Linshang Chemical
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Benzeneacetonitrile, 3-Chloro-
Linshang Chemical
|
HS Code |
998970 |
| Chemical Formula | C8H6ClN |
| Molar Mass | 151.59 g/mol |
| Appearance | Solid |
| Melting Point | 36 - 38 °C |
| Boiling Point | 264 - 266 °C |
| Density | 1.22 g/cm³ |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in many organic solvents |
| Flash Point | 121 °C |
| Odor | Characteristic odor |
| Hazard Class | Irritant |
As an accredited Benzeneacetonitrile, 3-Chloro- factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 kg of 3 - chloro - benzeneacetonitrile packaged in a sealed, corrosion - resistant drum. |
| Storage | Store "3 - chloro - benzeneacetonitrile" 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 materials. Separate it from oxidizing agents, acids, and bases to prevent reactions. Use appropriate storage cabinets or areas designated for hazardous chemicals to ensure safety. |
| Shipping | 3 - Chloro - benzeneacetonitrile is a hazardous chemical. Shipping requires compliance with regulations. It should be properly packaged in suitable containers, labeled clearly, and transported by carriers approved for handling such substances. |
Competitive Benzeneacetonitrile, 3-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.
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Tel: +8615365006308
Email: info@alchemist-chem.com
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As a trusted Benzeneacetonitrile, 3-Chloro- manufacturer, we deliver:
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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 Benzeneacetonitrile, 3-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 physical properties of 3-chlorophenylacetonitrile?
If the mercury is thick, its physical properties are special. In terms of color, it is often gray, and it has a yellow color, and the light looks like gold, but it has a yellow color. Its hardness is not high, and the Mohs hardness is 3 to 4. If you use your hand, you can make marks with a little force. The specific gravity is large, 4.4 to 4.5. In the hand, there is a heavy feeling.
Its crystal shape is multi-dimensional, often false on all sides, and the crystal surface is clear. The set is often dense or granular, and the shape of the accumulation is also different.
The cleavage of this object is not very high, and the mouth is mostly poor, and it is uneven. If its transparency is opaque, it can be penetrated by light. And it is efficient, with an easy way to go, it can flow through, but its performance is not as good as gold.
Mercury is an important material reason, in the use of materials and related technologies, and it is often used to distinguish the important factors, in order to clarify its characteristics, used in general things.
Its crystal shape is multi-dimensional, often false on all sides, and the crystal surface is clear. The set is often dense or granular, and the shape of the accumulation is also different.
The cleavage of this object is not very high, and the mouth is mostly poor, and it is uneven. If its transparency is opaque, it can be penetrated by light. And it is efficient, with an easy way to go, it can flow through, but its performance is not as good as gold.
Mercury is an important material reason, in the use of materials and related technologies, and it is often used to distinguish the important factors, in order to clarify its characteristics, used in general things.
What are the chemical properties of 3-chlorophenylacetonitrile?
The chemical properties of mercury are specific. In this compound, elements such as mercury (Hg), mercury (Sb), mercury (Mn), etc. interact with each other to form their own unique chemical properties.
In terms of its chemical activity, mercury is usually stable under normal conditions. However, when encountering acids such as acid and sulfuric acid, it may react. Due to the action of acids, the mercury element may partially dissolve, forming mercury particles (Hg ²), which show a special reaction in solution. The element of mercury may also react and form a phase, such as three or five, depending on the weakness and reaction of the acid.
In addition, mercury is especially toxic. Mercury is easy to burn, and when it is exposed to a certain degree, it will escape, evaporate as mercury, and disperse in the air. And the chemical compounds may decompose or oxidize. For example, if the chemical compound is oxidized or increased, the physical properties such as color and crystal form will also be changed.
Furthermore, mercury is oxidized in an oxidizing environment, and it will also be oxidized. Mercury, mercury, and other elements on the surface of the material are oxidized, causing the color and light of the material to change, and the transformation of its parts will also be repeated.
The chemical properties of mercury are not only limited by the characteristics of its constituent elements, but also different due to the change of external factors such as acidity, temperature, and oxidation environment. This is the beauty of its chemical properties.
In terms of its chemical activity, mercury is usually stable under normal conditions. However, when encountering acids such as acid and sulfuric acid, it may react. Due to the action of acids, the mercury element may partially dissolve, forming mercury particles (Hg ²), which show a special reaction in solution. The element of mercury may also react and form a phase, such as three or five, depending on the weakness and reaction of the acid.
In addition, mercury is especially toxic. Mercury is easy to burn, and when it is exposed to a certain degree, it will escape, evaporate as mercury, and disperse in the air. And the chemical compounds may decompose or oxidize. For example, if the chemical compound is oxidized or increased, the physical properties such as color and crystal form will also be changed.
Furthermore, mercury is oxidized in an oxidizing environment, and it will also be oxidized. Mercury, mercury, and other elements on the surface of the material are oxidized, causing the color and light of the material to change, and the transformation of its parts will also be repeated.
The chemical properties of mercury are not only limited by the characteristics of its constituent elements, but also different due to the change of external factors such as acidity, temperature, and oxidation environment. This is the beauty of its chemical properties.
What are the main uses of 3-chlorophenylacetonitrile?
Borax is also a raw material, and its use. "Tiangong Materials" shows that the use of borax is mostly in the field of metallurgy.
In the matter of metallurgy, borax is used to help melt. In ancient smelting, the gold stone is high, and the stone contains a lot of gold, and the degree of melting is very high. Borax into it can reduce the melting of stone, help it melt, and make the metal more easily divided. For example, in smelting, borax can remove harmful particles such as sulfur and phosphorus, improve the quality, make the product better, and the equipment is more durable. The same is true for smelting and so on. Borax makes the smelting process more efficient and produces better metal products. It is essential for the development of ancient gold smelting.
As far as medicine is concerned, borax has the effect of clearing, detoxifying, eliminating and antiseptic. In ancient times, borax was often used in cases of mouth and throat pain. Borax is used to disperse and blow on patients, which can relieve pain, clear poison, and promote the combination of patients. Or enter the medicine, take it to relieve the poison. "Materia Medica" and other books have borax in the medicine, which can be used in China for a long time.
In addition, borax may also be used in the ancient part of the manual, such as the matching of ceramic glazes, or to help the glaze distribute evenly, change the glaze color and light, etc. However, it should also be used with caution. Borax is slightly toxic, and the amount or use may cause adverse effects. Therefore, borax played an important role in ancient metallurgy, engineering, etc., and promoted the development of phase technology.
In the matter of metallurgy, borax is used to help melt. In ancient smelting, the gold stone is high, and the stone contains a lot of gold, and the degree of melting is very high. Borax into it can reduce the melting of stone, help it melt, and make the metal more easily divided. For example, in smelting, borax can remove harmful particles such as sulfur and phosphorus, improve the quality, make the product better, and the equipment is more durable. The same is true for smelting and so on. Borax makes the smelting process more efficient and produces better metal products. It is essential for the development of ancient gold smelting.
As far as medicine is concerned, borax has the effect of clearing, detoxifying, eliminating and antiseptic. In ancient times, borax was often used in cases of mouth and throat pain. Borax is used to disperse and blow on patients, which can relieve pain, clear poison, and promote the combination of patients. Or enter the medicine, take it to relieve the poison. "Materia Medica" and other books have borax in the medicine, which can be used in China for a long time.
In addition, borax may also be used in the ancient part of the manual, such as the matching of ceramic glazes, or to help the glaze distribute evenly, change the glaze color and light, etc. However, it should also be used with caution. Borax is slightly toxic, and the amount or use may cause adverse effects. Therefore, borax played an important role in ancient metallurgy, engineering, etc., and promoted the development of phase technology.
What are the preparation methods of 3-chlorophenylacetonitrile?
In "Tiangong Kaiwu", the method of making lead (zinc) from calamine (zinc carbonate) is roughly as follows:
Take calamine first, and choose the pure one. Place the calamine in a special crucible. This crucible needs to be carefully fired with fire-resistant clay, etc., which can withstand high temperature and is not easy to break. On the crucible, cover it with a sealed lid, and the lid should also be tightly closed to prevent excessive air from entering.
Around the crucible, use coal as fuel, and slowly start a fire. When starting a fire, it is necessary to control the heat. At first, the fire should be slowed down, so that the crucible and calamine are gradually heated, and then the fire will gradually heat up to a high temperature state. During this process, calamine is decomposed by heat, and zinc carbonate ($ZnCO_ {3} $) decomposes into zinc oxide ($ZnO $) and carbon dioxide ($CO_ {2} $), and carbon dioxide escapes.
At the same time, coal combustion produces carbon monoxide ($CO $). Carbon monoxide is reductive and reacts with zinc oxide to reduce zinc oxide to metallic zinc. Zinc has a relatively low melting point and turns into zinc vapor at high temperatures. Because the crucible is well sealed, zinc vapor accumulates in the crucible.
Wait for a suitable heat and cool the crucible. After it is completely cooled, carefully open the crucible to obtain lead. At this time, the lead may contain some impurities, and it can be further purified by refining to obtain pure lead. This method of making lead is the crystallization of the wisdom of the ancients, and it is of great significance to the development of metal smelting at that time.
Take calamine first, and choose the pure one. Place the calamine in a special crucible. This crucible needs to be carefully fired with fire-resistant clay, etc., which can withstand high temperature and is not easy to break. On the crucible, cover it with a sealed lid, and the lid should also be tightly closed to prevent excessive air from entering.
Around the crucible, use coal as fuel, and slowly start a fire. When starting a fire, it is necessary to control the heat. At first, the fire should be slowed down, so that the crucible and calamine are gradually heated, and then the fire will gradually heat up to a high temperature state. During this process, calamine is decomposed by heat, and zinc carbonate ($ZnCO_ {3} $) decomposes into zinc oxide ($ZnO $) and carbon dioxide ($CO_ {2} $), and carbon dioxide escapes.
At the same time, coal combustion produces carbon monoxide ($CO $). Carbon monoxide is reductive and reacts with zinc oxide to reduce zinc oxide to metallic zinc. Zinc has a relatively low melting point and turns into zinc vapor at high temperatures. Because the crucible is well sealed, zinc vapor accumulates in the crucible.
Wait for a suitable heat and cool the crucible. After it is completely cooled, carefully open the crucible to obtain lead. At this time, the lead may contain some impurities, and it can be further purified by refining to obtain pure lead. This method of making lead is the crystallization of the wisdom of the ancients, and it is of great significance to the development of metal smelting at that time.
What should be paid attention to when storing and transporting 3-chlorophenylacetonitrile?
Mercury is a highly toxic substance. When storing and transporting, many matters must not be ignored.
First, the utensils stored should be selected carefully. It is advisable to use sturdy porcelain bottles and glass bottles, and seal them tightly to prevent the volatilization and leakage of mercury. If stored in metal containers, mercury can easily form amalgam with some metals, causing damage to the container and increasing the risk of mercury leakage.
Second, it is essential to store in an environment. It should be placed in a cool, dry and well-ventilated place, away from heat and fire sources. Mercury is volatile when heated, and good ventilation can reduce the concentration of indoor mercury vapor and reduce the risk of poisoning.
Third, when handling, be sure to handle it with care. Mercury is soft and fluid. If it collides violently, the container is easy to break, and the mercury will be scattered. Once it is dispersed, it is quite difficult to collect, and the mercury vapor quickly diffuses and pollutes the environment.
Fourth, the operator should be protected and should not be slack. Wear protective clothing, gloves and masks to prevent mercury from contacting the skin and inhaling into the body. If you accidentally touch mercury, rinse with water as soon as possible; if you inhale mercury vapor, leave the scene as soon as possible and seek medical treatment.
Fifth, the disposal of mercury dispersion must be in accordance with regulations. Once mercury leaks, open the window for ventilation and evacuate people. Sprinkle sulfur powder on the mercury spill to form mercury sulfide from mercury and sulfur, reduce toxicity, and then collect it carefully and hand it over to a professional organization for treatment.
Those who store and transport mercury must strictly observe the above items to ensure the safety of personnel and the environment from pollution.
First, the utensils stored should be selected carefully. It is advisable to use sturdy porcelain bottles and glass bottles, and seal them tightly to prevent the volatilization and leakage of mercury. If stored in metal containers, mercury can easily form amalgam with some metals, causing damage to the container and increasing the risk of mercury leakage.
Second, it is essential to store in an environment. It should be placed in a cool, dry and well-ventilated place, away from heat and fire sources. Mercury is volatile when heated, and good ventilation can reduce the concentration of indoor mercury vapor and reduce the risk of poisoning.
Third, when handling, be sure to handle it with care. Mercury is soft and fluid. If it collides violently, the container is easy to break, and the mercury will be scattered. Once it is dispersed, it is quite difficult to collect, and the mercury vapor quickly diffuses and pollutes the environment.
Fourth, the operator should be protected and should not be slack. Wear protective clothing, gloves and masks to prevent mercury from contacting the skin and inhaling into the body. If you accidentally touch mercury, rinse with water as soon as possible; if you inhale mercury vapor, leave the scene as soon as possible and seek medical treatment.
Fifth, the disposal of mercury dispersion must be in accordance with regulations. Once mercury leaks, open the window for ventilation and evacuate people. Sprinkle sulfur powder on the mercury spill to form mercury sulfide from mercury and sulfur, reduce toxicity, and then collect it carefully and hand it over to a professional organization for treatment.
Those who store and transport mercury must strictly observe the above items to ensure the safety of personnel and the environment from pollution.
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