Linshang Chemical
PRODUCTS
Benzenethiol, 2,3,4,5,6-Pentachloro-, Zinc Salt (1:1)
Linshang Chemical
|
HS Code |
487965 |
| Chemical Name | Benzenethiol, 2,3,4,5,6 - Pentachloro -, Zinc Salt (1:1) |
| Molecular Formula | C6Cl5SZn |
| Molar Mass | 376.82 g/mol (approximate, calculated from atomic masses) |
| Appearance | Solid (likely, based on similar metal - organosulfur compounds) |
| Solubility | Poorly soluble in water (expected due to non - polar aromatic and hydrophobic sulfur components with an ionic zinc part) |
| Odor | Pungent, sulfur - like odor (characteristic of thiol derivatives) |
| Stability | Stable under normal conditions, but may react with strong oxidizing agents |
| Hazard Class | Toxic (potential heavy metal and halogenated aromatic compound toxicity) |
As an accredited Benzenethiol, 2,3,4,5,6-Pentachloro-, Zinc Salt (1:1) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of Benzenethiol, 2,3,4,5,6 - pentachloro-, Zinc Salt (1:1) in sealed chemical - grade packaging. |
| Storage | Store 2,3,4,5,6 - pentachloro - benzenethiol zinc salt (1:1) in a cool, dry, well - ventilated area, away from heat sources and open flames. Keep it in a tightly - sealed container to prevent moisture and air exposure. Due to its potential toxicity and reactivity, store it separately from incompatible substances like oxidizing agents and acids. |
| Shipping | The shipping of 2,3,4,5,6 - pentachlorobenzenethiol zinc salt (1:1) must follow strict chemical transport regulations. It should be properly packaged to prevent leakage, with clear hazard labels, and transported by carriers licensed for such chemicals. |
Competitive Benzenethiol, 2,3,4,5,6-Pentachloro-, Zinc Salt (1:1) 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
Where to Buy Benzenethiol, 2,3,4,5,6-Pentachloro-, Zinc Salt (1:1) in China?
As a trusted Benzenethiol, 2,3,4,5,6-Pentachloro-, Zinc Salt (1:1) manufacturer, we deliver:
Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements.
Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery.
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 Benzenethiol, 2,3,4,5,6-Pentachloro-, Zinc Salt (1:1) 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 chemical properties of 2,3,4,5,6-pentachlorothiophenol zinc salt (1:1)?
Borax pentahydrate (1:1) contains two, three, four, five, and six hydrates. Its chemical properties are unique and have many characteristics.
Borax pentahydrate (1:1) is a white crystalline powder, which is quite stable at room temperature. In air, it is not easy to deliquescent, and it may lose water and decompose when it encounters hot topics. It is easily soluble in water, and can dissociate borax ions in water, which is alkaline. This alkalinity plays a key role in many chemical reactions and industrial processes.
When acids meet, borax pentahydrate (1:1) can react to form boric acid. This reaction is common and important in the field of chemical synthesis. Due to the wide range of uses of boric acid, such as glass manufacturing, ceramic production, etc., are indispensable.
Borax pentahydrate (1:1) is also wonderfully used in metal surface treatment. It can form complexes with metal ions to improve the corrosion resistance and adhesion of metal surfaces. It is often used in electroplating, coating and other processes to improve the quality of metal products.
In addition, it also contributes to the preparation of fireproof materials. When heated, borax pentahydrate (1:1) will undergo a dehydration reaction to form a glassy substance that coats the surface of the combustion material, thereby isolating oxygen and achieving flame retardant effect.
In addition, borax pentahydrate (1:1) has a certain inhibitory effect on the growth of microorganisms, so it can also be seen in some preservative formulations. In short, borax pentahydrate (1:1) plays an important role in many fields such as chemical industry, materials, and anti-corrosion due to its unique chemical properties, and is widely used and valuable.
Borax pentahydrate (1:1) is a white crystalline powder, which is quite stable at room temperature. In air, it is not easy to deliquescent, and it may lose water and decompose when it encounters hot topics. It is easily soluble in water, and can dissociate borax ions in water, which is alkaline. This alkalinity plays a key role in many chemical reactions and industrial processes.
When acids meet, borax pentahydrate (1:1) can react to form boric acid. This reaction is common and important in the field of chemical synthesis. Due to the wide range of uses of boric acid, such as glass manufacturing, ceramic production, etc., are indispensable.
Borax pentahydrate (1:1) is also wonderfully used in metal surface treatment. It can form complexes with metal ions to improve the corrosion resistance and adhesion of metal surfaces. It is often used in electroplating, coating and other processes to improve the quality of metal products.
In addition, it also contributes to the preparation of fireproof materials. When heated, borax pentahydrate (1:1) will undergo a dehydration reaction to form a glassy substance that coats the surface of the combustion material, thereby isolating oxygen and achieving flame retardant effect.
In addition, borax pentahydrate (1:1) has a certain inhibitory effect on the growth of microorganisms, so it can also be seen in some preservative formulations. In short, borax pentahydrate (1:1) plays an important role in many fields such as chemical industry, materials, and anti-corrosion due to its unique chemical properties, and is widely used and valuable.
What are the uses of 2,3,4,5,6-pentachlorothiophenol zinc salt (1:1)?
Two, three, four, five, six - copper sulfate pentahydrate (1:1), that is, bile alum, has a wide range of uses.
In the field of medical treatment, bile alum has the effect of inducing vomiting, detoxifying, and removing rot. Ancient doctors, in case of accidental ingestion of poisons, or the disease of excessive phlegm and saliva, often used an appropriate amount of bile alum as medicine, and used it to induce vomiting, so that the poison or phlegm and saliva could be discharged to relieve the patient's urgency. However, bile alum is toxic, and the dosage needs to be precisely controlled. If it is not careful, it is easy to cause poisoning. Therefore, doctors must be cautious when using it.
In industry, bile alum also plays an important role. In the electroplating industry, it can be used as an electrolyte to help the metal surface be evenly plated with a layer of other metals, improving the anti-corrosion and aesthetic properties of metal products. Taking the electroplating of copper products as an example, the bile alum solution can provide copper ions for the electroplating process to ensure a good electroplating effect. In the printing and dyeing industry, bile alum can be used as a mordant to help the dye adhere better to the fabric, making the dyeing firmer, the color more vivid, and adding color to the fabric.
In agriculture, bile alum is also indispensable. Mixing it with lime to make Bordeaux liquid is an excellent fungicide, which can effectively control many agricultural diseases, such as grape downy mildew, apple anthrax, etc. Fruit farmers often use the season and crop growth conditions to rationally prepare Bordeaux liquid and spray it in the orchard to protect the healthy growth of fruit trees and ensure the harvest of fruits.
In addition, bile alum is also a commonly used reagent in chemical experiments. Chemists often use bile alum as raw materials to carry out various chemical experiments to explore the properties and reaction laws of substances, contributing to the development of chemistry.
In the field of medical treatment, bile alum has the effect of inducing vomiting, detoxifying, and removing rot. Ancient doctors, in case of accidental ingestion of poisons, or the disease of excessive phlegm and saliva, often used an appropriate amount of bile alum as medicine, and used it to induce vomiting, so that the poison or phlegm and saliva could be discharged to relieve the patient's urgency. However, bile alum is toxic, and the dosage needs to be precisely controlled. If it is not careful, it is easy to cause poisoning. Therefore, doctors must be cautious when using it.
In industry, bile alum also plays an important role. In the electroplating industry, it can be used as an electrolyte to help the metal surface be evenly plated with a layer of other metals, improving the anti-corrosion and aesthetic properties of metal products. Taking the electroplating of copper products as an example, the bile alum solution can provide copper ions for the electroplating process to ensure a good electroplating effect. In the printing and dyeing industry, bile alum can be used as a mordant to help the dye adhere better to the fabric, making the dyeing firmer, the color more vivid, and adding color to the fabric.
In agriculture, bile alum is also indispensable. Mixing it with lime to make Bordeaux liquid is an excellent fungicide, which can effectively control many agricultural diseases, such as grape downy mildew, apple anthrax, etc. Fruit farmers often use the season and crop growth conditions to rationally prepare Bordeaux liquid and spray it in the orchard to protect the healthy growth of fruit trees and ensure the harvest of fruits.
In addition, bile alum is also a commonly used reagent in chemical experiments. Chemists often use bile alum as raw materials to carry out various chemical experiments to explore the properties and reaction laws of substances, contributing to the development of chemistry.
What is the production method of 2,3,4,5,6-pentachlorothiophenol zinc salt (1:1)?
The method of making brasite pentahydrate (1:1) needs to be based on the raw materials of No. 2, 3, 4, 5 and 6. First, choose high-quality borite, clean it and crush it, and obtain ore powder with uniform particle size to facilitate subsequent reactions.
times, in a special reactor, add boron powder, magnesium source (such as magnesium-containing compounds) and appropriate additives in a precise ratio. Control the temperature in a suitable range, such as [specific temperature range], to promote the full reaction of the two. This process requires time [duration range], during which the reaction is constantly stirred to ensure uniform reaction.
Furthermore, after the reaction is completed, the product is moved to a separation device, and the solid liquid is separated by filtration and centrifugation to obtain a solid phase rich in brasite pentahydrate.
Then, the solid phase is washed to remove impurities, washed with pure water several times, and then centrifuged and dehydrated to reduce its water content.
At the end, the washed and dehydrated product is dried at controlled temperature in the drying room until the water content reaches the standard to obtain a pure borax brasite pentahydrate (1:1) product. During the process, the temperature, time, ratio and other parameters of each link need to be precisely controlled. A slight difference in the pool will affect the purity and quality of the product. This is the main method for making borax brasite pentahydrate (1:1).
times, in a special reactor, add boron powder, magnesium source (such as magnesium-containing compounds) and appropriate additives in a precise ratio. Control the temperature in a suitable range, such as [specific temperature range], to promote the full reaction of the two. This process requires time [duration range], during which the reaction is constantly stirred to ensure uniform reaction.
Furthermore, after the reaction is completed, the product is moved to a separation device, and the solid liquid is separated by filtration and centrifugation to obtain a solid phase rich in brasite pentahydrate.
Then, the solid phase is washed to remove impurities, washed with pure water several times, and then centrifuged and dehydrated to reduce its water content.
At the end, the washed and dehydrated product is dried at controlled temperature in the drying room until the water content reaches the standard to obtain a pure borax brasite pentahydrate (1:1) product. During the process, the temperature, time, ratio and other parameters of each link need to be precisely controlled. A slight difference in the pool will affect the purity and quality of the product. This is the main method for making borax brasite pentahydrate (1:1).
2, 3, 4, 5, 6 - Pentachlorothiophenol Zinc Salt (1:1) What are the precautions in storage and transportation?
In the case of pentahalosilicic acid (1:1), in the process of storage, it is necessary to pay attention to the matter, and it needs to be explained.
The first word is to be stored. This material is suitable for use in a dry place. If it is in a tidal environment, it may cause the material to be invaded by water and dissolve. Water or can cause the composition of the material to change and reverse, causing its properties to change and the product to decline. And where it is stored, the degree is also appropriate, and it cannot be high or low. High degree, or the decomposition and loss of the components of the material; low degree, may make the material brittle and easily broken.
In addition, if it exists, it also needs to be isolated from the fire source. This material may contain some chemical components, and it can ignite or explode in case of fire, and become large. And to avoid the mixing of other chemical substances, in order to prevent mutual damage and adverse reactions.
Until then, the tools must be cleaned and dry, so as to ensure that the materials are not contaminated. When it is too late, it must be unloaded, and it must not be roughly moved to avoid the broken and scattered materials. On the way, it is necessary to be close to the environment, such as the temperature and temperature. If there is any problem, it should be dealt with immediately.
It should also be noted that in the process, it is necessary to fix the density of the package of the material. In this way, it can prevent the material from being damaged due to vibration and collision on the way, and it can also avoid the leakage of the material, which will cause harm to the environment. Moreover, in the storage of pentahalosilicic acid (1:1), it is necessary to be careful and cannot be ignored.
The first word is to be stored. This material is suitable for use in a dry place. If it is in a tidal environment, it may cause the material to be invaded by water and dissolve. Water or can cause the composition of the material to change and reverse, causing its properties to change and the product to decline. And where it is stored, the degree is also appropriate, and it cannot be high or low. High degree, or the decomposition and loss of the components of the material; low degree, may make the material brittle and easily broken.
In addition, if it exists, it also needs to be isolated from the fire source. This material may contain some chemical components, and it can ignite or explode in case of fire, and become large. And to avoid the mixing of other chemical substances, in order to prevent mutual damage and adverse reactions.
Until then, the tools must be cleaned and dry, so as to ensure that the materials are not contaminated. When it is too late, it must be unloaded, and it must not be roughly moved to avoid the broken and scattered materials. On the way, it is necessary to be close to the environment, such as the temperature and temperature. If there is any problem, it should be dealt with immediately.
It should also be noted that in the process, it is necessary to fix the density of the package of the material. In this way, it can prevent the material from being damaged due to vibration and collision on the way, and it can also avoid the leakage of the material, which will cause harm to the environment. Moreover, in the storage of pentahalosilicic acid (1:1), it is necessary to be careful and cannot be ignored.
What are the effects of 2,3,4,5,6-pentachlorothiophenol zinc salt (1:1) on the environment and human health?
The impact of borax pentahydrate (1:1) on the environment and human health is a matter of great importance.
At the environmental end, if borax pentahydrate escapes into natural water bodies, if the amount is large, it can cause water quality to change. Water is the foundation of all life, and aquatic organisms bear the brunt of water quality changes. Or cause algae and other plankton to grow wildly, destroying the ecological balance of water bodies, and aquatic animals such as fish may die due to lack of oxygen, causing the collapse of the water ecological chain. And the accumulation of borax in the soil will also affect the soil quality, hinder the uptake of nutrients by plant roots, cause poor plant growth, and reduce farmland production.
As for human health, the harm of borax pentahydrate to human body should not be underestimated. If a person inhales borax-containing dust through the respiratory tract, it can irritate the respiratory tract, causing cough, asthma and other diseases. If it comes into contact with the skin, it may cause allergies, itching, redness and swelling. The most terrifying person, if they accidentally eat borax pentahydrate and borax enters the body, it can interfere with the normal metabolism of the human body. Under the action of stomach acid, borax can be converted into boric acid, which accumulates in the body and damages the digestive system and nervous system of the human body. Digestive system invasion, or nausea, vomiting, abdominal pain, diarrhea and other diseases; nervous system involvement, can cause headache, dizziness, fatigue, and even convulsions and coma. Therefore, although borax pentahydrate has its uses in industrial and other fields, the potential harm to the environment and human health must not be taken lightly. It must be used with caution to prevent its escape, so as to ensure the safety of the environment and personal health.
At the environmental end, if borax pentahydrate escapes into natural water bodies, if the amount is large, it can cause water quality to change. Water is the foundation of all life, and aquatic organisms bear the brunt of water quality changes. Or cause algae and other plankton to grow wildly, destroying the ecological balance of water bodies, and aquatic animals such as fish may die due to lack of oxygen, causing the collapse of the water ecological chain. And the accumulation of borax in the soil will also affect the soil quality, hinder the uptake of nutrients by plant roots, cause poor plant growth, and reduce farmland production.
As for human health, the harm of borax pentahydrate to human body should not be underestimated. If a person inhales borax-containing dust through the respiratory tract, it can irritate the respiratory tract, causing cough, asthma and other diseases. If it comes into contact with the skin, it may cause allergies, itching, redness and swelling. The most terrifying person, if they accidentally eat borax pentahydrate and borax enters the body, it can interfere with the normal metabolism of the human body. Under the action of stomach acid, borax can be converted into boric acid, which accumulates in the body and damages the digestive system and nervous system of the human body. Digestive system invasion, or nausea, vomiting, abdominal pain, diarrhea and other diseases; nervous system involvement, can cause headache, dizziness, fatigue, and even convulsions and coma. Therefore, although borax pentahydrate has its uses in industrial and other fields, the potential harm to the environment and human health must not be taken lightly. It must be used with caution to prevent its escape, so as to ensure the safety of the environment and personal health.
Scan to WhatsApp
