Linshang Chemical
PRODUCTS
(Chlorothio)Benzene
Linshang Chemical
|
HS Code |
204354 |
| Chemical Formula | C6H5ClS |
| Molar Mass | 144.62 g/mol |
| Appearance | Colorless to pale yellow liquid |
| Odor | Pungent, unpleasant odor |
| Density | 1.24 g/cm³ |
| Boiling Point | 205 - 207 °C |
| Melting Point | -43 °C |
| Solubility In Water | Insoluble |
| Solubility In Organic Solvents | Soluble in many organic solvents like ethanol, ether |
| Flash Point | 79 °C |
| Vapor Pressure | Low vapor pressure |
As an accredited (Chlorothio)Benzene factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.
| Packing | 1 - liter bottle packaging for (chlorothio)benzene chemical. |
| Storage | (Chlorothio)benzene should be stored in a cool, well - ventilated area, away from heat sources and open flames. Keep it in a tightly - sealed container to prevent vapor leakage. Store it separately from oxidizing agents and reactive substances. This storage approach helps maintain its stability and reduces the risk of dangerous reactions. |
| Shipping | (Chlorothio)benzene is shipped in tightly - sealed, corrosion - resistant containers. It follows strict hazardous chemical shipping regulations, ensuring proper labeling, secure packaging to prevent leakage during transit. |
Competitive (Chlorothio)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
Where to Buy (Chlorothio)Benzene in China?
As a trusted (Chlorothio)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 (Chlorothio)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 uses of (chlorothio) benzene
(Chlorothio) benzene has a wide range of uses and is used in various industries.
First, it is an important raw material in chemical synthesis. It can be used as an intermediate for the preparation of other organic compounds. If it is combined with other reagents through specific reactions, it can be prepared with products with special structures and properties. This is essential for the creation of new drugs and fine chemicals. Through delicate chemical reactions, complex molecular structures can be constructed, opening up new avenues for the chemical industry.
Second, it also plays a role in the field of materials science. Or it can participate in the synthesis of polymers and give materials different properties. Such as improving the stability and corrosion resistance of materials, so that the material can be durable in harsh environments. In the research and development and manufacturing of coatings, plastics and other materials, (chlorothio) benzene can help improve the quality and characteristics of materials to meet the needs of different scenarios.
Third, in agriculture, or can contribute to the creation of pesticides. Through reasonable design and synthesis, pesticides with insecticidal and bactericidal effects can be made. It can precisely combat pests and pathogens, protect the growth of crops, ensure the harvest of agriculture, and maintain the safety of food.
Fourth, in the path of scientific research and exploration, it is an important object of chemical research. By studying the reaction mechanism and physicochemical properties of (chlorothio) benzene, researchers deepen their understanding of organic chemistry, expand the boundaries of chemical knowledge, provide a basis for the improvement and innovation of chemical theory, and lead the in-depth development of chemical disciplines.
First, it is an important raw material in chemical synthesis. It can be used as an intermediate for the preparation of other organic compounds. If it is combined with other reagents through specific reactions, it can be prepared with products with special structures and properties. This is essential for the creation of new drugs and fine chemicals. Through delicate chemical reactions, complex molecular structures can be constructed, opening up new avenues for the chemical industry.
Second, it also plays a role in the field of materials science. Or it can participate in the synthesis of polymers and give materials different properties. Such as improving the stability and corrosion resistance of materials, so that the material can be durable in harsh environments. In the research and development and manufacturing of coatings, plastics and other materials, (chlorothio) benzene can help improve the quality and characteristics of materials to meet the needs of different scenarios.
Third, in agriculture, or can contribute to the creation of pesticides. Through reasonable design and synthesis, pesticides with insecticidal and bactericidal effects can be made. It can precisely combat pests and pathogens, protect the growth of crops, ensure the harvest of agriculture, and maintain the safety of food.
Fourth, in the path of scientific research and exploration, it is an important object of chemical research. By studying the reaction mechanism and physicochemical properties of (chlorothio) benzene, researchers deepen their understanding of organic chemistry, expand the boundaries of chemical knowledge, provide a basis for the improvement and innovation of chemical theory, and lead the in-depth development of chemical disciplines.
What are the physical properties of (chlorothio) benzene
(Chlorothio) benzene is an organic compound or the like. Its physical properties, first of all appearance, are often colorless to light yellow liquid, its appearance is clear, slightly specific smell. As for the boiling point, it is about a certain temperature range, which is determined by factors such as intermolecular forces. According to its structure and composition, its boiling point is different from other substances, which can be used for separation and identification.
In terms of its melting point, it also has a specific value, which is the key temperature for the phase transition of substances. Below the melting point, (chlorothio) benzene is a solid state, and beyond this temperature, it gradually melts into a liquid state. Density, in order to measure its unit volume mass index, its density is compared with common organic solvents, or there is a difference. This characteristic is manifested in experimental phenomena such as mixing and stratification.
In terms of solubility, (chlorothio) benzene is soluble in a variety of organic solvents, such as ethanol, ether, etc., but its solubility in water is not good. This is because the polarity of (chlorothio) benzene molecules is different from that of water molecules. According to the principle of similar compatibility, it is insoluble in water and soluble in organic solvents. Its volatility is also an important physical property. Under normal temperature and pressure, it has a certain rate of volatilization, and it can gradually disperse in the air in ventilated places. These physical properties are fundamental to the understanding and application of (chlorothio) benzene in various fields such as chemical engineering and scientific research.
In terms of its melting point, it also has a specific value, which is the key temperature for the phase transition of substances. Below the melting point, (chlorothio) benzene is a solid state, and beyond this temperature, it gradually melts into a liquid state. Density, in order to measure its unit volume mass index, its density is compared with common organic solvents, or there is a difference. This characteristic is manifested in experimental phenomena such as mixing and stratification.
In terms of solubility, (chlorothio) benzene is soluble in a variety of organic solvents, such as ethanol, ether, etc., but its solubility in water is not good. This is because the polarity of (chlorothio) benzene molecules is different from that of water molecules. According to the principle of similar compatibility, it is insoluble in water and soluble in organic solvents. Its volatility is also an important physical property. Under normal temperature and pressure, it has a certain rate of volatilization, and it can gradually disperse in the air in ventilated places. These physical properties are fundamental to the understanding and application of (chlorothio) benzene in various fields such as chemical engineering and scientific research.
What are the chemical properties of (chlorothio) benzene
(Chlorothio) benzene is also an organic compound. Its chemical properties are unique and have several characteristics.
The first word about its reactivity. (Chlorothio) The chlorine atom in benzene is quite active. The cover chlorine atom has high electronegativity, and under suitable conditions, it is easy to participate in the nucleophilic substitution reaction. In case of nucleophilic reagents, chlorine atoms can be replaced to form new compounds. This reaction mechanism is mostly for nucleophilic reagents to attack the carbon atoms connected to chlorine on the benzene ring, and chlorine leaves in the form of chloride ions.
The action of the second time and the sulfur atom. Sulfur atoms have lone pairs of electrons, which can exhibit certain nucleophilic properties and can also participate in And sulfur atoms can affect the electron cloud distribution of molecules, change the electron cloud density of the benzene ring, and then affect the reactivity of the benzene ring. In some reactions, sulfur atoms can be used as a reaction check point to react with other reagents, such as electrophilic reagents, to form sulfur-containing derivatives.
Furthermore, (chlorothio) benzene also exhibits in redox reactions. Because sulfur is in a specific oxidation state, it can be oxidized or reduced under the action of suitable oxidizing agents or reducing agents, resulting in changes in molecular structure and properties.
The stability of (chlorothio) benzene is also an important property. Although relatively stable, its structure may also change at high temperatures, strong acids and bases, or in the presence of specific catalysts, triggering various chemical reactions.
In summary, (chlorothio) benzene is rich in chemical properties and has many potential applications in organic synthesis and other fields. It can be used to synthesize various organic compounds with special functions by virtue of its properties.
The first word about its reactivity. (Chlorothio) The chlorine atom in benzene is quite active. The cover chlorine atom has high electronegativity, and under suitable conditions, it is easy to participate in the nucleophilic substitution reaction. In case of nucleophilic reagents, chlorine atoms can be replaced to form new compounds. This reaction mechanism is mostly for nucleophilic reagents to attack the carbon atoms connected to chlorine on the benzene ring, and chlorine leaves in the form of chloride ions.
The action of the second time and the sulfur atom. Sulfur atoms have lone pairs of electrons, which can exhibit certain nucleophilic properties and can also participate in And sulfur atoms can affect the electron cloud distribution of molecules, change the electron cloud density of the benzene ring, and then affect the reactivity of the benzene ring. In some reactions, sulfur atoms can be used as a reaction check point to react with other reagents, such as electrophilic reagents, to form sulfur-containing derivatives.
Furthermore, (chlorothio) benzene also exhibits in redox reactions. Because sulfur is in a specific oxidation state, it can be oxidized or reduced under the action of suitable oxidizing agents or reducing agents, resulting in changes in molecular structure and properties.
The stability of (chlorothio) benzene is also an important property. Although relatively stable, its structure may also change at high temperatures, strong acids and bases, or in the presence of specific catalysts, triggering various chemical reactions.
In summary, (chlorothio) benzene is rich in chemical properties and has many potential applications in organic synthesis and other fields. It can be used to synthesize various organic compounds with special functions by virtue of its properties.
What are the preparation methods of (chlorothio) benzene
The preparation method of (chlorothio) benzene has been known for a long time, and now I will describe it in detail for you.
First, benzene is used as a base to interact with the reagent containing chlorosulfur. In the past, benzene and a specific halogenated thioyl were co-placed in a reactor under appropriate catalytic conditions. It is necessary to create a suitable temperature and pressure in the kettle, both of which are very important. If the temperature is too high, the reaction will be excessive and the product will be impure; if the temperature is too low, the reaction will be slow and take a long time. The pressure also needs to be precisely controlled to make the reaction smooth. Catalytic substances, or metal salts, can accelerate the rate of reaction, causing the hydrogen atoms on the benzene ring to be gradually replaced by chlorothio groups. After a series of complex reaction processes, the final product is (chlorothio) benzene.
Second, there are also aromatic compounds containing sulfur as starters. First, the compound meets the chlorine reagent, which can be chlorine gas or other chlorinated substances. With the help of light or a specific catalyst, chlorine atoms can be cleverly embedded in the structure of sulfur-containing compounds. In this process, the light intensity and the amount of catalyst will affect the reaction process and the proportion of products. Then, through a delicate purification and separation process, the impurities are removed to obtain pure (chlorothio) benzene.
Third, there is an ingenious path to organic synthesis. First, a specific intermediate is derived from benzene. The structure of this intermediate needs to be carefully designed to make it easy to combine with chlorosulfur-containing fragments. Through ingenious organic reactions, such as nucleophilic substitution and electrophilic substitution, chlorothio groups are precisely introduced into the intermediate. After subsequent modification and purification, (chlorothio) benzene can also be successfully prepared.
Although there are many methods of preparation, it is necessary to pay attention to the control of reaction conditions, the accuracy of material proportions, and the fineness of purification steps, so as to obtain high-quality (chlorothio) benzene.
First, benzene is used as a base to interact with the reagent containing chlorosulfur. In the past, benzene and a specific halogenated thioyl were co-placed in a reactor under appropriate catalytic conditions. It is necessary to create a suitable temperature and pressure in the kettle, both of which are very important. If the temperature is too high, the reaction will be excessive and the product will be impure; if the temperature is too low, the reaction will be slow and take a long time. The pressure also needs to be precisely controlled to make the reaction smooth. Catalytic substances, or metal salts, can accelerate the rate of reaction, causing the hydrogen atoms on the benzene ring to be gradually replaced by chlorothio groups. After a series of complex reaction processes, the final product is (chlorothio) benzene.
Second, there are also aromatic compounds containing sulfur as starters. First, the compound meets the chlorine reagent, which can be chlorine gas or other chlorinated substances. With the help of light or a specific catalyst, chlorine atoms can be cleverly embedded in the structure of sulfur-containing compounds. In this process, the light intensity and the amount of catalyst will affect the reaction process and the proportion of products. Then, through a delicate purification and separation process, the impurities are removed to obtain pure (chlorothio) benzene.
Third, there is an ingenious path to organic synthesis. First, a specific intermediate is derived from benzene. The structure of this intermediate needs to be carefully designed to make it easy to combine with chlorosulfur-containing fragments. Through ingenious organic reactions, such as nucleophilic substitution and electrophilic substitution, chlorothio groups are precisely introduced into the intermediate. After subsequent modification and purification, (chlorothio) benzene can also be successfully prepared.
Although there are many methods of preparation, it is necessary to pay attention to the control of reaction conditions, the accuracy of material proportions, and the fineness of purification steps, so as to obtain high-quality (chlorothio) benzene.
What are the precautions for (chlorothio) benzene during use?
(Chlorothio) benzene is also used in chemistry. When it is used, all kinds of things should be paid attention to.
First, it is related to personal safety. (Chlorothio) benzene has certain toxicity, and it must be handled with caution. When working, use appropriate protective gear, such as gloves and masks, to prevent it from touching the skin and entering the body, causing illness. If you accidentally touch it, wash it with water as soon as possible; if it enters the eyes, especially rinse it with a lot of water and seek medical attention as soon as possible.
Second, it involves storage. It should be placed in a cool, dry and well-ventilated place, away from fire and heat sources. This is because it is flammable. If it is not placed in an appropriate environment, it is easy to cause accidents in case of fire. The storage place should also be separated from oxidants and edible chemicals to prevent their mixing and biochemical reactions.
Third, it is related to the rules of operation. When operating, the place must be well ventilated to reduce its concentration in the air. And the operator, when professionally trained, is familiar with its nature and operation laws, and acts in accordance with regulations. Do not act recklessly. After using the equipment, it must also be properly cleaned to prevent residual matter from causing damage.
Fourth, pay attention to the protection of the environment. (Chlorothio) Benzene is harmful to the environment if it leaks outside. Therefore, at the moment of use, take preventive measures in advance. If there is any leakage, promptly adopt appropriate methods to clean up and treat it, so as to avoid polluting soil, water bodies, etc., and ensure the safety of the environment.
First, it is related to personal safety. (Chlorothio) benzene has certain toxicity, and it must be handled with caution. When working, use appropriate protective gear, such as gloves and masks, to prevent it from touching the skin and entering the body, causing illness. If you accidentally touch it, wash it with water as soon as possible; if it enters the eyes, especially rinse it with a lot of water and seek medical attention as soon as possible.
Second, it involves storage. It should be placed in a cool, dry and well-ventilated place, away from fire and heat sources. This is because it is flammable. If it is not placed in an appropriate environment, it is easy to cause accidents in case of fire. The storage place should also be separated from oxidants and edible chemicals to prevent their mixing and biochemical reactions.
Third, it is related to the rules of operation. When operating, the place must be well ventilated to reduce its concentration in the air. And the operator, when professionally trained, is familiar with its nature and operation laws, and acts in accordance with regulations. Do not act recklessly. After using the equipment, it must also be properly cleaned to prevent residual matter from causing damage.
Fourth, pay attention to the protection of the environment. (Chlorothio) Benzene is harmful to the environment if it leaks outside. Therefore, at the moment of use, take preventive measures in advance. If there is any leakage, promptly adopt appropriate methods to clean up and treat it, so as to avoid polluting soil, water bodies, etc., and ensure the safety of the environment.
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