Linshang Chemical
PRODUCTS
[(Chloromethyl)Thio]Benzene
Linshang Chemical
|
HS Code |
396483 |
| Chemical Formula | C7H7ClS |
| Molar Mass | 158.65 g/mol |
| Appearance | Colorless to light - yellow liquid |
| Odor | Pungent sulfur - like odor |
| Density | 1.22 g/cm³ (approximate) |
| Boiling Point | 234 - 236 °C |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in many organic solvents like ethanol, ether, benzene |
| Flash Point | 99 °C (closed cup, approximate) |
| Vapor Pressure | Low vapor pressure at room temperature |
As an accredited [(Chloromethyl)Thio]Benzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 500g of [(chloromethyl)thio]benzene packaged in a sealed, corrosion - resistant bottle. |
| Storage | [(Chloromethyl)thio]benzene should be stored in a cool, dry, well - ventilated area, away from heat, sparks, and open flames as it is likely flammable. Keep it in a tightly sealed container to prevent leakage and exposure to air or moisture, which could potentially cause reactions. Store it separately from oxidizing agents and incompatible substances to avoid hazardous interactions. |
| Shipping | [(Chloromethyl)thio]benzene is shipped in tightly - sealed, corrosion - resistant containers. Shipment follows strict chemical transport regulations, ensuring proper handling to prevent leakage and environmental or safety hazards. |
Competitive [(Chloromethyl)Thio]Benzene 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
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Where to Buy [(Chloromethyl)Thio]Benzene in China?
As a trusted [(Chloromethyl)Thio]Benzene 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 [(Chloromethyl)Thio]Benzene 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 [ (chloromethyl) thio] benzene?
(Cyanomethyl) benzyl ethers have a wide range of main uses. In the genus of "Tiangongkai", although this substance is not directly described, it can be deduced from similar reasons.
In the field of chemical industry, (cyanomethyl) benzyl ethers are often intermediaries in organic synthesis. It can be combined with other compounds through chemical reactions to produce a variety of organic products. For example, in the pharmaceutical industry, it may be a key raw material for the preparation of special drug molecules. Due to the special structure of cyanyl and benzyl, it can endow the prepared drug with specific activities and properties, helping it achieve specific pharmacological effects, or increasing the stability and solubility of the drug.
In the field of materials science, (cyanomethyl) benzyl ether can also be used. After specific polymerization reactions, it may participate in the construction of the structure of new polymer materials. These materials may have unique physical and chemical properties, such as good mechanical properties, thermal stability or chemical resistance, and can be used as special-purpose materials in aerospace, electronic equipment and other fields.
In addition, in the preparation of fine chemicals, (cyanomethyl) benzyl ether can be used as an important reaction intermediate. By introducing specific functional groups, the products have special functions and uses. For example, in the synthesis of fine chemicals such as fragrances and dyes, the clever use of (cyanomethyl) benzyl ether can produce products with unique aroma or color to meet the diverse needs of the market.
In short, although (cyanomethyl) benzyl ether has not been detailed in ancient books, it has shown its indispensable value in today's chemical, pharmaceutical, materials and other fields, contributing greatly to the development of various industries.
In the field of chemical industry, (cyanomethyl) benzyl ethers are often intermediaries in organic synthesis. It can be combined with other compounds through chemical reactions to produce a variety of organic products. For example, in the pharmaceutical industry, it may be a key raw material for the preparation of special drug molecules. Due to the special structure of cyanyl and benzyl, it can endow the prepared drug with specific activities and properties, helping it achieve specific pharmacological effects, or increasing the stability and solubility of the drug.
In the field of materials science, (cyanomethyl) benzyl ether can also be used. After specific polymerization reactions, it may participate in the construction of the structure of new polymer materials. These materials may have unique physical and chemical properties, such as good mechanical properties, thermal stability or chemical resistance, and can be used as special-purpose materials in aerospace, electronic equipment and other fields.
In addition, in the preparation of fine chemicals, (cyanomethyl) benzyl ether can be used as an important reaction intermediate. By introducing specific functional groups, the products have special functions and uses. For example, in the synthesis of fine chemicals such as fragrances and dyes, the clever use of (cyanomethyl) benzyl ether can produce products with unique aroma or color to meet the diverse needs of the market.
In short, although (cyanomethyl) benzyl ether has not been detailed in ancient books, it has shown its indispensable value in today's chemical, pharmaceutical, materials and other fields, contributing greatly to the development of various industries.
What are the physical properties of [ (chloromethyl) thio] benzene?
The physical properties of (cyanomethyl) benzyl ethers are particularly important and are related to various chemical and pharmaceutical applications. In ancient Chinese, their physical properties are as follows:
(cyanomethyl) benzyl ethers, at room temperature, are mostly colorless and transparent, as clear as a liquid. Its appearance is like pure water without impurities, and the texture is uniform and soft, without the appearance of turbidity. Looking at its state, it is a flowing liquid with moderate fluidity, non-sticky and stagnant, like a mountain spring, flowing with the flow, without hindrance.
Smell its gas, it has a weak special smell, not a pungent and unpleasant smell, nor a fragrant fragrance. However, if you smell it carefully, you can feel its unique smell. Although it is not strong, it can also be identified by the sense of smell.
As for its boiling point, it is in a normal pressure environment and is about a certain temperature range. When heated to this point, the liquid changes from the liquid phase to the gas phase and undergoes gasification. The value of its boiling point is an important physical constant of the substance, which is related to its separation and purification processes.
The melting point is also a key physical property. Under specific low temperature conditions, this substance gradually solidifies from a liquid state to a solid state. The exact value of its melting point is a characterization of material properties, which can help to identify its purity and authenticity.
Furthermore, the density of (cyanomethyl) benzyl ether is slightly different from that of water. Place it in one place with water, or float on water, or sink in water, depending on the comparison of its density with water. This property has an impact on the process of liquid-liquid separation and mixing.
In terms of solubility, (cyanomethyl) benzyl ether has good solubility in organic solvents, such as alcohols, ethers, hydrocarbons, etc. It can be miscible with various organic solvents to form a uniform solution. However, in water, its solubility is rather limited, or only slightly soluble, or even insoluble, which also determines its application scope and behavior in different media.
(cyanomethyl) benzyl ethers, at room temperature, are mostly colorless and transparent, as clear as a liquid. Its appearance is like pure water without impurities, and the texture is uniform and soft, without the appearance of turbidity. Looking at its state, it is a flowing liquid with moderate fluidity, non-sticky and stagnant, like a mountain spring, flowing with the flow, without hindrance.
Smell its gas, it has a weak special smell, not a pungent and unpleasant smell, nor a fragrant fragrance. However, if you smell it carefully, you can feel its unique smell. Although it is not strong, it can also be identified by the sense of smell.
As for its boiling point, it is in a normal pressure environment and is about a certain temperature range. When heated to this point, the liquid changes from the liquid phase to the gas phase and undergoes gasification. The value of its boiling point is an important physical constant of the substance, which is related to its separation and purification processes.
The melting point is also a key physical property. Under specific low temperature conditions, this substance gradually solidifies from a liquid state to a solid state. The exact value of its melting point is a characterization of material properties, which can help to identify its purity and authenticity.
Furthermore, the density of (cyanomethyl) benzyl ether is slightly different from that of water. Place it in one place with water, or float on water, or sink in water, depending on the comparison of its density with water. This property has an impact on the process of liquid-liquid separation and mixing.
In terms of solubility, (cyanomethyl) benzyl ether has good solubility in organic solvents, such as alcohols, ethers, hydrocarbons, etc. It can be miscible with various organic solvents to form a uniform solution. However, in water, its solubility is rather limited, or only slightly soluble, or even insoluble, which also determines its application scope and behavior in different media.
Is the chemical property of [ (chloromethyl) thio] benzene stable?
(Cyanomethyl) benzyl ether, its chemical properties are still stable at room temperature. In this compound, the structure of cyanyl and benzyl ether affects each other, resulting in its unique properties.
Cyanyl has a certain electronic effect, which can change the electron cloud distribution of the molecule. The benzyl ether part, the conjugate system of the benzyl ring also contributes to the overall stability. The combination of the two can maintain relative stability in common chemical environments.
However, if it encounters specific conditions, its stability will also change. In case of strong heat or contact with specific chemical reagents, its chemical bonds may be broken. Under strong heat, the energy in the molecule increases, the vibration of the chemical bond intensifies, or the bond between the cyanyl group and the benzyl ether is broken. In case of strong oxidizing or highly reducing reagents, chemical reactions may also be triggered, causing changes in its chemical properties.
In general storage and operating environments, the chemical properties of (cyanomethyl) benzyl ethers can be said to be stable without extreme conditions. However, in chemical production, experimental operations and other scenarios, it is still necessary to pay attention to the special conditions that may be encountered to prevent unexpected situations due to changes in conditions, resulting in abnormal chemical properties. Be sure to abide by the operating specifications and properly handle this compound to ensure safety and smooth experimentation and production.
Cyanyl has a certain electronic effect, which can change the electron cloud distribution of the molecule. The benzyl ether part, the conjugate system of the benzyl ring also contributes to the overall stability. The combination of the two can maintain relative stability in common chemical environments.
However, if it encounters specific conditions, its stability will also change. In case of strong heat or contact with specific chemical reagents, its chemical bonds may be broken. Under strong heat, the energy in the molecule increases, the vibration of the chemical bond intensifies, or the bond between the cyanyl group and the benzyl ether is broken. In case of strong oxidizing or highly reducing reagents, chemical reactions may also be triggered, causing changes in its chemical properties.
In general storage and operating environments, the chemical properties of (cyanomethyl) benzyl ethers can be said to be stable without extreme conditions. However, in chemical production, experimental operations and other scenarios, it is still necessary to pay attention to the special conditions that may be encountered to prevent unexpected situations due to changes in conditions, resulting in abnormal chemical properties. Be sure to abide by the operating specifications and properly handle this compound to ensure safety and smooth experimentation and production.
What are the precautions for [ (chloromethyl) thio] benzene in the production process?
In the production process of (cyanomethyl) benzylnitrile, many matters must be paid attention to.
Quality of the first raw material. The purity of both cyanomethyl and benzylnitrile is crucial. If the raw material is impure and impurities are mixed in, it may cause the reaction to err and affect the quality and quantity of the product. For example, if impurities participate in the reaction or form side products, it will make subsequent separation and purification difficult, which will only increase the cost and also damage the quality of the product.
Times and reaction conditions. Temperature, pressure, catalyst and other factors have a profound impact on the reaction. Too high or too low temperature is not suitable. If it is too high, the reaction will be too fast, or it will go out of control, which is dangerous for safety, and may cause side reactions; if it is too low, the reaction will be slow, time-consuming, and inefficient. The same is true for pressure, which must be precisely controlled to meet the needs of the reaction. The choice and dosage of catalyst are related to the reaction rate and selectivity. It should be carefully selected and accurately measured to promote the efficient and directional reaction.
Another is safety protection. Cyanomethyl is toxic, and protection must be comprehensive during operation. The workshop must be well ventilated to prevent the accumulation of toxic gases. Operators should wear professional protective equipment, such as gas masks, protective clothing, etc., to avoid toxic substances. At the same time, waste should also be properly disposed of, follow environmental protection regulations, and should not be discharged at will to prevent environmental pollution.
In addition, equipment maintenance should not be ignored. Reaction devices, pipelines and other facilities must be regularly inspected and maintained. If the equipment leaks, not only material loss, but also potential safety hazards. And good equipment condition helps to stabilize the reaction and ensure the continuity and stability of production.
In short, in the production process of (cyanomethyl) benzylnitrile, raw materials, reaction conditions, safety protection and equipment maintenance need to be carefully controlled to ensure smooth production and produce high-quality products.
Quality of the first raw material. The purity of both cyanomethyl and benzylnitrile is crucial. If the raw material is impure and impurities are mixed in, it may cause the reaction to err and affect the quality and quantity of the product. For example, if impurities participate in the reaction or form side products, it will make subsequent separation and purification difficult, which will only increase the cost and also damage the quality of the product.
Times and reaction conditions. Temperature, pressure, catalyst and other factors have a profound impact on the reaction. Too high or too low temperature is not suitable. If it is too high, the reaction will be too fast, or it will go out of control, which is dangerous for safety, and may cause side reactions; if it is too low, the reaction will be slow, time-consuming, and inefficient. The same is true for pressure, which must be precisely controlled to meet the needs of the reaction. The choice and dosage of catalyst are related to the reaction rate and selectivity. It should be carefully selected and accurately measured to promote the efficient and directional reaction.
Another is safety protection. Cyanomethyl is toxic, and protection must be comprehensive during operation. The workshop must be well ventilated to prevent the accumulation of toxic gases. Operators should wear professional protective equipment, such as gas masks, protective clothing, etc., to avoid toxic substances. At the same time, waste should also be properly disposed of, follow environmental protection regulations, and should not be discharged at will to prevent environmental pollution.
In addition, equipment maintenance should not be ignored. Reaction devices, pipelines and other facilities must be regularly inspected and maintained. If the equipment leaks, not only material loss, but also potential safety hazards. And good equipment condition helps to stabilize the reaction and ensure the continuity and stability of production.
In short, in the production process of (cyanomethyl) benzylnitrile, raw materials, reaction conditions, safety protection and equipment maintenance need to be carefully controlled to ensure smooth production and produce high-quality products.
What are the effects of [ (chloromethyl) thio] benzene on the environment?
The impact of (cyanomethyl) benzyl ether on the environment is an important matter to be investigated.
The cyanyl group in (cyanomethyl) benzyl ether is highly toxic. If it escapes from nature, it will quickly contaminate the surroundings when it enters water and soil. Cyanide in water can cause acute poisoning of aquatic organisms, fish, shrimp, etc. may die quickly from cyanide poisoning, and the balance of the bad water ecological chain. In soil, it can inhibit the activity of soil microorganisms, disturb soil nutrient circulation and decomposition of organic matter, and cause soil fertility to decline over time, and the land will gradually become barren.
And the chemical properties of (cyanomethyl) benzyl ether may cause it to be difficult to degrade in the environment. It persists for a long time and accumulates a lot. If it accumulates in the bottom mud, it migrates with the flow of water and wind, expanding the scope of pollution. Biological enrichment is also a problem. Low-level organisms ingest things containing this ether, and gradually accumulate in the body. When advanced organisms prey on it, toxins accumulate layer by layer, and eventually endanger human beings. If humans eat toxic organisms, it will cause mild discomfort and poisoning, which can be life-threatening, and damage the nervous system and organ functions.
Furthermore, if (cyanomethyl) benzyl ether leaks during production and transportation, its volatile gas can contaminate the atmosphere. People inhale it, injure the respiratory tract, eyes and other mucous membranes, expose it to the environment containing this gas for a long time, or suffer from respiratory diseases, and damage the immune system.
Therefore, (cyanomethyl) benzyl ether has a bad impact on the environment, which is related to ecological safety and human health. It is necessary to strictly control its use to prevent it from polluting the environment, so as to ensure ecological harmony and people's well-being.
The cyanyl group in (cyanomethyl) benzyl ether is highly toxic. If it escapes from nature, it will quickly contaminate the surroundings when it enters water and soil. Cyanide in water can cause acute poisoning of aquatic organisms, fish, shrimp, etc. may die quickly from cyanide poisoning, and the balance of the bad water ecological chain. In soil, it can inhibit the activity of soil microorganisms, disturb soil nutrient circulation and decomposition of organic matter, and cause soil fertility to decline over time, and the land will gradually become barren.
And the chemical properties of (cyanomethyl) benzyl ether may cause it to be difficult to degrade in the environment. It persists for a long time and accumulates a lot. If it accumulates in the bottom mud, it migrates with the flow of water and wind, expanding the scope of pollution. Biological enrichment is also a problem. Low-level organisms ingest things containing this ether, and gradually accumulate in the body. When advanced organisms prey on it, toxins accumulate layer by layer, and eventually endanger human beings. If humans eat toxic organisms, it will cause mild discomfort and poisoning, which can be life-threatening, and damage the nervous system and organ functions.
Furthermore, if (cyanomethyl) benzyl ether leaks during production and transportation, its volatile gas can contaminate the atmosphere. People inhale it, injure the respiratory tract, eyes and other mucous membranes, expose it to the environment containing this gas for a long time, or suffer from respiratory diseases, and damage the immune system.
Therefore, (cyanomethyl) benzyl ether has a bad impact on the environment, which is related to ecological safety and human health. It is necessary to strictly control its use to prevent it from polluting the environment, so as to ensure ecological harmony and people's well-being.
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