Linshang Chemical
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Zinc Bis(Pentachlorobenzenethiolate)
Linshang Chemical
|
HS Code |
738141 |
| Chemical Formula | C12Cl10S2Zn |
| Molecular Weight | 632.12 g/mol |
| Appearance | Yellow - white powder |
| Odor | Characteristic sulfur - like odor |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in some organic solvents like toluene |
| Melting Point | Approx. 180 - 188 °C |
| Boiling Point | Decomposes before boiling |
| Density | Approx. 2.0 g/cm³ |
| Stability | Stable under normal conditions, but may react with strong oxidizing agents |
| Flash Point | Non - flammable solid |
| Vapor Pressure | Very low |
As an accredited Zinc Bis(Pentachlorobenzenethiolate) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 - kg pack of Zinc Bis(pentachlorobenzenethiolate) in sealed chemical - grade packaging. |
| Storage | Zinc Bis(pentachlorobenzenethiolate) should be stored in a cool, dry, well - ventilated area, away from heat sources and direct sunlight. Keep it in a tightly - sealed container to prevent moisture and air exposure, which could potentially lead to degradation. Store it separately from incompatible substances like oxidizing agents to avoid chemical reactions. |
| Shipping | Zinc Bis(pentachlorobenzenethiolate) should be shipped in tightly - sealed, corrosion - resistant containers. Ensure compliance with chemical shipping regulations, avoiding exposure to moisture, heat, and incompatible substances during transit. |
Competitive Zinc Bis(Pentachlorobenzenethiolate) 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 Zinc Bis(Pentachlorobenzenethiolate) in China?
As a trusted Zinc Bis(Pentachlorobenzenethiolate) 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 Zinc Bis(Pentachlorobenzenethiolate) 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 Zinc Bis (pentachlorobenzenethiolate)?
The main uses of zinc and bis (pentachlorobenzene mercaptan) are particularly important. The combination of the two is used in many fields.
In the field of industry, it is often used as a catalyst. In chemical reactions, it can change the rate of chemical reactions, make the reaction more likely to occur, and improve the efficiency of the reaction, helping many chemical processes to proceed smoothly. For example, in some organic synthesis reactions, zinc and bis (pentachlorobenzene mercaptan) can accurately guide the reaction direction, obtain the desired product, avoid excessive side reactions, save raw materials and increase yield.
It is also useful in the field of material protection. It can be used as an additive to protective coatings, coated on the surface of metal materials, and through its own chemical properties, form a dense protective film, which can effectively resist the erosion of metals by the external environment, such as preventing metal rust, slowing down the corrosion rate, and prolonging the service life of metal materials and their products. In the construction, machinery manufacturing and other industries, it plays a key role in the long-term stability of metal structures.
Furthermore, in the field of electronics, it also has unique contributions. In the manufacture of some electronic components, it can improve the electrical properties of materials, make the performance of electronic components more stable and efficient, and help to improve the overall performance and reliability of electronic equipment. It plays an indispensable role in fine fields such as semiconductor manufacturing.
In the field of industry, it is often used as a catalyst. In chemical reactions, it can change the rate of chemical reactions, make the reaction more likely to occur, and improve the efficiency of the reaction, helping many chemical processes to proceed smoothly. For example, in some organic synthesis reactions, zinc and bis (pentachlorobenzene mercaptan) can accurately guide the reaction direction, obtain the desired product, avoid excessive side reactions, save raw materials and increase yield.
It is also useful in the field of material protection. It can be used as an additive to protective coatings, coated on the surface of metal materials, and through its own chemical properties, form a dense protective film, which can effectively resist the erosion of metals by the external environment, such as preventing metal rust, slowing down the corrosion rate, and prolonging the service life of metal materials and their products. In the construction, machinery manufacturing and other industries, it plays a key role in the long-term stability of metal structures.
Furthermore, in the field of electronics, it also has unique contributions. In the manufacture of some electronic components, it can improve the electrical properties of materials, make the performance of electronic components more stable and efficient, and help to improve the overall performance and reliability of electronic equipment. It plays an indispensable role in fine fields such as semiconductor manufacturing.
What are the ingredients of Zinc Bis (pentachlorobenzenethiolate)
The composition of zinc and bis (pentachlorobenzene mercaptan), covering both zinc (Zn) and bis (pentachlorobenzene mercaptan). Zinc, the chemical element also, the symbol is Zn, has the characteristics of metals, is common in many chemical reactions, and is an important industrial raw material.
Bis (pentachlorobenzene mercaptan), the structure contains pentachlorobenzene mercaptan radical group, in this group, there are five chlorine atoms (Cl) on the benzene ring to replace the hydrogen atom, and the thiol group (-SH) is also connected to the benzene ring. Bis (pentachlorobenzene mercaptan) is an organic sulfur compound in which the sulfur atom can chemically interact with the zinc atom to form a coordination bond or ionic bond to form a complex between zinc and bis (pentachlorobenzene mercaptan).
In the complex, zinc ions may combine with the sulfur atom in bis (pentachlorobenzene mercaptan), and by virtue of the lone pair of electrons of the sulfur atom, they produce electrostatic attraction or coordination with zinc ions. This structure may have unique chemical and physical properties, such as in catalytic reactions, or the synergistic effect of zinc and bis (pentachlorobenzene mercaptan) can promote the progress of specific chemical reactions; in the field of materials science, it may affect the stability and conductivity of materials. The combination of zinc capsules and bis (pentachlorobenzene mercaptan) yields a variety of chemical behaviors and application potential, depending on the specific reaction conditions and environment.
Bis (pentachlorobenzene mercaptan), the structure contains pentachlorobenzene mercaptan radical group, in this group, there are five chlorine atoms (Cl) on the benzene ring to replace the hydrogen atom, and the thiol group (-SH) is also connected to the benzene ring. Bis (pentachlorobenzene mercaptan) is an organic sulfur compound in which the sulfur atom can chemically interact with the zinc atom to form a coordination bond or ionic bond to form a complex between zinc and bis (pentachlorobenzene mercaptan).
In the complex, zinc ions may combine with the sulfur atom in bis (pentachlorobenzene mercaptan), and by virtue of the lone pair of electrons of the sulfur atom, they produce electrostatic attraction or coordination with zinc ions. This structure may have unique chemical and physical properties, such as in catalytic reactions, or the synergistic effect of zinc and bis (pentachlorobenzene mercaptan) can promote the progress of specific chemical reactions; in the field of materials science, it may affect the stability and conductivity of materials. The combination of zinc capsules and bis (pentachlorobenzene mercaptan) yields a variety of chemical behaviors and application potential, depending on the specific reaction conditions and environment.
What is the impact of Zinc Bis (pentachlorobenzenethiolate) on the environment?
The combination of zinc and bis (pentachlorobenzene mercaptan) has a complex impact on the environment.
Zinc, which exists in the natural environment, can be used by organisms when appropriate, and is of great significance to the physiological functions of many organisms, such as enzyme activity, cell metabolism, etc. However, excessive zinc can cause ecological problems. It may accumulate in the soil, affect the community structure and function of soil microorganisms, change the physical and chemical properties of the soil, and then affect the absorption of nutrients by plant roots, causing plant growth to be hindered. In water, excessive zinc can cause toxicity to aquatic organisms and destroy the aquatic ecological balance.
Bis (pentachlorobenzene mercaptan), an organic compound containing chlorine, is relatively stable in nature. After entering the environment, such substances are difficult to be naturally degraded. Because of its fat solubility, it is easy to accumulate in organisms. In the food chain, after ingestion by lower organisms, it is transmitted along the food chain, and the concentration in higher organisms continues to rise, eventually posing a threat to human health. It may interfere with the endocrine system of organisms and affect important physiological processes such as reproduction and development of organisms. And it can have adverse effects on the microbial community and plant growth in soil and water environments, such as inhibiting the activity of microorganisms and hindering the germination of plant seeds and seedling growth.
When zinc and bis (pentachlorobenzene mercaptan) coexist in the environment, the two may interact. Their interaction or change the chemical form and bioavailability of each other, and then change the degree and mode of their impact on the environment. The comprehensive impact of this combination on the environment involves multiple levels such as soil, water, and biology, or triggers a series of chain reactions, posing a potential threat to the stability and health of the ecosystem.
Zinc, which exists in the natural environment, can be used by organisms when appropriate, and is of great significance to the physiological functions of many organisms, such as enzyme activity, cell metabolism, etc. However, excessive zinc can cause ecological problems. It may accumulate in the soil, affect the community structure and function of soil microorganisms, change the physical and chemical properties of the soil, and then affect the absorption of nutrients by plant roots, causing plant growth to be hindered. In water, excessive zinc can cause toxicity to aquatic organisms and destroy the aquatic ecological balance.
Bis (pentachlorobenzene mercaptan), an organic compound containing chlorine, is relatively stable in nature. After entering the environment, such substances are difficult to be naturally degraded. Because of its fat solubility, it is easy to accumulate in organisms. In the food chain, after ingestion by lower organisms, it is transmitted along the food chain, and the concentration in higher organisms continues to rise, eventually posing a threat to human health. It may interfere with the endocrine system of organisms and affect important physiological processes such as reproduction and development of organisms. And it can have adverse effects on the microbial community and plant growth in soil and water environments, such as inhibiting the activity of microorganisms and hindering the germination of plant seeds and seedling growth.
When zinc and bis (pentachlorobenzene mercaptan) coexist in the environment, the two may interact. Their interaction or change the chemical form and bioavailability of each other, and then change the degree and mode of their impact on the environment. The comprehensive impact of this combination on the environment involves multiple levels such as soil, water, and biology, or triggers a series of chain reactions, posing a potential threat to the stability and health of the ecosystem.
What is the production process of Zinc Bis (pentachlorobenzenethiolate)
The production process of zinc and bis (pentachlorobenzene mercaptan) is really a key skill in the chemical industry. The process is like an ancient craftsman carefully carving utensils, containing many delicate links.
At the beginning, pure zinc raw materials need to be selected. This is the foundation, just like good materials to create good products. For zinc, the texture is pure and there are few impurities, so this process can be entered. The preparation of bis (pentachlorobenzene mercaptan) is also crucial, and the ratio of raw materials and reaction conditions need to be precisely controlled.
As for the reaction of the two, when choosing a suitable reaction vessel, it is like building a "stage" for it. The regulation of temperature and pressure is like the rhythm of a movement, and it must not be wrong. If the temperature is too high, it may cause an overreaction and the product is impure; if the temperature is too low, the reaction will be slow and inefficient. The same is true for pressure, whether it increases or decreases, it is all related to the reaction process.
During the reaction process, the role of stirring should not be underestimated. Moderate stirring can make zinc and bis (pentachlorobenzene mercaptan) fully contact, just like dancers dancing on the stage, interacting and blending, promoting the uniform progress of the reaction and improving the quality of the product.
After the reaction is completed, the subsequent separation and purification steps, such as refining by ancient methods, remove impurities and retain essence. Or use filtration to remove its insoluble matter; or use distillation to divide its ingredients with different boiling points. Finally, a pure product can be obtained to meet the diverse needs of the industry. Although this process has undergone years of precipitation, the spirit of excellence, such as the inheritance of ancient teachings, is also shining today.
At the beginning, pure zinc raw materials need to be selected. This is the foundation, just like good materials to create good products. For zinc, the texture is pure and there are few impurities, so this process can be entered. The preparation of bis (pentachlorobenzene mercaptan) is also crucial, and the ratio of raw materials and reaction conditions need to be precisely controlled.
As for the reaction of the two, when choosing a suitable reaction vessel, it is like building a "stage" for it. The regulation of temperature and pressure is like the rhythm of a movement, and it must not be wrong. If the temperature is too high, it may cause an overreaction and the product is impure; if the temperature is too low, the reaction will be slow and inefficient. The same is true for pressure, whether it increases or decreases, it is all related to the reaction process.
During the reaction process, the role of stirring should not be underestimated. Moderate stirring can make zinc and bis (pentachlorobenzene mercaptan) fully contact, just like dancers dancing on the stage, interacting and blending, promoting the uniform progress of the reaction and improving the quality of the product.
After the reaction is completed, the subsequent separation and purification steps, such as refining by ancient methods, remove impurities and retain essence. Or use filtration to remove its insoluble matter; or use distillation to divide its ingredients with different boiling points. Finally, a pure product can be obtained to meet the diverse needs of the industry. Although this process has undergone years of precipitation, the spirit of excellence, such as the inheritance of ancient teachings, is also shining today.
What is the market price of Zinc Bis (pentachlorobenzenethiolate)
"Tiangong Kaiwu" is a scientific and technological masterpiece written by Song Yingxing in the Ming Dynasty. At that time, the study of chemical substances was not at the level of modern precision, and there was no such specific chemical "Zinc + Bis (pentachlorobenzenethiolate) ". Therefore, it is difficult to answer according to its style. However, I can guess according to the general style of the ancient Chinese saying.
Look at this "Zinc + Bis (pentachlorobenzenethiolate) ", or a compound containing zinc and a certain pentachlorobenzene mercaptan. The price of goods in the market often varies with time and place, supply and demand. If in ancient markets, such things were rare, or because they were of no great use, everyone would not know. If it is a rare product, or if there is a curious person asking for it, its price should be rare and expensive. However, because there is no practical use, the price is also difficult to be high. If this is needed for refining medicine or weapons, or for the needs of sorcerers or craftsmen, then the price is whatever they need. If there are many who need it, the price will be expensive; if there are few who need it, the price will be low. And the difficulty of its preparation and the price of the materials used are all related to its price. The preparation is difficult and the materials used are expensive, so the price sold in the city is unusually comparable. However, these are all speculative words, and it is difficult to determine the price in the city.
Look at this "Zinc + Bis (pentachlorobenzenethiolate) ", or a compound containing zinc and a certain pentachlorobenzene mercaptan. The price of goods in the market often varies with time and place, supply and demand. If in ancient markets, such things were rare, or because they were of no great use, everyone would not know. If it is a rare product, or if there is a curious person asking for it, its price should be rare and expensive. However, because there is no practical use, the price is also difficult to be high. If this is needed for refining medicine or weapons, or for the needs of sorcerers or craftsmen, then the price is whatever they need. If there are many who need it, the price will be expensive; if there are few who need it, the price will be low. And the difficulty of its preparation and the price of the materials used are all related to its price. The preparation is difficult and the materials used are expensive, so the price sold in the city is unusually comparable. However, these are all speculative words, and it is difficult to determine the price in the city.
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