Linshang Chemical
PRODUCTS
2-Chlorobenzenemethanethiol
Linshang Chemical
|
HS Code |
496557 |
| Chemical Formula | C7H7ClS |
| Molar Mass | 158.65 g/mol |
| Appearance | Typically a colorless to light - yellow liquid |
| Odor | Strong, unpleasant sulfur - containing odor |
| Density | Approx. 1.22 g/cm³ |
| Boiling Point | Around 225 - 227 °C |
| Solubility In Water | Insoluble in water |
| Solubility In Organic Solvents | Soluble in common organic solvents like ethanol, ether, etc. |
| Flash Point | Approx. 93 °C |
| Stability | Stable under normal conditions, but may react with strong oxidizing agents |
As an accredited 2-Chlorobenzenemethanethiol factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 100g of 2 - chlorobenzenemethanethiol packaged in a sealed, chemical - resistant bottle. |
| Storage | 2 - Chlorobenzenemethanethiol should be stored in a cool, well - ventilated area, away from heat and ignition sources due to its potential flammability. Keep it in a tightly closed container, preferably made of materials resistant to corrosion. Store separately from oxidizing agents and incompatible substances to prevent dangerous reactions. Label the storage container clearly for easy identification and safety. |
| Shipping | 2 - Chlorobenzenemethanethiol is shipped in specialized, well - sealed containers to prevent leakage. Shipment follows strict hazardous chemical regulations, ensuring proper handling, storage, and transportation to avoid environmental and safety risks. |
Competitive 2-Chlorobenzenemethanethiol 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 2-Chlorobenzenemethanethiol in China?
As a trusted 2-Chlorobenzenemethanethiol 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 2-Chlorobenzenemethanethiol 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 2-chlorobenzyl mercaptan?
2-% silica carbonic acid is a kind of chemical compound, which has several physical properties. This compound is often solid, white in color, like the snow in winter, in shape or powder, such as, soft can be; or crystal, with clear angles and shining light.
Its density is special. Compared with water, it is slightly thick, so when thrown into water, it is like a stone sinking, straight down. And the melting temperature is high, and a high temperature needs to be applied, so that the solid material can be turned into a flowing liquid, such as a stone.
Furthermore, 2% silica-carbonic acid is soluble in water, just like the mutual exclusion of oil and water. It does not melt when it enters water, and still retains its own shape. However, in an acidic solution, it is like ice in a warm day, and it dissolves, accompanied by the escape of bubbles. It is like hiding the essence in it and breaking out. This is a sign of the reaction of its acid and biochemistry.
In addition, its powder is scattered in the ground, and it is easy to flow. If the sand is in hand, it is easy to disperse. Under the crystal, it has a certain hardness and can withstand a certain external force without being easily broken. It is like a fortress that is solid and resists the invasion of the outside world.
Therefore, the physical properties of 2-% silicon methylcarbonic acid make it useful in many fields, or as a solid foundation for building materials, or as an important raw material for chemical production, because of its characteristics.
Its density is special. Compared with water, it is slightly thick, so when thrown into water, it is like a stone sinking, straight down. And the melting temperature is high, and a high temperature needs to be applied, so that the solid material can be turned into a flowing liquid, such as a stone.
Furthermore, 2% silica-carbonic acid is soluble in water, just like the mutual exclusion of oil and water. It does not melt when it enters water, and still retains its own shape. However, in an acidic solution, it is like ice in a warm day, and it dissolves, accompanied by the escape of bubbles. It is like hiding the essence in it and breaking out. This is a sign of the reaction of its acid and biochemistry.
In addition, its powder is scattered in the ground, and it is easy to flow. If the sand is in hand, it is easy to disperse. Under the crystal, it has a certain hardness and can withstand a certain external force without being easily broken. It is like a fortress that is solid and resists the invasion of the outside world.
Therefore, the physical properties of 2-% silicon methylcarbonic acid make it useful in many fields, or as a solid foundation for building materials, or as an important raw material for chemical production, because of its characteristics.
What are the chemical properties of 2-chlorobenzyl mercaptan?
2-% fluoroacetic acid is a fluorine-containing compound, and its chemical properties are particularly high.
First, it is acidic. 2-% fluoroacetic acid can be partially high in water, and it is acidic. This acidic property makes it possible to generate neutralization and reaction. In case of oxidation, it can generate phase water. The reverse formula is: 2-% fluoroacetic acid + oxidation → 2-% fluoroacetic acid + water.
In addition, it is low-quality. Because of its high-quality, it can produce 2-% fluoroacetic acid in water. This property makes it possible to generate multiple reaction. In case of nitric acid solution, if 2-% fluoroacetic acid can generate a soluble precipitate, it will generate a precipitation reaction. However, it depends on the solubility of 2-% fluoroacetic acid.
In addition, because of the fluorine atom, the molecule has a special activity and physical properties. The properties of fluorine atoms are low, and they can affect the physical properties of molecules, such as boiling. In the reaction, the fluorine-containing part may be highly reactive, or affect the rate of molecular reaction.
Because of its acid properties, it may play a certain role in the synthesis of molecules. It can be used as a catalyst or a catalyst for a reaction. However, it is toxic to a certain extent, so you must pay attention to safety when using it and follow the appropriate operating procedures.
First, it is acidic. 2-% fluoroacetic acid can be partially high in water, and it is acidic. This acidic property makes it possible to generate neutralization and reaction. In case of oxidation, it can generate phase water. The reverse formula is: 2-% fluoroacetic acid + oxidation → 2-% fluoroacetic acid + water.
In addition, it is low-quality. Because of its high-quality, it can produce 2-% fluoroacetic acid in water. This property makes it possible to generate multiple reaction. In case of nitric acid solution, if 2-% fluoroacetic acid can generate a soluble precipitate, it will generate a precipitation reaction. However, it depends on the solubility of 2-% fluoroacetic acid.
In addition, because of the fluorine atom, the molecule has a special activity and physical properties. The properties of fluorine atoms are low, and they can affect the physical properties of molecules, such as boiling. In the reaction, the fluorine-containing part may be highly reactive, or affect the rate of molecular reaction.
Because of its acid properties, it may play a certain role in the synthesis of molecules. It can be used as a catalyst or a catalyst for a reaction. However, it is toxic to a certain extent, so you must pay attention to safety when using it and follow the appropriate operating procedures.
What are the main uses of 2-chlorobenzyl mercaptan?
2-% silicoethyl carbonate has a wide range of main uses. This compound plays an important role in many fields, such as engineering, research and materials science.
In the field of engineering, 2-% silicoethyl carbonate is often used as an important part of chemical synthesis. With its unique chemical properties, many compounds with special properties can be derived from polymers. For example, in the production of some refined chemical products, this raw material can be skillfully processed to obtain refined and high-performance products, which can meet the needs of different industries for specialized products.
In the field of research, 2-% silicoethyl carbonate also exhibits the same power. It can be used for the construction of molecular materials. Due to its unique properties, it can introduce specific functionalities or elements into the molecule, which is important for the solubility, characterization and biological activity of the whole product. With the help of this compound, researchers can carefully carve out new products with more efficiency and lower side effects, and add more and more.
In the field of materials science, 2-% silicon ethyl carbonate plays an indispensable role. In the research of new polymer materials, it can be used for polymerization or modification. Generally, it can be used rationally and can effectively improve the mechanical properties, qualitative properties and chemical corrosion resistance of polymer materials. For example, in the development of some high-performance engineering plastics, the addition of 2% silethyl carbonate can greatly improve the performance of plastics, making it widely used in high-tech industries such as aerospace and automotive manufacturing.
Of course, 2% silethyl carbonate has a place in many cutting-edge technology fields today, providing strong support for all walks of life.
In the field of engineering, 2-% silicoethyl carbonate is often used as an important part of chemical synthesis. With its unique chemical properties, many compounds with special properties can be derived from polymers. For example, in the production of some refined chemical products, this raw material can be skillfully processed to obtain refined and high-performance products, which can meet the needs of different industries for specialized products.
In the field of research, 2-% silicoethyl carbonate also exhibits the same power. It can be used for the construction of molecular materials. Due to its unique properties, it can introduce specific functionalities or elements into the molecule, which is important for the solubility, characterization and biological activity of the whole product. With the help of this compound, researchers can carefully carve out new products with more efficiency and lower side effects, and add more and more.
In the field of materials science, 2-% silicon ethyl carbonate plays an indispensable role. In the research of new polymer materials, it can be used for polymerization or modification. Generally, it can be used rationally and can effectively improve the mechanical properties, qualitative properties and chemical corrosion resistance of polymer materials. For example, in the development of some high-performance engineering plastics, the addition of 2% silethyl carbonate can greatly improve the performance of plastics, making it widely used in high-tech industries such as aerospace and automotive manufacturing.
Of course, 2% silethyl carbonate has a place in many cutting-edge technology fields today, providing strong support for all walks of life.
What are the precautions for the production of 2-chlorobenzyl mercaptan?
In the process of nitrate of 2-ethyl cyanosilicate, we should pay attention to the general matters. First of all, the quality of the raw materials is of paramount importance. If you want to obtain a good quality product, you must start with high-quality ethyl silicate, cyanide, etc. If the raw material contains high-quality, it may cause adverse reactions, and the product is also suitable for the desired quality.
Second time, the reaction should be precisely controlled. The degree is one of the important things. This reaction has its own specific degree of resistance, high degree of resistance, or the speed of reaction is controlled, resulting in the production of side reactions; if the degree is low, the reaction is low, and the consumption rate is not high. Furthermore, the force should not be ignored.
Furthermore, the reverse effect should also be carefully considered. If the reverse effect is not appropriate, the raw materials may not be fully reduced, resulting in a low yield. If the reverse effect lasts for a long time, it will not consume energy, and it may cause the reverse effect to be generated twice, and the quality will be reduced.
In addition, the material of the reverse effect container has also been studied. It is necessary to prevent its non-reverse effect on the chemical effect, so as not to pollute the chemical or affect the chemical balance of the reverse effect. And the container should have good sealing performance to prevent the escape of the reverse effect, so as to ensure the efficiency of the reverse effect and the safety of the environment.
The operator is also affected by the work. Familiar with the principle, process and various precautions of anti-work, in order to be able to operate easily, and in case of emergencies, it can also be properly handled, so as to save the life.
Second time, the reaction should be precisely controlled. The degree is one of the important things. This reaction has its own specific degree of resistance, high degree of resistance, or the speed of reaction is controlled, resulting in the production of side reactions; if the degree is low, the reaction is low, and the consumption rate is not high. Furthermore, the force should not be ignored.
Furthermore, the reverse effect should also be carefully considered. If the reverse effect is not appropriate, the raw materials may not be fully reduced, resulting in a low yield. If the reverse effect lasts for a long time, it will not consume energy, and it may cause the reverse effect to be generated twice, and the quality will be reduced.
In addition, the material of the reverse effect container has also been studied. It is necessary to prevent its non-reverse effect on the chemical effect, so as not to pollute the chemical or affect the chemical balance of the reverse effect. And the container should have good sealing performance to prevent the escape of the reverse effect, so as to ensure the efficiency of the reverse effect and the safety of the environment.
The operator is also affected by the work. Familiar with the principle, process and various precautions of anti-work, in order to be able to operate easily, and in case of emergencies, it can also be properly handled, so as to save the life.
What are the effects of 2-chlorobenzyl mercaptan on the environment?
2-% chlorofluoroalkyl phosphate, which is the key to environmental impact.
2-% chlorofluoroalkyl phosphate has considerable chemical stability and surface activity characteristics. It is difficult to degrade in the environment and can be retained for a long time. Due to its lipophilicity, it is easy to accumulate in organisms, pass through the food chain, and enrich, threatening the health of organisms.
In the aquatic environment, 2-% chloroalkyl phosphate can cause abnormal behavior and physiological functions of aquatic organisms. If it interferes with the nervous system of fish, it affects its swimming posture, predation and ability to avoid natural enemies; it also inhibits the growth and reproduction of plankton, which is the basis of aquatic ecology, and its impact will affect the balance of the entire aquatic ecosystem.
In the soil environment, it will change the soil physicochemical properties and affect the structure and function of soil microbial community. Soil microorganisms are crucial to material circulation and nutrient transformation in soil, and their disturbance will hinder the normal operation of soil ecosystems, thereby affecting plant growth.
In the atmospheric environment, 2% fluoroalkyl phosphate can be transported to a distance with atmospheric circulation, expanding its pollution range. Some of them can return to the ground through dry and wet deposition, further polluting soil and water bodies.
In addition, the degradation products of 2% fluoroalkyl phosphate may be more toxic and bioaccumulative than the parent, adding more latent risks to the environment. Therefore, close attention should be paid to the environmental impact of 2% chlorofluoroalkyl phosphate, and effective prevention and control strategies should be explored to protect the health and safety of the ecological environment.
2-% chlorofluoroalkyl phosphate has considerable chemical stability and surface activity characteristics. It is difficult to degrade in the environment and can be retained for a long time. Due to its lipophilicity, it is easy to accumulate in organisms, pass through the food chain, and enrich, threatening the health of organisms.
In the aquatic environment, 2-% chloroalkyl phosphate can cause abnormal behavior and physiological functions of aquatic organisms. If it interferes with the nervous system of fish, it affects its swimming posture, predation and ability to avoid natural enemies; it also inhibits the growth and reproduction of plankton, which is the basis of aquatic ecology, and its impact will affect the balance of the entire aquatic ecosystem.
In the soil environment, it will change the soil physicochemical properties and affect the structure and function of soil microbial community. Soil microorganisms are crucial to material circulation and nutrient transformation in soil, and their disturbance will hinder the normal operation of soil ecosystems, thereby affecting plant growth.
In the atmospheric environment, 2% fluoroalkyl phosphate can be transported to a distance with atmospheric circulation, expanding its pollution range. Some of them can return to the ground through dry and wet deposition, further polluting soil and water bodies.
In addition, the degradation products of 2% fluoroalkyl phosphate may be more toxic and bioaccumulative than the parent, adding more latent risks to the environment. Therefore, close attention should be paid to the environmental impact of 2% chlorofluoroalkyl phosphate, and effective prevention and control strategies should be explored to protect the health and safety of the ecological environment.
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