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Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

3,4-Dichlorphenyl-Benzolsulfonate

Specifications

HS Code	852905
Chemical Formula	C13H8Cl2O3S
Molar Mass	315.17 g/mol
Appearance	Solid (likely white or off - white powder)
Solubility In Water	Low solubility
Solubility In Organic Solvents	Soluble in some organic solvents like dichloromethane, chloroform
Melting Point	Specific value would need further research
Boiling Point	Specific value would need further research
Density	Specific value would need further research
Vapor Pressure	Low vapor pressure
Stability	Stable under normal conditions, may decompose on heating or in contact with strong oxidizing agents

As an accredited 3,4-Dichlorphenyl-Benzolsulfonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	50 - kg bags for 3,4 - Dichlorphenyl-Benzolsulfonate chemical packaging.
Storage	### Storage of 3,4 - Dichlorophenyl - Benzolsulfonate Store 3,4 - Dichlorophenyl - Benzolsulfonate in a cool, dry, well - ventilated area. Keep it away from sources of heat, ignition, and incompatible substances like strong oxidizers. It should be stored in tightly closed containers to prevent moisture absorption and evaporation. Ensure proper labeling for easy identification and follow safety procedures accordingly.
Shipping	3,4 - Dichlorphenyl - Benzolsulfonate is typically shipped in air - and moisture - tight containers. Packaging complies with chemical safety regulations. Shipment may involve ground or sea transport, with proper hazard labels and documentation for safe transit.

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General Information

Historical Development

Taste the chemical industry, with each passing day, new things emerge one after another. Today there is a thing called 3,4 - Dichlorphenyl - Benzolsulfonate, which also has a unique track in chemical products.
In the early days, the research and development of this thing was painstakingly considered by all the sages. After years have passed, the method of preparation has been obtained. At the time of initial production, the process was not good, the output was very small, and the quality was uneven from time to time. However, the craftsmen worked tirelessly to study techniques and innovate the process.
As the years passed, the technology gradually matured, the output surged, and the quality also rose steadily. The field of its application has also narrowed and widened, and it has emerged in various industrial production, scientific research and exploration, and is valued by the industry. Looking at its journey, it is actually a microcosm of the development of the chemical industry. It has witnessed that our generation is on the road of scientific and technological exploration, determined to move forward, and finally achieved remarkable results.

Product Overview

3,4-Dichlorophenylbenzenesulfonate is one of the types involved in my research on chemical products. Its shape may be powder, color or white, and the texture is uniform and delicate. Looking at its properties, it has a specific chemical activity and can exhibit unique chemical changes under a specific reaction environment.
The preparation of this product requires precise control of the ratio of raw materials, multiple reaction steps, and rigorous experimental methods. In the chemical industry, it can be used as an intermediate to participate in the synthesis of many complex compounds, contributing to the expansion of chemical products.
When studying this product, I took a cautious attitude and carefully investigated its characteristics and reactions, hoping to better understand its essence and open up wider prospects for its application in the chemical industry, so as to help the development of chemical products.

Physical & Chemical Properties

"Physical and chemical properties of 3,4-dichlorophenylbenzenesulfonate"
Fu 3,4-dichlorophenylbenzenesulfonate is an important substance for chemical research. Its physical properties, looking at its shape, are often solid at room temperature, with white or yellowish color and fine texture. Its melting point is quite high, and it needs a specific temperature to melt. This property makes it stable in general environments.
In terms of chemical properties, this substance has certain reactivity. Its benzene ring structure interacts with chlorine atoms and sulfonic acid radical groups, and under specific conditions, a substitution reaction can occur. The presence of chlorine atoms enhances the electrophilicity of molecules, which is conducive to the attack of nucleophiles. Sulfonic acid groups endow it with certain water solubility, can be partially ionized in aqueous solution, and exhibit unique chemical behaviors. It is an object worthy of in-depth investigation in the chemical research and application fields.

Technical Specifications & Labeling

Today, there is a chemical called 3,4 - Dichlorphenyl - Benzolsulfonate that we have dedicated ourselves to studying. Its process specifications and identification (commodity parameters) are the key.
In terms of process specifications, from the selection of raw materials, it is necessary to be pure and free of impurities, to the synthesis method, it is necessary to precisely control the temperature, duration and ratio. The reaction conditions between them are completely different, resulting in very different quality.
On the label, the product parameters should be clear and clear, including the proportion of ingredients, characteristics, use taboos, etc. In this way, this product can be used properly in the world and will not be mistaken. Our chemical researchers should abide by the guidelines, standardize the process specifications with a rigorous heart, and clearly identify the parameters, so as to live up to the research method.

Preparation Method

This 3,4-dichlorophenylbenzenesulfonate has its own recipe. The raw materials used need to be pure. First take an appropriate amount of 3,4-dichlorophenol and benzenesulfonyl chloride. The preparation process is in a suitable reaction vessel, controlled by temperature and pressure.
At the beginning of the reaction, stir it slowly to mix the raw materials evenly. Gradually raise the temperature to about 60 degrees Celsius and continue to stir for about an hour. It can be seen that there is a preliminary reaction. Then, cool down to 40 degrees Celsius and continue to stir for half an hour. This is the reaction step.
As for the catalytic mechanism, a little pyridine can be added as a catalyst to promote the reaction and increase its yield. After the reaction is completed, the pure 3,4-dichlorophenylbenzene sulfonate can be obtained by separation and purification. In this way, good products can be obtained for various uses.

Chemical Reactions & Modifications

The research on the modification of this compound, Dichlorphenyl - Benzolsulfonate, is of paramount importance in our research.
The modification of its transformation and inversion, and the transformation of general components, can cause the different directions of the inversion. The degree is slightly reduced, or the rate of inversion can be changed, or the inversion can be changed. And the proportion of the inversion is also a factor. If the proportion is lost, the ideal compound can be obtained.
In the process of modification, specific bases can be introduced to reduce its properties. Or increase its quality, or change its solubility, which is the direction of research. This is due to different application scenarios, which requires this material to have different characteristics. Therefore, we are committed to exploring the secrets of its transformation and reversal, and seeking the best modification methods so that it can better serve the general environment.

Synonyms & Product Names

Taste the wonders of chemical industry, there are many substances, and the names are also different. Today there is a thing called 3,4 - Dichlorphenyl - Benzolsulfonate. Although its name is complex, in the field of chemical industry, there are also synonymous names and commodity names.
The name of a synonym is based on the same nature and structure of its nature, and it is called another way. Or according to its chemical nature, or according to its reaction characteristics, it is a nickname known in the industry. As for the name of a commodity, the merchant established another name for the sake of wide sales, so that the public can know it. This name may be easy to remember, or it may be unique, so that it is different from other things.
Although the name is different, the essence of the natural thing remains unchanged. Chemical industry, when the name of the synonym, know the name of the commodity, can be in the research, between the application, ease, without confusion. In this way, in the chemical industry, can be refined to achieve its wonders.

Safety & Operational Standards

Today, there is a substance called 3,4-dichlorophenylbenzenesulfonate, which is the object of chemical research. We should be very careful about the safety and operation of this substance.
This chemical has certain characteristics. Its nature is active or stable, but it should not be ignored. When operating, read its physical properties carefully to be familiar with the reactions and hazards it may cause.
As for safety, the first priority is protection. When entering the experimental site, use complete protective equipment, such as protective clothing, gloves, goggles, etc., to prevent it from contacting the skin, eyes, and injuring the body. If you accidentally touch it, rinse it with plenty of water as soon as possible and seek medical treatment.
Operating specifications are also key. The experimental steps must be carried out according to strict procedures. The weighing, mixing and reaction steps should not be hasty. The dosage of the drug should be accurate and the use of the instrument should also be appropriate. The reaction conditions, such as temperature, pressure and time, must be strictly controlled to ensure the smooth and safe operation of the experiment.
Store this thing carefully. It should be placed in a cool, dry and ventilated place, away from fire and heat sources, and must be separated from other chemicals to prevent interaction and cause danger.
Our generation of chemical researchers should not be slack in the safety and operation of 3,4-dichlorophenylbenzenesulfonate, but should be treated with a scientific and rigorous attitude, so as to ensure the safety of experiments and promote the progress of research.

Application Area

3,4-Dichlorophenylbenzenesulfonate is very useful in various application fields. In the field of agricultural mulberry, it can be used as a herbicide to precisely eliminate weeds in the field, protect the growth of grass seedlings, and increase the fertility of crops. In the field of medical science, after research and exploration, it is expected to become a raw material for making good medicines, curing various diseases, and helping the health of the common people. In the industrial industry, or can be used for material surface treatment, increasing its corrosion resistance and wear resistance, extending the life of utensils. Looking at its application in agriculture, medicine, and engineering, it has exhibited its unique effectiveness, which can benefit various fields, add bricks and tiles, and promote its prosperity and prosperity. The prospect is quite promising.

Research & Development

Wuyan Chemical Industry has been researching for many years, and recently focused on 3,4-Dichlorphenyl-Benzolsulfonate. Its unique properties, wide range of uses, and potential value in many fields.
The synthesis method was initially studied, and after many attempts and improvements to the old system, it strived for high efficiency and purity. Although the process was difficult, it was unremitting research, and finally the optimization method was obtained, and the yield gradually increased.
Then the physicochemical properties were observed, and the properties of melting, boiling, dissolution, and stability were tested in detail, laying the foundation for its application.
As for the application exploration, the test in industrial additives, material improvement, etc., has achieved initial results.
Looking to the future, we will deepen research and expand applications, with the hope of making it more effective, contributing to the development of the chemical industry, and promoting progress in this field.

Toxicity Research

Taste and smell the nature of things, related to people's livelihood. Now in 3,4 - Dichlorphenyl - Benzolsulfonate this thing, a detailed study of toxicology.
I study the toxicity of this thing, and observe its effect on living beings for the first time. Take all kinds of living beings as an experiment, and observe the way they eat, touch, and smell. Seeing it may cause spiritual body failure, poor diet, sluggish movement, and even life-threatening.
Also study its shadow in the environment. Scattered in water and soil, it can be a source of sewage, damage the fertilizer of the soil, and cause vegetation to fail. Floating in gas, it enters people's lungs, and it is also harmful to health.
The study of toxicology must not be detailed. I hope my colleagues will pay attention to it, explore it in detail, clarify its harm, seek solutions to avoid it, protect the safety of life and soul, and maintain the tranquility of the environment, so as to live up to the responsibility of the researcher.

Future Prospects

Jinguanfu 3,4 - Dichlorphenyl - Benzolsulfonate is involved in a wide range of industrial matters. Although it has its uses now, our generation of chemical researchers still have great ambitions for its future development.
Hope it can be higher than the efficiency. Or it can optimize the process, reduce its production and consumption, and increase its quality and quantity. And its application field is also hoped to expand. In the field of medicine, it can be the basis of new agents to cure more diseases; in the domain of agriculture and planting, or a good agent, to help seedlings grow and insect repellent.
Furthermore, the importance of environmental protection cannot be ignored. May this product be more pro-natural and environmentally harmless in the future. The principle of its waste can also be simple and good, and does not sewage the soil and atmosphere. In this way, 3,4-Dichlorphenyl-Benzolsulfonate will surely shine in the future and benefit the world.

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Frequently Asked Questions

As a leading 3,4-Dichlorphenyl-Benzolsulfonate supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What is the chemical structure of 4-Dichlorphenyl-Benzolsulfonate?

3% 2C4 - dichlorophenyl - benzolsulfonate (3% 2C4 - Dichlorphenyl - Benzolsulfonate), which is one of the organic compounds. Its chemical structure can be detailed as follows:
- ** Benzene sulfonate part **: Benzene sulfonate is based on a benzene ring, which has a unique stability and conjugation system. On the benzene ring, a sulfonic acid group (-SO 🥰) is connected to it. The sulfonic acid group is strongly hydrophilic. Because the sulfur atom is connected to three oxygen atoms, its charge distribution is uneven, and it is easy to form hydrogen bonds with water molecules. This hydrophilicity has a great impact on the solubility and reactivity of the compound in aqueous solution.
- ** Dichlorophenyl moiety **: This moiety is also based on the benzene ring structure. At specific positions (2 and 4 positions) of the benzene ring, each has a chlorine atom to replace the hydrogen atom. Chlorine atoms are electronegative, and their introduction will change the electron cloud density distribution of the benzene ring, causing the benzene ring electron cloud to be biased towards the chlorine atom, which in turn affects the chemical activity and steric resistance of this part. At the same time, the presence of two chlorine atoms enhances the lipid solubility of the compound, and its electronegativity enhances the interaction between this part and the non-polar molecule.
- ** Connecting part **: The dichlorophenyl and benzenesulfonate parts are connected by chemical bonds, which determine the spatial configuration and electron This connection allows the two parts to interact with each other, synergistically determining the physical and chemical properties and biological activities of the compound. For example, the electronic effects of dichlorophenyl can be transferred to the benzenesulfonate part through the connection bond, and vice versa, affecting the overall reactivity, stability, and ability to interact with other substances of the compound.

3, what are the main uses of 4-Dichlorphenyl-Benzolsulfonate

3% 2C4-dichlorophenyl-benzenesulfonate has a wide range of uses. In the field of agricultural mulberry, it is often used as a pesticide auxiliary. It can help the active ingredients of pesticides better adhere to the surface of crops, increase their wettability and spreadability, so that pesticides can be more evenly distributed, improve the efficacy, and make it difficult for pests and pathogens to escape the power of medicine.
In industrial production, it also has its uses. In some fine chemical synthesis processes, it can be used as a reaction catalyst or intermediate. Due to its special chemical structure, it can promote the progress of specific chemical reactions, assist in the synthesis of many chemical products with special properties, such as some high-performance plastic additives, dye intermediates, etc., and contribute to the improvement of the performance of industrial products.
Furthermore, in the field of materials science, 3% 2C4-dichlorophenyl-benzenesulfonate can be used for material surface modification. Through special treatment, it adheres to the surface of the material, changing the physical and chemical properties of the material surface, such as improving the material's anti-fouling and corrosion resistance, broadening the application range of the material, and can be used in many aspects such as building materials and electronic product shells, making the material more durable.
In addition, in the field of scientific research, as a specific chemical substance, it can provide a key foundation for researchers to explore new chemical reaction pathways and develop new compounds. Scientists can develop more novel and practical chemical synthesis methods and products through in-depth study of their chemical properties, and promote the progress and development of chemistry and related fields.

What are the physical properties of 4-Dichlorphenyl-Benzolsulfonate?

3% 2C4-dichlorophenyl-benzenesulfonate, this is a chemical substance. Its physical properties are quite important and are related to many chemical applications.
Looking at its morphology, at room temperature, it is mostly in the shape of a solid state, or a white crystalline powder, with a fine texture, like the first snow in winter, delicate and pure. Its color is white, without variegated doping, like something uncontaminated by the world.
When it comes to solubility, this substance has considerable solubility in organic solvents. Organic solvents such as common ethanol and acetone can partially dissolve it. Just like fish entering water and gradually melting into it. In water, although its solubility is not as good as that of organic solvents, it is not completely insoluble, and it is still partially soluble. This property makes it exhibit a unique state in different solvent environments.
Melting point is also one of the important physical properties. Its melting point has been measured to be within a certain range, and this melting point range makes the substance change from solid to liquid at a specific temperature. When the temperature gradually rises to the melting point, 3% 2C4-dichlorophenyl-benzenesulfonate in the solid state slowly converts into a liquid state like ice and snow in the warm sun. This transformation process follows specific physical laws.
In addition, density is also a key physical property. Its density has a specific value, which determines its fluctuation in different media. In some density-related chemical operations or application scenarios, this property is of great significance.
Furthermore, its stability is also a physical property consideration. Under normal temperature and pressure and without the interference of special chemical substances, 3% 2C4-dichlorophenyl-benzenesulfonate is quite stable and can maintain its own chemical structure and physical form for a long time. However, in case of extreme conditions such as high temperature and strong oxidants, its stability may be damaged, which will cause changes in physical properties.

3, 4-Dichlorphenyl-Benzolsulfonate what are the precautions in the production process

3% 2C4-dichlorophenyl-benzenesulfonate is used in the production process, and many matters need careful attention.
The first to bear the brunt, the selection of raw materials and quality control are crucial. The raw materials used must be pure and meet the established standards. If there are too many impurities in the raw material, it will not only interfere with the reaction process, resulting in low yield, but also may have a serious impact on the quality of the product, and the resulting product may not meet the requirements of subsequent use.
The precise control of the reaction conditions should not be underestimated. In terms of temperature, it has a profound impact on the reaction rate and product selectivity. If the temperature is too high, it may cause frequent side reactions and reduce the purity of the product; if the temperature is too low, the reaction rate will be slow and the production efficiency The same is true of pressure. A specific reaction needs to be carried out under a suitable pressure in order to ensure the smooth progress of the reaction. In addition, the reaction time also needs to be strictly controlled. If the time is too short, the reaction will not be fully functional; if the time is too long, or it will cause an excessive reaction, it will also be detrimental to the production of the product.
Furthermore, the cleaning and maintenance of the reaction equipment is indispensable. Unclean equipment, residual impurities or participation in the reaction can affect product quality. Regular inspection and maintenance of equipment to ensure its normal operation can effectively avoid production accidents caused by equipment failure.
Safety protection measures in the production process cannot be ignored. This substance may be toxic and corrosive. Operators must strictly follow safety operating procedures and wear complete protective equipment, such as gloves, goggles, protective clothing, etc., to prevent contact with the human body and cause injury. At the same time, the production site should be equipped with good ventilation facilities to discharge harmful gases in time to ensure the health of operators.
In addition, the separation and purification of the product is also a key link. Appropriate separation methods, such as crystallization, distillation, extraction, etc., need to be selected to obtain high-purity products. And during the separation and purification process, the operation should be fine and careful to avoid product loss.
Overall, the production of 3% 2C4-dichlorophenyl-benzenesulfonate requires careful treatment at every step, from raw materials to products, to ensure smooth production and high product quality.

3, 4-Dichlorphenyl-Benzolsulfonate impact on the environment

3% 2C4-dichlorophenyl-benzenesulfonate, the impact of this chemical substance on the environment is quite complex and worthy of further investigation.
Looking at the water environment, if this substance flows into rivers, lakes and seas, it may cause many hazards to aquatic organisms. Due to its chemical properties, it may interfere with the physiological functions of aquatic organisms. Fish may be affected by it, causing abnormal physiological processes such as respiration and metabolism, and even affecting their reproductive ability, causing the population to gradually decrease. For plankton, this substance may also change their living environment, affect the food chain structure of the entire aquatic ecosystem, and cause ecological balance to be disrupted.
As for the soil environment, if waste containing this substance enters the soil, it may change the chemical properties of the soil. The activity or inhibition of soil microorganisms affects the decomposition of organic matter and nutrient cycling in the soil. In the long run, soil fertility decreases, which is not conducive to plant growth. After plant roots are exposed to this substance, their absorption or hindrance of nutrients leads to poor plant growth, and crop yield and quality will also decrease.
In the atmospheric environment, although this substance is usually not easy to volatilize into the atmosphere, in the specific production and use process, if it is not handled properly, tiny particles may escape into the air. Human inhalation of such particles containing this substance may pose a potential threat to health. At the same time, if it participates in photochemical reactions in the atmosphere, it may indirectly affect the chemical composition of the atmospheric environment and have a significant impact on air quality.
It can be seen that 3% 2C4-dichlorophenyl-benzenesulfonate is potentially harmful to the environment at multiple levels, and care should be taken during its production, use, and handling to mitigate the negative impact on the environment.