Linshang Chemical
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Benzenethiol,Pentachloro- (6Ci,7Ci,8Ci,9Ci)
Linshang Chemical
|
HS Code |
909004 |
| Chemical Formula | C6HCl5S |
| Molar Mass | 282.39 g/mol |
As an accredited Benzenethiol,Pentachloro- (6Ci,7Ci,8Ci,9Ci) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100 - gram bottle packaging for pentachloro - benzenethiol chemical. |
| Storage | Pentachlorobenzenethiol should be stored in a cool, dry, well - ventilated area away from heat sources, flames, and oxidizing agents. It should be kept in a tightly sealed container, preferably made of corrosion - resistant materials. Store it separately from incompatible substances to prevent reactions. Adhere to local safety regulations for proper storage. |
| Shipping | Pentachlorobenzenethiol is a chemical that may have specific shipping regulations due to its nature. It should be shipped in accordance with hazardous materials guidelines, in properly labeled, secure containers to prevent spills and ensure safety during transit. |
Competitive Benzenethiol,Pentachloro- (6Ci,7Ci,8Ci,9Ci) prices that fit your budget—flexible terms and customized quotes for every order.
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Tel: +8615365006308
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Where to Buy Benzenethiol,Pentachloro- (6Ci,7Ci,8Ci,9Ci) in China?
As a trusted Benzenethiol,Pentachloro- (6Ci,7Ci,8Ci,9Ci) manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
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As a leading Benzenethiol,Pentachloro- (6Ci,7Ci,8Ci,9Ci) 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 pentachlorothiophenol (Benzenethiol, pentachloro- (6ci, 7ci, 8ci, 9ci))?
Pentachlorothiophenol (Benzenethiol, pentachloro- (6ci, 7ci, 8ci, 9ci)) is widely used. In the rubber industry, it is a key additive. As a plasticizer, it can significantly reduce the Mooney viscosity of raw rubber and enhance its plasticity, thereby greatly improving the processing performance of rubber. Processes such as mixing, calendering, and extrusion are smoother and more efficient, and can effectively shorten the processing time, reduce energy consumption, and greatly improve production efficiency.
In the field of tire manufacturing, adding this agent in an appropriate amount can improve the fluidity of the rubber, make the molding of tire parts more accurate, and improve tire quality. At the same time, it also helps to enhance the bonding properties of rubber and other skeleton materials such as cords, making the overall structure of the tire more stable, and improving the durability and safety of the tire.
In the production of some special rubber products, pentachlorothiophenol can also adjust the degree of cross-linking of rubber, giving the product unique physical and mechanical properties to meet special needs such as wear resistance and aging resistance. In addition, in the field of organic synthesis, it is also often used as an intermediate to participate in the synthesis of various organic compounds, laying the foundation for the preparation of organic materials with specific structures and functions, and playing an indispensable role in the development of the fine chemical industry.
In the field of tire manufacturing, adding this agent in an appropriate amount can improve the fluidity of the rubber, make the molding of tire parts more accurate, and improve tire quality. At the same time, it also helps to enhance the bonding properties of rubber and other skeleton materials such as cords, making the overall structure of the tire more stable, and improving the durability and safety of the tire.
In the production of some special rubber products, pentachlorothiophenol can also adjust the degree of cross-linking of rubber, giving the product unique physical and mechanical properties to meet special needs such as wear resistance and aging resistance. In addition, in the field of organic synthesis, it is also often used as an intermediate to participate in the synthesis of various organic compounds, laying the foundation for the preparation of organic materials with specific structures and functions, and playing an indispensable role in the development of the fine chemical industry.
What are the physical properties of pentachlorothiophenol?
Copper sulfate pentahydrate, commonly known as blue alum, bile alum or copper alum. Its physical properties are as follows:
In appearance, copper sulfate pentahydrate usually appears as a blue crystal, like a gem, crystal clear, this is due to the specific coordination environment of copper ions in the crystal structure, selective absorption of visible light, so it presents a unique blue. The crystal morphology is mostly triclinic, with a regular geometry, often in bulk or granular aggregate.
In terms of its solubility, copper sulfate pentahydrate is easily soluble in water. When dissolved, the copper ions and sulfate ions in the crystal will be uniformly dispersed in water under the action of water molecules to form a blue solution. In hot water, its solubility is higher.
From the density point of view, copper sulfate pentahydrate has a density of about 2.284g/cm ³, which is higher than that of water, so it will sink when put into water.
The melting point of copper sulfate pentahydrate is 110 ° C. When heated to this temperature, it will gradually lose its crystalline water, and the crystal color will turn from blue to white. If it continues to heat up to 650 ° C, anhydrous copper sulfate will decompose into copper oxide and sulfur trioxide.
In addition, copper sulfate pentahydrate is relatively brittle in texture and not very hard. It is easy to scratch when scratched with a hard object, which is determined by the internal structure of its crystals. It is relatively stable in dry air, but in humid environments, it may deliquesce due to absorbing more moisture.
In appearance, copper sulfate pentahydrate usually appears as a blue crystal, like a gem, crystal clear, this is due to the specific coordination environment of copper ions in the crystal structure, selective absorption of visible light, so it presents a unique blue. The crystal morphology is mostly triclinic, with a regular geometry, often in bulk or granular aggregate.
In terms of its solubility, copper sulfate pentahydrate is easily soluble in water. When dissolved, the copper ions and sulfate ions in the crystal will be uniformly dispersed in water under the action of water molecules to form a blue solution. In hot water, its solubility is higher.
From the density point of view, copper sulfate pentahydrate has a density of about 2.284g/cm ³, which is higher than that of water, so it will sink when put into water.
The melting point of copper sulfate pentahydrate is 110 ° C. When heated to this temperature, it will gradually lose its crystalline water, and the crystal color will turn from blue to white. If it continues to heat up to 650 ° C, anhydrous copper sulfate will decompose into copper oxide and sulfur trioxide.
In addition, copper sulfate pentahydrate is relatively brittle in texture and not very hard. It is easy to scratch when scratched with a hard object, which is determined by the internal structure of its crystals. It is relatively stable in dry air, but in humid environments, it may deliquesce due to absorbing more moisture.
What are the chemical properties of pentachlorothiophenol?
Copper sulfate pentahydrate, commonly known as blue alum, bile alum or copper alum, is a common copper salt. It has many unique chemical properties.
Copper sulfate pentahydrate has a blue crystal shape and is stable at room temperature and pressure, but it is easy to decompose when heated to a certain temperature. When heated to a certain temperature, it will gradually lose the crystal water. Initially, part of the crystal water is lost, and the crystal color gradually changes lightly. This process is a chemical change, forming a new substance. When the temperature continues to rise, copper sulfate pentahydrate completely loses water and becomes a white anhydrous copper sulfate powder. This property is often used to test whether the substance contains water. If white anhydrous copper sulfate touches water, it will quickly turn back to blue copper sulfate pentahydrate.
Copper sulfate pentahydrate has good solubility in water, and its aqueous solution In aqueous solution, copper sulfate pentahydrate ionizes copper ions and sulfate ions. Copper ions have certain oxidizing properties and can undergo replacement reactions with some metals. For example, when iron sheets are placed in a copper sulfate pentahydrate solution, iron will replace the copper in the solution. The red substance copper will precipitate on the surface of the iron sheet, and the color of the solution will gradually become lighter. This is because iron has stronger metal activity than copper.
Copper sulfate pentahydrate can also participate in many metathesis reactions. Because it contains sulfate ions, when encountering a solution containing barium ions, a white barium sulfate precipitate will be formed. At the same time, when copper ions encounter hydroxide ions, a blue copper hydroxide precipitate will be produced. In chemical experiments and industrial production, these reactions are often used to test the presence of sulfate ions or copper ions.
In addition, copper sulfate pentahydrate is often used as a fungicide in the agricultural field because copper ions can denature proteins, thereby inhibiting or killing bacteria and fungi, and protecting crops from disease. In the electroplating industry, copper sulfate pentahydrate is also used to provide copper ions for the electroplating solution, so that the metal surface is plated with a layer of copper to enhance the corrosion resistance and aesthetics of the metal.
Copper sulfate pentahydrate has a blue crystal shape and is stable at room temperature and pressure, but it is easy to decompose when heated to a certain temperature. When heated to a certain temperature, it will gradually lose the crystal water. Initially, part of the crystal water is lost, and the crystal color gradually changes lightly. This process is a chemical change, forming a new substance. When the temperature continues to rise, copper sulfate pentahydrate completely loses water and becomes a white anhydrous copper sulfate powder. This property is often used to test whether the substance contains water. If white anhydrous copper sulfate touches water, it will quickly turn back to blue copper sulfate pentahydrate.
Copper sulfate pentahydrate has good solubility in water, and its aqueous solution In aqueous solution, copper sulfate pentahydrate ionizes copper ions and sulfate ions. Copper ions have certain oxidizing properties and can undergo replacement reactions with some metals. For example, when iron sheets are placed in a copper sulfate pentahydrate solution, iron will replace the copper in the solution. The red substance copper will precipitate on the surface of the iron sheet, and the color of the solution will gradually become lighter. This is because iron has stronger metal activity than copper.
Copper sulfate pentahydrate can also participate in many metathesis reactions. Because it contains sulfate ions, when encountering a solution containing barium ions, a white barium sulfate precipitate will be formed. At the same time, when copper ions encounter hydroxide ions, a blue copper hydroxide precipitate will be produced. In chemical experiments and industrial production, these reactions are often used to test the presence of sulfate ions or copper ions.
In addition, copper sulfate pentahydrate is often used as a fungicide in the agricultural field because copper ions can denature proteins, thereby inhibiting or killing bacteria and fungi, and protecting crops from disease. In the electroplating industry, copper sulfate pentahydrate is also used to provide copper ions for the electroplating solution, so that the metal surface is plated with a layer of copper to enhance the corrosion resistance and aesthetics of the metal.
What are the precautions for pentachlorothiophenol in the production process?
In the process of production, all matters must be paid attention to. The first choice of raw materials must be pure. The quality of pentabon should be pure, and impurities will hinder the smooth reaction and damage the quality of the product. The same is true for cesium alum, which is clean and flawless before it can be used.
The second is the cleanliness of the utensils. The cauldron, pestle and mortar used must first be scrubbed to remove all the scale. If there is dirt, it will mix into it, or cause the reaction to go wrong, or produce variegated foreign objects, which will damage this good material.
Furthermore, the control of the fire is essential. Heating and cooling are all in accordance with the law. If the fire is fierce, the material is easy to burn, and if the fire is small, the reaction will be slow or incomplete. The initial temperature rise should be slow and uniform, so that all things gradually melt, and in one place. And in the reaction, check the heat, timely profit and loss, so that it is just right.
The method of stirring should not be ignored. Stir slowly with a pestle to make the materials mix evenly and avoid their segregation. If the fusion and dispersion are uneven, the reaction will be sequential and the product will be impure. The stirring rate, when changed with the reaction state, can be slightly slower at first, then gradually sick, and finally slightly slower, depending on the situation.
In the choice of environment, it is appropriate to choose a clean and dry place. If the moisture is heavy, the pentabon cesium alum may be moisture-disintegrated, which affects the quality. And the air is also clean, and dust and foul gas can disturb the reaction.
In addition, operators should be cautious. Familiar with all the processes, strictly abide by the procedures, and do not slack a little. Wear appropriate clothing and protective equipment to ensure your own safety and protect the material from contamination. In this way, you can get good results in the production of Cesium pentabon and become fine utensils.
The second is the cleanliness of the utensils. The cauldron, pestle and mortar used must first be scrubbed to remove all the scale. If there is dirt, it will mix into it, or cause the reaction to go wrong, or produce variegated foreign objects, which will damage this good material.
Furthermore, the control of the fire is essential. Heating and cooling are all in accordance with the law. If the fire is fierce, the material is easy to burn, and if the fire is small, the reaction will be slow or incomplete. The initial temperature rise should be slow and uniform, so that all things gradually melt, and in one place. And in the reaction, check the heat, timely profit and loss, so that it is just right.
The method of stirring should not be ignored. Stir slowly with a pestle to make the materials mix evenly and avoid their segregation. If the fusion and dispersion are uneven, the reaction will be sequential and the product will be impure. The stirring rate, when changed with the reaction state, can be slightly slower at first, then gradually sick, and finally slightly slower, depending on the situation.
In the choice of environment, it is appropriate to choose a clean and dry place. If the moisture is heavy, the pentabon cesium alum may be moisture-disintegrated, which affects the quality. And the air is also clean, and dust and foul gas can disturb the reaction.
In addition, operators should be cautious. Familiar with all the processes, strictly abide by the procedures, and do not slack a little. Wear appropriate clothing and protective equipment to ensure your own safety and protect the material from contamination. In this way, you can get good results in the production of Cesium pentabon and become fine utensils.
What are the effects of pentachlorothiophenol on the environment and human health?
Borax pentahydrate is the most common of borate minerals. Its impact on the environment and human health is discussed as follows:
At the environmental level, if borax pentahydrate is dumped into natural water bodies in large quantities, the boron content in water bodies can increase. Although boron is a micronutrient required for plant growth, excessive boron can be toxic to plants. When plants are poisoned by boron, leaf tips and leaf edges will burn, growth will be inhibited, and even wilt and die in severe cases, which will affect the structure and function of plant communities in regional ecosystems. And boron accumulates in soil, or changes soil pH and physicochemical properties, affects the activity and species of soil microorganisms, and interferes with the material cycle and energy conversion of soil ecosystems.
As for human health, an appropriate amount of boron is beneficial to the human body, which can help maintain bone health and promote metabolism. However, excessive intake of borax pentahydrate is quite harmful. Too much oral intake can easily lead to acute poisoning. Symptoms include nausea, vomiting, abdominal pain, diarrhea and other digestive system discomforts. In severe cases, it will involve the nervous system, causing headache, dizziness, fatigue, and even convulsions and coma. Long-term exposure to or intake of food and water containing excessive amounts of boron will accumulate in the body, damage the reproductive system, affect fertility, and may also increase the risk of cancer. Skin exposure to high concentrations of borax pentahydrate may cause contact dermatitis, causing symptoms such as redness, swelling, itching, and rash.
In summary, the impact of borax pentahydrate on the environment and human health depends on its dose and exposure method. When using borax pentahydrate, it is necessary to be cautious and follow relevant norms to reduce its potential harm to the environment and human health.
At the environmental level, if borax pentahydrate is dumped into natural water bodies in large quantities, the boron content in water bodies can increase. Although boron is a micronutrient required for plant growth, excessive boron can be toxic to plants. When plants are poisoned by boron, leaf tips and leaf edges will burn, growth will be inhibited, and even wilt and die in severe cases, which will affect the structure and function of plant communities in regional ecosystems. And boron accumulates in soil, or changes soil pH and physicochemical properties, affects the activity and species of soil microorganisms, and interferes with the material cycle and energy conversion of soil ecosystems.
As for human health, an appropriate amount of boron is beneficial to the human body, which can help maintain bone health and promote metabolism. However, excessive intake of borax pentahydrate is quite harmful. Too much oral intake can easily lead to acute poisoning. Symptoms include nausea, vomiting, abdominal pain, diarrhea and other digestive system discomforts. In severe cases, it will involve the nervous system, causing headache, dizziness, fatigue, and even convulsions and coma. Long-term exposure to or intake of food and water containing excessive amounts of boron will accumulate in the body, damage the reproductive system, affect fertility, and may also increase the risk of cancer. Skin exposure to high concentrations of borax pentahydrate may cause contact dermatitis, causing symptoms such as redness, swelling, itching, and rash.
In summary, the impact of borax pentahydrate on the environment and human health depends on its dose and exposure method. When using borax pentahydrate, it is necessary to be cautious and follow relevant norms to reduce its potential harm to the environment and human health.
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