of medicines. Humid and dusty environments can easily cause contamination of synthetic products, affecting their quality and performance.
The utensils used for synthesis also need to be appropriate. Materials, specifications, etc. should be adapted to the needs of synthesis. If the utensils are not resistant to corrosion, they may be damaged during the reaction, which will affect the reaction and may introduce impurities. Such as alchemy, if the material of the crucible used is not good, the gold liquid or leakage, or react with the crucible material.
In summary, when synthesizing a substance, the raw materials, conditions, operation, environment, utensils, etc. need to be treated with caution in order to achieve the synthesis goal smoothly and obtain the ideal product.
What impact does this substance have on the environment?
The impact of a substance on the environment is related to ecology, climate, and resources. Here is an ancient saying.
Matter exists between heaven and earth, and it is like a double-edged sword in the environment, with both advantages and disadvantages. If it is a beneficial substance and used reasonably, it can benefit the environment. For example, plants and trees, which can fix soil and retain water, absorb carbon and release oxygen, fill the air, keep water and soil safe, and balance the ecology. This is a good help to the environment.
However, harmful substances, once they are spread out, will cause endless harm. If chemical waste and waste gas are dumped into the water and soil, dispersed in the air, causing water and pollution. Water pollution also makes it difficult for fish and shrimp to survive, and drinking water also suffers from it, endangering the lives of humans and animals; the turbidity of the gas also causes haze to cover the sun, poor breathing, and diseases. And these harmful substances, or accumulated in the soil, cause the land to fail, and it is difficult to harvest; or flow in rivers and lakes, enter the body of living things, accumulate layer by layer through the food chain, and eventually return to human beings themselves.
Furthermore, the excessive use of certain substances also damages the environment. For example, coal, oil, etc., although they are the basis of energy, they are over-mined, resulting in the earth being riddled with holes, the landscape is changed, and when burned, carbon emissions increase sharply, leading to climate changes. Global temperatures are gradually rising, glaciers are melting, sea levels are rising, coastal lands are precarious, extreme climates are frequent, droughts and floods are impermanent, and people's livelihood is difficult.
There are also new substances, such as plastics and the like. Although it is convenient for the time, it is difficult to degrade. It is abandoned in the wild, and over the years, it fills the environment and causes harm to organisms. Birds and beasts eat by mistake, and the stomach is obstructed. In the ocean, plastic waste floats, and fish and shellfish are entangled in it, which makes their survival worrying.
Therefore, when matter is in the environment, it should be handled with caution. Use it to get rid of its harm, uphold the heart of reverence for nature, develop and utilize it rationally, and make materials and the environment coexist in harmony for a long time.
Matter exists between heaven and earth, and it is like a double-edged sword in the environment, with both advantages and disadvantages. If it is a beneficial substance and used reasonably, it can benefit the environment. For example, plants and trees, which can fix soil and retain water, absorb carbon and release oxygen, fill the air, keep water and soil safe, and balance the ecology. This is a good help to the environment.
However, harmful substances, once they are spread out, will cause endless harm. If chemical waste and waste gas are dumped into the water and soil, dispersed in the air, causing water and pollution. Water pollution also makes it difficult for fish and shrimp to survive, and drinking water also suffers from it, endangering the lives of humans and animals; the turbidity of the gas also causes haze to cover the sun, poor breathing, and diseases. And these harmful substances, or accumulated in the soil, cause the land to fail, and it is difficult to harvest; or flow in rivers and lakes, enter the body of living things, accumulate layer by layer through the food chain, and eventually return to human beings themselves.
Furthermore, the excessive use of certain substances also damages the environment. For example, coal, oil, etc., although they are the basis of energy, they are over-mined, resulting in the earth being riddled with holes, the landscape is changed, and when burned, carbon emissions increase sharply, leading to climate changes. Global temperatures are gradually rising, glaciers are melting, sea levels are rising, coastal lands are precarious, extreme climates are frequent, droughts and floods are impermanent, and people's livelihood is difficult.
There are also new substances, such as plastics and the like. Although it is convenient for the time, it is difficult to degrade. It is abandoned in the wild, and over the years, it fills the environment and causes harm to organisms. Birds and beasts eat by mistake, and the stomach is obstructed. In the ocean, plastic waste floats, and fish and shellfish are entangled in it, which makes their survival worrying.
Therefore, when matter is in the environment, it should be handled with caution. Use it to get rid of its harm, uphold the heart of reverence for nature, develop and utilize it rationally, and make materials and the environment coexist in harmony for a long time.
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