Sodium Octane-1-Sulfonate

Lingxian Chemical

Specifications

HS Code	890079
Chemical Formula	C8H17NaO3S
Molar Mass	216.27 g/mol
Appearance	White to off - white powder
Solubility	Soluble in water
Ph	Neutral in aqueous solution
Purity	Typically high purity, e.g., 98%+
Density	Approx. 1.10 g/cm³
Melting Point	180 - 185 °C
Flash Point	Non - flammable
Stability	Stable under normal conditions

Packing & Storage

Packing	Sodium Octane - 1 - Sulfonate packaged in 1 - kg bags for convenient use.
Storage	Sodium octane - 1 - sulfonate should be stored in a cool, dry, and well - ventilated area. Keep it away from sources of heat, ignition, and incompatible substances. Store in a tightly sealed container to prevent moisture absorption and air exposure. Avoid storing near strong acids or oxidizing agents. This helps maintain its chemical stability and reduces the risk of degradation or hazardous reactions.
Shipping	Sodium Octane - 1 - Sulfonate is shipped in sealed containers, typically drums or bags. Care is taken to ensure it's protected from moisture and contaminants during transit as it's a chemical sensitive to environmental factors.

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General Information

Historical Development

I tried to study chemical products, and now I say Sodium Octane-1-Sulfonate. Tracing back to its origin, the chemical industry was not yet prosperous in the past, and everyone's knowledge of sulfonic acids was still shallow.
At the beginning, the researchers wanted a high-efficiency auxiliary to assist in various industrial processes. So for years and years, I explored the material and tried the formula. At first, I got something, and made this Sodium Octane-1-Sulfonate. At the beginning of its formation, its nature was not pure, and its efficacy was not yet perfect.
However, the researchers continued to study and improve for several years, optimizing the production method, and its purity gradually increased, and its effectiveness became increasingly apparent. In the textile industry, it can help dye uniformly, and in the paper industry, it can make the fibers disperse appropriately. Therefore, its use has become more and more widespread, and with the advance of industry, it has achieved great success. This is the outline of its development.

Product Overview

"Description of Sodium Octane-1-Sulfonate"
Sodium Octane-1-Sulfonate is a product of exquisite chemistry. Its shape or powder, the color is usually plain, mostly white. This substance is used in many fields of chemical industry and has key uses.
In industrial processes, it can be used as an excellent auxiliary. Its molecular structure is unique and it is excellent in surface activity. It can significantly reduce the surface tension of liquids and greatly improve the dispersion and emulsification properties of the system. For example, in the process of emulsion preparation, it can help the oil phase to be evenly dispersed in the aqueous phase to form a stable emulsion system, laying the foundation for the manufacture of many fine chemical products. In the textile printing and dyeing industry, it can also play an important role in promoting the uniform adhesion of dyes to fabrics, improving the uniformity and brightness of printing and dyeing effects.
Sodium octane-1-sulfonate is an indispensable and important substance in the chemical industry. Its unique properties and wide application make great contributions to the development of industry.

Physical & Chemical Properties

Sodium octane-1-sulfonate has different properties and is widely used. Its quality has the property of yin charge, which is easy to dissolve in water and has the state of liquid clarification. Looking at the number of melting and boiling, the melting point is moderate, and the boiling point is quite high. This property makes it stable in the normal temperature environment.
Its surface activity is excellent, and it can reduce tension between interfaces. It makes the liquid easy to spread out and has strong moisturizing power. And its chemical properties are also stable, and it rarely changes in case of constant agents. However, in the environment of strong acid and alkali, there may be changes in chemical response. With its various physical properties and chemical properties, it is of great use in the industry of detergents and the field of chemical testing. It is important for the industry and can help all kinds of industrial things run smoothly without delay.

Technical Specifications & Labeling

Today there is a product called Sodium Octane - 1 - Sulfonate. Its process specifications and identification (product parameters) are related to the advantages and disadvantages of this product and its application.
In terms of process specifications, when preparing, it is necessary to follow precise methods. The choice of raw materials must be pure and the proportion must be suitable. The temperature and time of the reaction are fixed, and if there is a slight difference, the quality is difficult to control.
As for the identification (product parameters), the amount of content is related to the utility, and it must be detailed. The color and state of the appearance are also the main points, which can help to distinguish the authenticity. Solubility and other characteristics should also be clearly marked, so that users can make good use of this product, achieve the desired effect, and play their strengths in various fields.

Preparation Method

Sodium Octane-1-Sulfonate is made by taking octane as the raw material and making it by the process of sulfonation.
Take pure octane, place it in a special kettle, use sulfuric acid as the sulfonating agent, add it slowly, during which the temperature must be controlled appropriately, do not overheat or overcool, so as not to cause other changes. And use a good mixer to make the two mix evenly.
The corresponding process is: when octane encounters sulfuric acid, the hydrocarbon group of octane is combined with the sulfonate group, and Sodium Octane-1-Sulfonate and water are produced. After completion, by means of neutralization, adjust its pH with sodium hydroxide to obtain pure Sodium Octane-1-Sulfonate.
In order to ensure the purity of the product, a refining step is set up, and the technology of distillation and crystallization is used to remove impurities and store sperm to make the product combine with the desired quality. In this way, the Sodium Octane-1-Sulfonate product is obtained.

Chemical Reactions & Modifications

The industry of chemical industry, in the change of things, is the ultimate truth. In today's words, Sodium Octane-1-Sulfonate has a lot to do with its transformation and modification.
Looking at its transformation, it often changes wonderfully between various media. It dissolves in phase with water, and the ionic state is obvious, which can trigger the order of surrounding molecules. At the interface, it can change the surface tension and cause differences in phase states. If oil and water are difficult to melt, if this is added, it may become emulsion, and it has the properties of lipophilic and hydrophilic ends.
As for modification, chemical methods can be used to adjust its chain length and conformation. If the length of its chain is increased, or its affinity to the organic phase can be strengthened; if the position of its group is changed, its activity may also be changed. Through this, it can be adapted to more working conditions, expand the scope of its use, and it is expected to improve its efficiency in washing and emulsifying, so as to benefit the people's livelihood in industry.

Synonyms & Product Names

Sodium Octane-1-Sulfonate is one of the chemical substances. Its synonymous names are numerous. Looking at ancient books, it may be called "sodium octane-1-sulfonate", which is directly based on its chemical structure. It is also named for its functional characteristics. For example, in some industries, it is called "specific sulfonation auxiliary", because it can help the reaction smoothly and promote the effect. As for the trade names, they are also different. In industrial preparations, there is often the name "instant sulfonate crystal", which means that it dissolves quickly in solvents, which is convenient for actual production operations, which can increase efficiency and reduce time consumption. These are the synonyms and trade names of Sodium Octane-1-Sulfonate, each of which has its own use to facilitate industry communication and production practices.

Safety & Operational Standards

Safety and operation specifications for sodium octane-1-sulfonate
Vooctane-1-sulfonate sodium, chemical substances are also. In experiments and production, it is very important to understand its safety and operation specifications.
In terms of safety, this object has certain characteristics. Touch the skin, or cause discomfort, such as itching, redness, etc. If you are not careful to enter the eyes, it is especially harmful, or damage the function of the eyes. Therefore, when operating, protective gear is indispensable. Wear protective clothing to prevent it from coming into contact with the skin; wear protective gloves to avoid direct touch; wear protective glasses to prevent splashing into the eyes.
And if this substance is accidentally inhaled, or interferes with breathing, causing cough, asthma and other diseases. It is essential to operate in a well-ventilated place. Set up ventilation equipment to circulate the air, which can reduce its concentration in the air and avoid the danger of inhalation.
Operating specifications also need to be strictly observed. When measuring, use a precise device, according to the number of prescriptions, not more or less. When dissolving, choose the appropriate solvent according to its nature, and add it slowly, stirring at the same time to promote its homogeneous dissolution.
When storing, place it in a cool, dry place to avoid heat and moisture. Store separately with other substances to prevent mutual reaction. After use, properly dispose of the remaining items, and do not discard them at will according to environmental protection regulations.
In short, in the handling of sodium octane-1-sulfonate, safety is the first priority, and norms are the most important. Following these two can avoid disasters and ensure the smooth operation of experiments and production.

Application Area

Sodium Octane - 1 - Sulfonate is very useful in many application fields. In the field of printing and dyeing, it can be used as an auxiliary agent to make the dye evenly dyed, and the color is more colorful and lasting. After the fabric is treated, the uniformity of dyeing is greatly increased, and there is no harm of different shades.
In oil extraction, it is also indispensable. It can reduce the interfacial tension of oil and water, promote the release of crude oil from rock pores, and increase the recovery rate. Injecting fluids containing this substance can effectively drive oil and make the reservoir more fully exploited.
In daily chemical products, it is often a detergent ingredient. With its surface activity, it can remove oil stains and make the cleaning effect better. In shower gel and detergent, it can help dissolve oil stains and achieve the purpose of cleaning. In conclusion, Sodium Octane-1-Sulfonate plays a key role in the fields of printing and dyeing, petroleum, and daily chemicals, with far-reaching impact.

Research & Development

Today there is a product, named Sodium Octane-1 - Sulfonate. Our generation is a scientific researcher, exploring it and seeking its development.
This product has unique properties and has great potential in many fields. After repeated research, it has been found that its structure is exquisite and its performance is excellent. In industrial production, it can be used as an auxiliary to help smooth the reaction and improve the quality and quantity of the product. In daily chemical industry, it can increase the effect of products, such as washing and decontamination, and has the power of good emulsification and dispersion.
However, if you want to make it widely used and good, you still need to improve. Research its new synthesis method, seek high efficiency and environmental protection. Explore its new application areas and expand its application. We should make unremitting efforts to ensure that the research and development of this product will benefit the world, promote the prosperity of the industry, and have endless applications.

Toxicity Research

Since modern times, chemical refinement has emerged, and various products have emerged in an endless stream. Today there is Sodium Octane-1 - Sulfonate, which is widely used in various industrial fields. However, the study of its toxicity cannot be ignored.
Yu devoted himself to exploring the toxicity of this substance. After repeated experiments, observe its response to biological organisms, and observe its changes in the environment. At first, I tried it with microinsects, and saw that its vitality gradually decayed, and its behavior was different from usual. Repeat it with plants and trees, and observe that its growth was blocked and its leaves lost their green color.
From this perspective, although Sodium Octane-1 - Sulfonate is useful in industry, its toxicity should not be underestimated. When using it, we should be cautious and careful, study its harm in detail, and seek ways to avoid disasters, so as not to inherit them in future generations.

Future Prospects

Today there is a thing called Sodium Octane - 1 - Sulfonate. Looking at its properties, it has a wide range of uses. In the field of industry, it can be used as an auxiliary agent to help materials blend and improve the efficiency of production. In the process of scientific research, it is a good product for experiments, for scholars to explore the nature of matter and study the mechanism.
Looking to the future, the development of this product is unlimited. With the development of science and technology, it may emerge in the preparation of new materials. With its unique properties, it has become a key component and promoted material innovation. The wind of environmental protection is becoming more and more prosperous, and it may show its talents in the treatment of pollutants, using its own characteristics to clean sewage and remove impurities. Furthermore, medical exploration also has opportunities, or it may be a drug carrier, precise drug delivery, and help patients recover.
We should study it diligently, tap its potential, and make it shine in the future for the benefit of the world.

Frequently Asked Questions

What are the main uses of Sodium Octane-1-Sulfonate?

Sodium Octane-1-Sulfonate is an organic compound. Its main uses are quite extensive, let me talk about them one by one.
In the industrial field, first, it is often used as a surfactant. This substance can reduce the surface tension of the liquid, making the liquid easier to spread and penetrate. For example, in the textile printing and dyeing industry, adding this substance can help the dye liquid to be evenly distributed on the fabric, making the dyeing more uniform and the color more vivid. Second, in the detergent formula, Sodium Octane-1-Sulfonate plays a crucial role. It can enhance the emulsification and dispersion ability of detergents to oil stains, so that oil stains can be better suspended in water and washed away with the water flow, thereby improving the washing effect and cleaning clothes, tableware and other items.
In the field of daily chemicals, many personal care products also have their own impact. For example, shower gel, shampoo, etc., it can produce rich and delicate foam, giving users a good experience, while helping to clean the skin and hair of dirt.
In some auxiliary links of industrial processes, it can also prevent the agglomeration of particles in the liquid and maintain the stability of the system. For example, in the production of paints, the pigments can be evenly dispersed to avoid pigment precipitation, ensuring the quality and performance of the paint, and making the coating effect better.
All of these are the main uses of Sodium Octane-1-Sulfonate, which is indispensable in many aspects such as industry and daily use.

What are the physical properties of Sodium Octane-1-Sulfonate?

Sodium + sodium octane-1-sulfonate is a chemical substance. Its physical properties are quite important and are related to many applications.
Looking at its properties, sodium octane-1-sulfonate is mostly in the shape of white crystals or powders, which is its intuitive physical manifestation and easy to identify.
When it comes to solubility, this substance has a certain solubility in water. Water is the solvent of all things. Sodium octane-1-sulfonate can dissolve in water to form a uniform solution. This property makes it useful in many chemical processes and industrial applications. Because it is in the solution, the substance can better participate in the chemical reaction and exert its chemical function.
Furthermore, the melting point is also one of its important physical properties. Sodium octane-1-sulfonate has a specific melting point, and the value of this melting point plays a decisive role in its physical state under different temperature conditions. When the temperature does not reach the melting point, it is a solid state with a certain shape and hardness; and when the temperature rises above the melting point, it gradually changes to a liquid state, and the fluidity increases greatly.
In addition, its density cannot be ignored. For density, the mass per unit volume is also. The density of sodium octane-1-sulfonate determines its position and distribution in the mixed system. In the process of chemical production, separation and purification, the density properties are related to the success or failure and efficiency of the operation.
In summary, the physical properties of sodium octane-1-sulfonate involved in sodium and sodium octane-1-sulfonate, its white crystal or powder properties, solubility in water, specific melting point and density, etc., are of great significance in many fields such as chemical research and industrial production, and provide a key basis for the design, operation and optimization of related processes.

Is Sodium Octane-1-Sulfonate Chemically Stable?

Sodium Octane-1-Sulfonate, that is, sodium octane-1-sulfonate, is quite stable in its properties.
Looking at its chemical structure, the sulfonic acid group is bound to the sodium cation. The sulfonic acid group has strong polarity, which endows the molecule with good water solubility. This structural feature has a significant impact on many chemical reactions and application scenarios. In terms of chemical properties, as an organic sulfonate, it is not easy to spontaneously decompose under common conditions. Because the chemical bond formed between the sulfur atom and the oxygen atom in the sulfonate structure is quite strong, it can resist common environmental factors such as light, moderate temperature and the action of general chemical reagents.
Sodium octane-1-sulfonate also exhibits certain stability in acid-base environments. In neutral, weakly acidic and weakly basic environments, its molecular structure remains basically unchanged. Even under strongly acidic conditions, although the sulfonic acid group will interact with protons to a certain extent, it also requires more severe conditions to completely disintegrate its molecular structure. In alkaline environments, due to the existence of sodium cations, it can coexist with hydroxide ions, and the overall molecular structure can still be maintained relatively stable.
From the perspective of physical properties, sodium octane-1-sulfonate is in solid form and has good solubility. This property makes it uniformly dispersed in the solution system, further enhancing its stability. Because it can exist stably in the solution, it is not easy to aggregate, precipitate or decompose due to small changes in the environment.
In summary, sodium octane-1-sulfonate is chemically stable under common chemical environments and physical conditions, and can be widely used in many fields without easy deterioration or decomposition.

In which industries is Sodium Octane-1-Sulfonate widely used?

Sodium + sodium octane-1-sulfonate, this substance is widely used in various industries. In the printing and dyeing industry, it is often used as an auxiliary agent. Due to its good emulsification, dispersion and wetting ability, the dye can be evenly dispersed in the dye solution, making the fabric uniform and bright, and can improve the permeability of the dye and improve the dyeing effect, so it is indispensable in the fabric dyeing process.
In the detergent industry, it is also a key ingredient. With its excellent decontamination performance, it can effectively disintegrate oil stains and help clean the surface stains of various fabrics and utensils. It can reduce the surface tension of water, making it easier for water to penetrate into the stain, achieving efficient decontamination, and adding energy to daily cleaning products.
In the petroleum industry, it plays an important role. In drilling operations, it can be used as a mud treatment agent. By adjusting the properties of the mud, such as enhancing the stability of the mud, reducing the amount of filtration, ensuring the smooth development of drilling operations and maintaining the stability of the underground environment, it has a far-reaching impact on the process of oil extraction.
In the leather industry, it is also useful. In the tanning and finishing of leather, it can be used as a fatening agent and a leveling agent. It can make leather fibers soft and plump, improve the quality and durability of leather, and at the same time help the dye to distribute evenly, so that the leather color is consistent.
It can be seen that sodium + octane-1-sulfonate is widely used in printing and dyeing, washing, petroleum, leather and other industries, and has made great contributions to the development of various industries.

What are the preparation methods of Sodium Octane-1-Sulfonate?

There are generally two ways to prepare sodium octane-1-sulfonate.
One is the sulfonation method. First take the octane, use sulfuric acid or fuming sulfuric acid as the sulfonating agent, and at an appropriate temperature and reaction time, the two start a sulfonation reaction. The structure of the octane is that in the reaction, its terminal carbon is combined with the sulfonic acid group of the sulfonating agent to produce octane-1-sulfonic acid. The reaction process is quite complicated, requiring temperature control, time control, and ratio control of the reactants. If the temperature is too high, it may cause excessive sulfonation or side reactions; if the temperature is too low, the reaction rate will be slow. After the sulfonation is completed, it is neutralized with alkaline substances such as sodium hydroxide to convert octane-1-sulfonic acid into sodium octane-1-sulfonate. In this process, the degree of neutralization also needs to be precisely controlled, otherwise the purity of the product will be affected.
The second is the reaction of halogenated alkanes with sodium sulfite. First, the octane is halogenated to obtain 1-halogenated octane. Halogenated reactions often use halogen elements or hydrogen halides as reagents, and light or heating can promote the reaction. After the formation of 1-halogenated octane, it reacts with sodium sulfite in a suitable solvent. This reaction follows a nucleophilic substitution mechanism. Sulfite ions act as nucleophiles to attack the carbon attached to the halogen atom of 1-halogenated octane, and the halogen atom leaves to form sodium octane-1-sulfonate. The choice of reaction solvent is crucial, and it needs to have good solubility to the reactants and no side reactions with the reactants and products. The reaction conditions also need to be finely regulated, such as temperature and reaction time, to obtain higher purity sodium octane-1-sulfonate products.