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Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Sodium 4-(1-Ethyldecyl)Benzenesulfonate

Specifications

HS Code	256010
Chemical Formula	C20H33NaO3S
Molar Mass	374.53 g/mol
Appearance	Typically a white to off - white powder or solid
Solubility In Water	Good solubility in water, forms micelles
Surface Tension Reducing Ability	Effective in reducing surface tension of water, has surfactant properties
Critical Micelle Concentration Cmc	Specific CMC value relevant for surfactant behavior
Ph In Aqueous Solution	May have a slightly alkaline pH in solution
Emulsifying Property	Can emulsify oils in water systems
Foaming Property	Capable of generating and stabilizing foam
Biodegradability	Some degree of biodegradability depending on environmental conditions

As an accredited Sodium 4-(1-Ethyldecyl)Benzenesulfonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	Sodium 4-(1-Ethyldecyl)Benzenesulfonate: 500g packed in sealed, labeled chemical - grade bags.
Shipping	Sodium 4-(1-Ethyldecyl)Benzenesulfonate should be shipped in tightly - sealed, corrosion - resistant containers. Ensure compliance with hazardous chemical shipping regulations, with proper labeling indicating its nature.
Storage	Sodium 4-(1 - Ethyldecyl)benzenesulfonate should be stored in a cool, dry place, away from direct sunlight and heat sources. Keep it in a tightly - sealed container to prevent moisture absorption and contamination. Avoid storing near reactive or incompatible chemicals. This helps maintain its chemical stability and prevents degradation over time.

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Certification & Compliance

Sodium 4-(1-Ethyldecyl)Benzenesulfonate is manufactured under an ISO 9001 quality system and complies with relevant regulatory requirements.
COA, SDS/MSDS, and related certificates are available upon request. For certificate requests or inquiries, contact: sales7@alchemist-chem.com.

General Information

Historical Development

Sodium 4- (1-Ethyldecyl) Benzenesulfonate is also a compound of sulfonic acid. Going back to the past, its research process has been tortuous. At the beginning of the study, the study of physical properties in the field, the method of synthesis through hard work. Years and months, and over and over again, only then can we find the way. In the early days, due to technical limitations, the quantity was scarce, and the quality was also excellent. However, those who are committed to the project are unswerving. As the month progresses, science and technology continue to grow, new industries cannot be created. Today, its production and production have matured, and the amount has increased significantly. It has been widely used in the fields of labor and people's livelihood. It has been widely used from the past research to the present. This is the first step in science and technology.

Product Overview

There is a substance today called Sodium 4- (1-Ethyldecyl) Benzenesulfonate. This is a sulfonate, and its molecule has a sulfonic acid group, which has unique characteristics in surface activity.
Looking at its structure, the benzene ring is connected with a long chain of 1-ethyl decyl on one side, and the other side is connected to the sulfonic acid group and forms a sodium salt. This long chain alkyl group imparts hydrophobicity, while the sulfonic acid group is hydrophilic, making the compound both amphiphilic.
It is widely used in many fields. In daily chemical products, it can be used as a surfactant to help clean oil stains and reduce liquid surface tension. In the industrial field, in emulsion polymerization and other reactions, it can stabilize the emulsion system and ensure the smooth progress of the reaction. This Sodium 4- (1-Ethyldecyl) Benzenesulfonate plays an important role in many industries due to its unique structure and properties.

Physical & Chemical Properties

Sodium 4- (1-Ethyldecyl) Benzenesulfonate is a unique compound. Looking at its physical properties, at room temperature, it is often solid, white and pure in color, like a fine powder, and delicate to the touch. Its melting point is quite high, and it needs a higher temperature to melt it into a liquid state, which makes it quite stable in general environments.
When it comes to chemical properties, this compound has good surface activity. In aqueous solution, it can significantly reduce the surface tension and greatly increase the wettability of water. In its molecular structure, the benzenesulfonic acid group gives it hydrophilicity, while the long chain of 1-ethyldecyl group has lipophilicity. This unique structure allows it to be arranged in an orderly manner at the oil-water interface and exert the effect of emulsification and dispersion. Due to its relatively stable chemical properties, it is not easy to react violently with common chemical substances, so it has the potential to be widely used in many industrial and civilian fields. It is indeed an important compound with unique physical and chemical properties.

Technical Specifications & Labeling

Today there is a thing named Sodium 4- (1-Ethyldecyl) Benzenesulfonate. The technique of its production is related to the technical specifications and identification (product parameters), which is the most important.
Where this thing is made, the first heavy material should be carefully selected so that it is pure and free of impurities. When combining materials, the temperature and time must be controlled according to certain regulations, and there should be no slight difference. The reaction device must also be clean and suitable for this purpose.
As for the identification (product parameters), its quality, quantity, and sex must be specified in detail. Quality, look at its purity; quantity, determine its amount; sex, know its physical and chemical properties. Only in this way can this product be suitable for use, known in the city, and used by the public. The craftsmanship of the system is passed down by the law, followed by its regulations, and its standards, so as to obtain the delicacy of this thing.

Preparation Method

To prepare Sodium 4- (1-Ethyldecyl) Benzenesulfonate, the raw materials and production process are the key. The raw materials need to be carefully selected, and pure benzene, 1-ethyldecyl alcohol, etc. are selected as starting materials. In the production process, benzene and 1-ethyldecyl alcohol are alkylated under the action of a suitable catalyst. This step requires precise temperature control to ensure that the reaction proceeds smoothly to generate 4- (1-ethyldecyl) benzene. Subsequently, the resulting product is sulfonated with fuming sulfuric acid, and the reaction time and amount of sulfuric acid are strictly controlled to obtain 4- (1-ethyldecyl) benzenesulfonate. Finally, the pure Sodium 4- (1-Ethyldecyl) Benzenesulfonate product was obtained by neutralizing with sodium hydroxide solution, adjusting the pH value, and through a series of separation and purification steps. During this preparation process, each reaction step is closely connected, and the reaction conditions need to be strictly controlled to obtain high-quality products.

Chemical Reactions & Modifications

Sodium 4- (1-Ethyldecyl) Benzenesulfonate, in the field of chemistry, its reaction and modification can be investigated.
Its reaction should also involve sulfonation. Benzene derivatives and reagents containing specific alkyl groups are used to make this product under suitable conditions. However, in the reaction, temperature, pressure, and catalyst factors are all related to yield and purity.
As for modification, group modification can be used. If a hydrophilic group is introduced, its solubility in the water phase may be increased; the alkyl structure can be changed, or its interfacial activity can be adjusted. In this way, it can meet different needs and develop its talents in various fields such as daily chemicals and industrial additives, so as to achieve the best of its effectiveness.

Synonyms & Product Names

Sodium 4- (1-Ethyldecyl) Benzenesulfonate. With the same name, it also has the same name as a certain sulfonic acid, which is also due to its chemical properties. In the market, or if it is sold under the name, it is all this thing. Its use, can be used as a washing aid, so that the stain is easy to remove. Among the many products of the same quality, this product is important because of its effectiveness. The name of the product is used to make it clear, so as not to confuse, so as to benefit the practice, and the user knows it, so it will not be used. The same name of the product is used to ensure the integrity of the industry and facilitate the circulation of commerce.

Safety & Operational Standards

Sodium 4- (1-Ethyldecyl) Benzenesulfonate is a fine chemical product, which is crucial for its safety and operating practices.
The place where this product is prepared and used must be well ventilated to avoid the accumulation of harmful gases. Operators are in front of appropriate protective equipment, such as protective clothing, protective gloves and goggles, to prevent direct contact with skin and eyes. If you accidentally touch it, rinse it with plenty of water as soon as possible and seek medical attention if necessary.
When storing, store it in a dry, cool place, away from fire and heat sources, and store it separately from oxidants and acids. Do not store it together. Be sure to pack and unload it lightly during handling to prevent leakage due to package damage.
In the event of a leak, the leakage area should be quickly isolated and personnel should be restricted from entering and leaving. Emergency personnel need to wear full masks and chemical protective clothing, and do not let leaks come into contact with combustible materials. Small leaks can be absorbed by inert materials such as sand and vermiculite; large leaks need to be built embankments or dug for containment, and transferred to a special collector with a pump for recycling or transportation to a waste treatment site for disposal.
During operation, fireworks are strictly prohibited, and the equipment involved should be grounded to prevent the accumulation of static electricity from causing danger. At the same time, emergency plans should be formulated and improved, and regular drills should be carried out to deal with emergencies. In this way, the operation of Sodium 4- (1-Ethdecylyl) Benzenesulfonate can be ensured to be safe and secure, and the safety of personnel and the environment can be guaranteed.

Application Area

Sodium 4- (1-Ethyldecyl) Benzenesulfonate is also a wonderful product of transformation. It is widely used and is widely used in various domains.
In the genus of daily use, it can be an essential quality for polymers. It can remove dirt, make utensils clean, and has good emulsification ability. When washing, it helps oil stains to separate quickly, so that water stains can be separated, and clothes can be renewed.
In the industrial realm, it also develops its strengths. In the printing and dyeing industry, it can promote uniform dye cloth and uniform fabric color; in the field of oil extraction, it can reduce the tension between oil and rock interface and increase oil extraction.
In the world of medicine, it also has its function. Or the aid is dispersed to make the medicinal power reach quickly and the curative effect is better.
This product is unique in its ability, and it has extraordinary effects in all fields of use. It is an indispensable material in this world.

Research & Development

Today there is a product called Sodium 4- (1-Ethyldecyl) Benzenesulfonate. As a chemical researcher, I investigate the characteristics of this product and explore its research and development methods.
This product has unique properties and can be used in various fields such as industry and daily use. I study its structure in detail, analyze its reaction mechanism, and strive to understand its performance.
The process of research and development requires many experiments. From the choice of raw materials to the control of reaction conditions, all cannot be ignored. Temperature, pressure, and catalyst all have a great impact on the product.
We should explore this product in depth with scientific methods and rigorous heart. It is hoped that it can explore its maximum potential, promote its wide application, and contribute to the prosperity of industry and people's livelihood, so as to promote this product in the path of research and development, continue to move forward, and shine.

Toxicity Research

Today there is a thing called Sodium 4- (1-Ethyldecyl) Benzenesulfonate, and our generation focuses on toxicological research to investigate its properties in detail. The poison of this thing is related to the safety of living beings and cannot be ignored.
Examine this thing in detail, and observe its impact on all living things in experiments. Observe the signs of its entry into the body, or cause physiological changes. Observe its response to cells, or the order of disruption to metabolism.
However, toxicological research cannot be done overnight. It takes many tests and extensive data collection to prove it. Observe the effect of different doses, and observe the difference between temporary exposure for a long time.
We should be careful and try to understand the depth of its poison. When using this product for the world, we should take comprehensive measures to preserve the safety of life and souls and avoid the pain of poison. In this way, we should not be responsible for toxicological research.

Future Prospects

I have tasted and studied Sodium 4- (1-Ethyldecyl) Benzenesulfonate, and I know that it has great potential in the field of chemical industry. Looking at today's world, industry is prosperous, and this product is being used more and more widely. In the way of detergents, its decontamination ability is quite strong, which can make the dirt quickly leave the fabric, making it as clean as new.
Looking forward to the future, with the advance of science and technology, I expect that this product must be better made. Or it can be obtained in a simpler way, with lower consumption, and it is more environmentally friendly and less polluted in production. Its use should also be expanded, or into the world of medicine and agrochemical, to add force to the treatment of diseases and the promotion of plants.
The scientific researchers of our generation should strive to study hard, develop their rationale, and expand their use, so that Sodium 4- (1-Ethyldecyl) Benzenesulfonate will shine in the future, contribute to the progress of the world and the well-being of the people, and live up to the trust of the times, in order to open a brilliant new chapter.

Where to Buy Sodium 4-(1-Ethyldecyl)Benzenesulfonate in China?

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Frequently Asked Questions

As a leading Sodium 4-(1-Ethyldecyl)Benzenesulfonate 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 Sodium 4- (1-Ethyldecyl) Benzenesulfonate?

Sodium-4- (1-ethyldecyl) benzenesulfonate, which is a surfactant. It has a wide range of uses and can be compared to the various materials recorded in "Tiangong Kaiwu". It has significant effects in many fields.
In the field of daily chemical industry, just like the clever use of materials in the ancient soap making process, this compound is often used as a key ingredient in detergents. Because of its unique amphiphilic structure, one end is a lipophilic group and the other end is a hydrophilic group, which can effectively reduce the surface tension of water, making oil and other dirt more easily wetted, dispersed and emulsified by water, so as to achieve excellent decontamination efficiency and help wash stains on clothes, tableware and other items.
In the industrial field, just like the mining of material characteristics in various industries in "Tiangong Kaiwu", in the textile printing and dyeing industry, it can be used as a leveling agent to make the dye evenly dispersed on the fabric to ensure uniform dyeing and improve dyeing quality; in oil extraction, it can be used as an oil displacement agent to reduce the interfacial tension of oil and water and improve crude oil recovery, just like the ancients cleverly used various materials to achieve the purpose of production.
In agriculture, it can be used as a pesticide auxiliary agent to enhance the spread and adhesion of pesticides on the surface of plants and improve the utilization rate of pesticides, just like the ancients carefully allocated various materials to optimize agricultural production, thereby enhancing the control effect of pesticides on pests and diseases.
In the coatings and inks industry, this compound also plays an important role in improving the leveling and dispersion of coatings and inks, making them more evenly applied, just like the ancients' precise control of material preparation in process production, ensuring the high quality of the final product.

What are the effects of Sodium 4- (1-Ethyldecyl) Benzenesulfonate on human health?

"Tiangong Kaiwu" is an ancient scientific and technological masterpiece, with simple and elegant writing. Today, it describes "the impact of Sodium 4- (1-Ethyldecyl) Benzenesulfonate on human health" in its style as follows:
"Sodium 4- (1-Ethyldecyl) Benzenesulfonate, or commonly found in daily use. This thing has different effects on human health. If it enters the body, or is ingested through skin contact, breathing, or ingestion by mistake.
When the skin touches it, some people may feel uncomfortable, mild or itchy, red spots, severe or cause skin inflammation, making the skin fragile and lose its inherent state. If it enters the lungs through respiration, or disturbs the airway, causing coughing, asthma and other diseases, and impairing the clear function of the lungs.
Furthermore, if accidentally ingested, this substance is in the stomach, or the order of digestion is disrupted. The transportation and transformation of the stomach are blocked, or the disease of nausea, vomiting, and abdominal pain may occur. Long-term involvement, or involving the liver and kidney and other organs. Liver and kidney, the main detoxification and turbidity, this substance may increase its burden, damage its function, cause toxins in the body difficult to excrete, qi and blood run smoothly.
Although this item has its effectiveness in industrial and daily use, when people use it, they must not ignore its potential health concerns. They should treat it with caution, and strive to avoid its harm and use its benefits to protect their health and follow the natural order. "

How stable is Sodium 4- (1-Ethyldecyl) Benzenesulfonate in the environment?

Sodium 4- (1-Ethyldecyl) Benzenesulfonate is a surfactant. In the environment, its stability is related to many factors.
This substance has certain chemical stability. Under conventional environmental conditions, the benzenesulfonate group in its molecular structure is relatively stable and can resist some chemical reactions. However, physical, chemical and biological processes in the environment will affect its stability.
Under light conditions, some surfactants may undergo photolysis reactions. If Sodium 4- (1-Ethyldecyl) Benzenesulfonate is exposed to sunlight or a specific light source, light energy may cause its intramolecular chemical bonds to break, which in turn affects its stability and causes it to decompose into smaller molecular products.
Temperature is also a key factor. High temperature environments can accelerate the rate of molecular movement and increase the probability of chemical reactions. At higher temperatures, the substance may undergo thermal decomposition reactions, destroying its original molecular structure.
Furthermore, the pH in the environment has a great impact on its stability. In strong acid or strong alkali environments, its molecular structure may change. For example, under strong acidic conditions, benzenesulfonate ions may react with hydrogen ions, resulting in molecular structure changes; in strong alkaline environments, some chemical bonds in molecules may also be hydrolyzed and broken.
In addition, the role of microorganisms cannot be ignored. There are many microorganisms in the environment, and some microorganisms have the ability to degrade such organic compounds. Microorganisms can decompose Sodium 4- (1-Ethyldecyl) Benzenesulfonate as a carbon source or energy source through their own metabolic process, thereby reducing its stability in the environment.
Overall, the stability of Sodium 4- (1-Ethyldecyl) Benzenesulfonate in the environment is affected by a combination of factors such as light, temperature, pH value and microorganisms, and its stability varies under different environmental conditions.

How is Sodium 4- (1-Ethyldecyl) Benzenesulfonate produced?

The production process of 4 - (1 - ethyl decyl) benzene sulfonate is particularly complicated. First of all, the preparation of raw materials is crucial. Appropriate 1-ethyl decyl benzene needs to be taken. This is the starting quality, and its purity and quality have a huge impact on the quality of the final product. When the method of careful selection is used to obtain pure 1-ethyl decyl benzene, it is the foundation for the subsequent process.
Second rule, the step of sulfonation. Often sulfuric acid or fuming sulfuric acid is used as a sulfonating agent, mixed with 1-ethyl decyl benzene. Under suitable temperature and time control, it can fully react. If the temperature is too high, side reactions will occur frequently and the product will be impure; if the temperature is too low, the reaction will be slow and the efficiency will be low. Therefore, the temperature must be carefully checked, and it is generally controlled within a specific range to make the reaction proceed smoothly. Mixing the sulfonating agent with 1-ethyldecylbenzene in an appropriate ratio is also the key. If the ratio is out of balance, it will affect the yield and product.
Then, the order of neutralization. After the sulfonation is completed, the product is acidic and needs to be neutralized with a base. Sodium hydroxide is commonly used, and the pH is slowly added to an appropriate value. In this step, the rate and degree of neutralization need to be carefully observed. If it is too fast, the local alkali concentration will be too high, causing the product to be After neutralization, the product may contain impurities and needs to be removed by refining.
Refining method, or filtration, crystallization, extraction, etc. Filtration can remove insoluble impurities; crystallization can purify the product, according to its solubility, temperature control and solvent dosage, so that the product crystallizes and precipitates; extraction uses a suitable solvent to purify the product and remove the rest. After these steps, pure sodium 4 - (1 - ethyl decyl) benzene sulfonate can be obtained. Between the steps, interlocking, any link of the sparse, all affect the quality and yield of the product, so when producing, we must strictly abide by the procedures and carefully observe all kinds of variables to get a good product.

Sodium 4- (1-Ethyldecyl) Benzenesulfonate compared to other congeneric products

Compared with other congeneric products, sodium-4- (1-ethyldecyl) benzenesulfonate has the following advantages:
This compound has a unique molecular structure, in which the chain length and branching design of 1-ethyldecyl are exquisite. Long-chain alkyl can enhance its solubility and affinity in non-polar substances, so that the product has excellent dispersion and emulsification ability in oil phase systems. In many industrial scenarios, such as emulsion polymerization, it can effectively reduce the interfacial tension of oil and water and promote the stable formation of emulsions, which is beyond the reach of many congeneric products.
Furthermore, its sulfonate group endows the product with good hydrophilicity and ionic properties. In aqueous solutions, ions can be ionized to generate ions, providing electrostatic repulsion to maintain system stability. In detergent formulations, this property helps it to adsorb on the surface of dirt, and electrostatic action makes it easier for the dirt to be detached and dispersed from the surface of the object. The decontamination effect is significantly better than that of some congeneric products.
Moreover, due to the specific structure in the molecule, the product exhibits good stability at different temperatures and pH environments. Whether it is in high-temperature industrial processes or in application scenarios with different acid and alkali conditions, it can maintain good performance, not easily decomposed or deactivated, broadening its scope of application, and many congeneric products are demanding on environmental conditions.
In addition, the synthesis process may be easier and more controllable, and the production cost may be more advantageous. In large-scale production, this advantage can effectively reduce product prices and enhance market competitiveness, which is difficult for congeneric products to achieve.