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Benzeneacetyl Chloride, 4-Chloro-
Linshang Chemical
|
HS Code |
165792 |
| Chemical Formula | C8H6Cl2O |
| Molar Mass | 189.04 g/mol |
| Appearance | Typically a colorless to pale yellow liquid |
| Boiling Point | Approximately 246 - 248 °C |
| Density | Around 1.32 g/cm³ |
| Solubility In Water | Reacts with water rather than dissolving (hydrolyzes) |
| Solubility In Organic Solvents | Soluble in common organic solvents like benzene, toluene |
| Vapor Pressure | Low vapor pressure at room temperature |
| Flash Point | Elevated flash point, potentially around 100 °C |
As an accredited Benzeneacetyl Chloride, 4-Chloro- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 - gram bottle of 4 - chloro - benzeneacetyl chloride, well - sealed for chemical storage. |
| Storage | 4 - chloro - Benzeneacetyl Chloride should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and moisture as it is reactive. Store in a tightly sealed container, preferably made of corrosion - resistant materials, to prevent leakage and contact with air or water, which could lead to decomposition or dangerous reactions. |
| Shipping | Benzeneacetyl Chloride, 4 - chloro - is shipped in accordance with strict hazardous chemical regulations. It is typically packed in corrosion - resistant containers, safeguarded during transit to prevent leaks and ensure safety of handlers and the environment. |
Competitive Benzeneacetyl Chloride, 4-Chloro- 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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As a leading Benzeneacetyl Chloride, 4-Chloro- 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 4-chlorophenylacetyl chloride?
Borax is an important compound of boron and has key uses in many fields in ancient times. Although the use of borax is not described in detail in "Tiangong Kaiwu", combined with the records of various ancient books and traditional applications, it can be seen that its main uses are as follows:
First, in the field of metallurgy, borax is often used as a flux. When smelting metals, adding borax can reduce the melting point of metals, improve metal fluidity, and help remove impurities in metals, thereby improving metal purity and quality. For example, in the process of casting bronze, borax can make the copper liquid flow more evenly, making the surface of the casting smoother, reducing defects such as pores and trachoma. This principle is that borax is thermally decomposed, and the generated boron oxide can combine with impurities in the metal to form slag floating on the surface of the molten metal, which is easy to remove.
Second, in medicine, borax is also used. Traditional medicine believes that borax has the effect of clearing away heat and detoxifying, reducing swelling and antiseptic. It is often used to treat swelling and pain in the throat, sores on the mouth and tongue, and blindness. If borax is ground into a fine powder and blown on the affected area, it can relieve the symptoms of swelling and pain. However, the dosage needs to be strictly controlled when using it. Due to the toxicity of borax, excessive use may endanger human health.
Third, in the field of alchemy, borax also plays an important role. Ancient alchemists often used borax to participate in chemical reactions in the process of refining medicinal pills. Borax's unique chemical properties can promote the conversion and synthesis of certain substances. Although some of them are inconsistent with modern science, they were important materials in alchemy activities at that time.
Fourth, in daily life and process production, borax also has certain uses. For example, in the printing and dyeing industry, borax can be used as a mordant to help dyes better adhere to fabrics, improve dyeing effect and color fastness. In ceramic production, borax can reduce the melting point of ceramic bodies, improve the transparency and gloss of ceramics, and improve the quality of ceramics.
First, in the field of metallurgy, borax is often used as a flux. When smelting metals, adding borax can reduce the melting point of metals, improve metal fluidity, and help remove impurities in metals, thereby improving metal purity and quality. For example, in the process of casting bronze, borax can make the copper liquid flow more evenly, making the surface of the casting smoother, reducing defects such as pores and trachoma. This principle is that borax is thermally decomposed, and the generated boron oxide can combine with impurities in the metal to form slag floating on the surface of the molten metal, which is easy to remove.
Second, in medicine, borax is also used. Traditional medicine believes that borax has the effect of clearing away heat and detoxifying, reducing swelling and antiseptic. It is often used to treat swelling and pain in the throat, sores on the mouth and tongue, and blindness. If borax is ground into a fine powder and blown on the affected area, it can relieve the symptoms of swelling and pain. However, the dosage needs to be strictly controlled when using it. Due to the toxicity of borax, excessive use may endanger human health.
Third, in the field of alchemy, borax also plays an important role. Ancient alchemists often used borax to participate in chemical reactions in the process of refining medicinal pills. Borax's unique chemical properties can promote the conversion and synthesis of certain substances. Although some of them are inconsistent with modern science, they were important materials in alchemy activities at that time.
Fourth, in daily life and process production, borax also has certain uses. For example, in the printing and dyeing industry, borax can be used as a mordant to help dyes better adhere to fabrics, improve dyeing effect and color fastness. In ceramic production, borax can reduce the melting point of ceramic bodies, improve the transparency and gloss of ceramics, and improve the quality of ceramics.
What are the physical properties of 4-chlorophenylacetyl chloride?
Mercury is one of the chemical elements, its symbol is Hg, commonly known as mercury. Mercury has many unique physical properties and is quite strange.
First of all, at room temperature, mercury is in a liquid state, shining brightly, like flowing silver, which is very different from common solid metals. This property makes mercury unique in various experimental and industrial applications, easy to dump, transfer and shape.
Second, in terms of its density, mercury has a very high density, about 13.59 grams/cubic centimeter, which is heavier than common metals such as iron and copper. This high density property makes mercury widely used in measuring instruments such as hydrometers to determine the density of other substances by means of its density difference.
Furthermore, the melting point of mercury is extremely low, only -38.87 ° C, while the boiling point is 356.6 ° C. This narrow liquid temperature range allows it to accurately maintain its liquid state under a specific temperature environment, which plays a key role in the manufacture of thermometers. With the principle of thermal expansion and contraction of mercury, temperature changes can be accurately measured.
The surface tension of mercury is also very considerable, allowing mercury to drop on a flat surface to gather into a nearly perfect spherical shape, like a crystal pearl. This phenomenon is also closely related to the special physical properties of mercury.
In addition, mercury is a good electrical conductor. Although its conductivity is slightly inferior to that of metals such as copper and silver, in certain electrical devices, mercury can be used as an electrode or a conductive medium due to its liquid properties, and play a unique conductive function.
To sum up, mercury has important uses in many fields due to its unique physical properties such as liquid state, high density, low melting point, high surface tension and conductivity. However, due to its toxicity, it should be used with extreme caution.
First of all, at room temperature, mercury is in a liquid state, shining brightly, like flowing silver, which is very different from common solid metals. This property makes mercury unique in various experimental and industrial applications, easy to dump, transfer and shape.
Second, in terms of its density, mercury has a very high density, about 13.59 grams/cubic centimeter, which is heavier than common metals such as iron and copper. This high density property makes mercury widely used in measuring instruments such as hydrometers to determine the density of other substances by means of its density difference.
Furthermore, the melting point of mercury is extremely low, only -38.87 ° C, while the boiling point is 356.6 ° C. This narrow liquid temperature range allows it to accurately maintain its liquid state under a specific temperature environment, which plays a key role in the manufacture of thermometers. With the principle of thermal expansion and contraction of mercury, temperature changes can be accurately measured.
The surface tension of mercury is also very considerable, allowing mercury to drop on a flat surface to gather into a nearly perfect spherical shape, like a crystal pearl. This phenomenon is also closely related to the special physical properties of mercury.
In addition, mercury is a good electrical conductor. Although its conductivity is slightly inferior to that of metals such as copper and silver, in certain electrical devices, mercury can be used as an electrode or a conductive medium due to its liquid properties, and play a unique conductive function.
To sum up, mercury has important uses in many fields due to its unique physical properties such as liquid state, high density, low melting point, high surface tension and conductivity. However, due to its toxicity, it should be used with extreme caution.
What are the chemical properties of 4-chlorophenylacetyl chloride?
Mercury bromide red solution, that is, red potion, its main component is mercury bromide red is an organic mercury compound. The following describes its chemical properties in classical Chinese form:
Mercury bromide red is an organic substance containing mercury. Its properties have unique characteristics. In terms of chemical essence, it is formed by the inclusion of mercury elements in the structure of organic molecules.
At the end of stability, it is still stable under normal conditions. However, if it encounters strong oxidants, it is prone to chemical changes. The characteristics of mercury cover are easily acted by substances with higher oxidation states, causing molecular structure disintegration. For example, when it comes to strong oxidizing agents such as hydrogen peroxide, the valence state of mercury in mercury bromide red may change, causing a series of chemical effects.
In terms of solubility, it is soluble in water, but the solubility is not very high. This is because the interaction between the organic part of the molecule and the water molecule has its limit. In water, part of the dissociation is ionic, and one of the mercury bromide red molecules is dispersed in the form of ions in the water molecule, so it is in the state of solution. However, compared with easily soluble salts, its degree of dissociation is limited.
Its reaction with metals is also worth watching. In case of active metals, such as zinc, iron, etc., mercury ions in mercury bromide red can be replaced. This is because active metals have a stronger tendency to lose electrons, which can reduce mercury ions to mercury elemental matter. Looking at this process, it is like a "battle" between metals. Those who are active seize the position of mercury ions, and mercury precipitates out and takes on a new state.
And in acid-base environments, its performance is also special. In acidic environments, the molecular structure of mercury bromide red may be affected by protons, which makes it easier for mercury to bond with other atoms. In alkaline environments, hydroxide ions may react with some groups in mercury bromide red to change its chemical nature.
To sum up, the chemical properties of mercury bromide red are influenced by the combination of mercury elements and organic parts in its molecular structure, and show various changes in different chemical situations.
Mercury bromide red is an organic substance containing mercury. Its properties have unique characteristics. In terms of chemical essence, it is formed by the inclusion of mercury elements in the structure of organic molecules.
At the end of stability, it is still stable under normal conditions. However, if it encounters strong oxidants, it is prone to chemical changes. The characteristics of mercury cover are easily acted by substances with higher oxidation states, causing molecular structure disintegration. For example, when it comes to strong oxidizing agents such as hydrogen peroxide, the valence state of mercury in mercury bromide red may change, causing a series of chemical effects.
In terms of solubility, it is soluble in water, but the solubility is not very high. This is because the interaction between the organic part of the molecule and the water molecule has its limit. In water, part of the dissociation is ionic, and one of the mercury bromide red molecules is dispersed in the form of ions in the water molecule, so it is in the state of solution. However, compared with easily soluble salts, its degree of dissociation is limited.
Its reaction with metals is also worth watching. In case of active metals, such as zinc, iron, etc., mercury ions in mercury bromide red can be replaced. This is because active metals have a stronger tendency to lose electrons, which can reduce mercury ions to mercury elemental matter. Looking at this process, it is like a "battle" between metals. Those who are active seize the position of mercury ions, and mercury precipitates out and takes on a new state.
And in acid-base environments, its performance is also special. In acidic environments, the molecular structure of mercury bromide red may be affected by protons, which makes it easier for mercury to bond with other atoms. In alkaline environments, hydroxide ions may react with some groups in mercury bromide red to change its chemical nature.
To sum up, the chemical properties of mercury bromide red are influenced by the combination of mercury elements and organic parts in its molecular structure, and show various changes in different chemical situations.
What are the application examples of 4-chlorophenylacetyl chloride in synthesis?
Mercury is an alloy made of mercury and other gold, and mercury is also used ingeniously in the polytechnics described in "Tiangong".
The first example is the extraction of cinnabar. Cinnabar is an important stone for mercury. The ancients extracted mercury, and cinnabar chips were often co-calcined. Of course, mercury is also involved. First, the cinnabar is decomposed into mercury vapor, and the mercury vapor is easy to absorb when it encounters other substances. If a sheet is placed in the sheet where the mercury vapor escapes, the mercury vapor condenses when it encounters the sheet, and the mercury is formed. This mercury can be enriched, and then mercury is added to make the mercury come out and extract mercury.
Furthermore, in the case of gilt gold. If you want to make the surface of the utensils gold, first melt the gold and mercury into gold and mercury in a certain proportion. This gold and mercury is a paste and easy to wipe. The craftsman put it all on the surface of the utensils, and when the mercury is naturally damaged or slightly promoted, the gold will stay on the surface of the utensils to form a gold film, which will be used for the purpose of gilting, so that the utensils are rich and beautiful.
And it is also mentioned in the article. In the article, it is often used to symbiosis with other things. The ancients mentioned the method of mercury. The stone containing the stone is broken and ground, and the mercury is mixed. Mercury can be formed into mercury, and other materials do not have mercury. In this way, mercury can be initially separated and then added to make mercury.
In addition, for some substances, mercury may also be useful. Ancient alchemy is prevalent, and mercury is an important material. It is necessary to form mercury first in order to improve its properties and make it more conducive to the synthesis and efficacy of substances. However, the use of this method involves many mysterious alchemy, and some methods may not exist.
The first example is the extraction of cinnabar. Cinnabar is an important stone for mercury. The ancients extracted mercury, and cinnabar chips were often co-calcined. Of course, mercury is also involved. First, the cinnabar is decomposed into mercury vapor, and the mercury vapor is easy to absorb when it encounters other substances. If a sheet is placed in the sheet where the mercury vapor escapes, the mercury vapor condenses when it encounters the sheet, and the mercury is formed. This mercury can be enriched, and then mercury is added to make the mercury come out and extract mercury.
Furthermore, in the case of gilt gold. If you want to make the surface of the utensils gold, first melt the gold and mercury into gold and mercury in a certain proportion. This gold and mercury is a paste and easy to wipe. The craftsman put it all on the surface of the utensils, and when the mercury is naturally damaged or slightly promoted, the gold will stay on the surface of the utensils to form a gold film, which will be used for the purpose of gilting, so that the utensils are rich and beautiful.
And it is also mentioned in the article. In the article, it is often used to symbiosis with other things. The ancients mentioned the method of mercury. The stone containing the stone is broken and ground, and the mercury is mixed. Mercury can be formed into mercury, and other materials do not have mercury. In this way, mercury can be initially separated and then added to make mercury.
In addition, for some substances, mercury may also be useful. Ancient alchemy is prevalent, and mercury is an important material. It is necessary to form mercury first in order to improve its properties and make it more conducive to the synthesis and efficacy of substances. However, the use of this method involves many mysterious alchemy, and some methods may not exist.
What are the production methods of 4-chlorobenzene acetyl chloride?
Mercury is a highly poisonous substance, and the method of its production should not be detailed, because its process is very harmful and easy to cause disasters. However, there are relevant records in the ancient book "Tiangong Kaiwu", and the records are as follows:
"Where cinnabar, mercury, and silver vermilion are originally the same thing, so those with different names are divided into coarse, old and tender. The best cinnabar, those who produce Chen, brocade, and Xichuan, are those who are pregnant with mercury, but they are not refined, and cover bright, arrowhead, mirror and other sand. Its price is three times that of mercury, so it is selected as cinnabar goods. If it is raised, it is only for frying silver vermilion and for medicinal use. Its seedling sand, which appears in the branch soil, is like a stone gall, or as big as a fist, as small as a bean, and those who do not hold stones, are all cinnabar, and the amount of money is won, not refined.
Where liters of mercury, or with whitening secondary sand, or with a tank to fall out of the floating surface of two vermilion, water and chuck into a large wire rod, every 30 catties into a kettle for refining, the lower carbon also uses 30 catties. Where mercury rises, cover a kettle, leave a small hole in the kettle, and tighten the salt mud next to the kettle. The kettle is made of iron into a curved bow and a slippery pipe, and the tube is tightly wrapped with hemp rope, and it is still coated with salt mud. When the fire is calcined, Qu Liu inserts one end into the kettle for ventilation, and fills two bottles of water with a medium jar at one end. The tail of the episode slips inside, and the gas in the kettle reaches the water in the jar. A total of two hours of calcination, in which the sand is completely turned into mercury, and it is distributed in the full kettle. Cold for a day, take it out and sweep it down. This is the most wonderful and mysterious method of turning silver into water, and it is also in this sense. "
Although there is a method of refining mercury, this method is not advisable today. The production of mercury is extremely harmful to the environment and the human body. Today, there are safer and more environmentally friendly methods to produce related mercury products, and there are many substitutes. It is necessary not to use the ancient method of production to avoid endless disasters.
"Where cinnabar, mercury, and silver vermilion are originally the same thing, so those with different names are divided into coarse, old and tender. The best cinnabar, those who produce Chen, brocade, and Xichuan, are those who are pregnant with mercury, but they are not refined, and cover bright, arrowhead, mirror and other sand. Its price is three times that of mercury, so it is selected as cinnabar goods. If it is raised, it is only for frying silver vermilion and for medicinal use. Its seedling sand, which appears in the branch soil, is like a stone gall, or as big as a fist, as small as a bean, and those who do not hold stones, are all cinnabar, and the amount of money is won, not refined.
Where liters of mercury, or with whitening secondary sand, or with a tank to fall out of the floating surface of two vermilion, water and chuck into a large wire rod, every 30 catties into a kettle for refining, the lower carbon also uses 30 catties. Where mercury rises, cover a kettle, leave a small hole in the kettle, and tighten the salt mud next to the kettle. The kettle is made of iron into a curved bow and a slippery pipe, and the tube is tightly wrapped with hemp rope, and it is still coated with salt mud. When the fire is calcined, Qu Liu inserts one end into the kettle for ventilation, and fills two bottles of water with a medium jar at one end. The tail of the episode slips inside, and the gas in the kettle reaches the water in the jar. A total of two hours of calcination, in which the sand is completely turned into mercury, and it is distributed in the full kettle. Cold for a day, take it out and sweep it down. This is the most wonderful and mysterious method of turning silver into water, and it is also in this sense. "
Although there is a method of refining mercury, this method is not advisable today. The production of mercury is extremely harmful to the environment and the human body. Today, there are safer and more environmentally friendly methods to produce related mercury products, and there are many substitutes. It is necessary not to use the ancient method of production to avoid endless disasters.
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