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What is the chemical structure of Sodium 2- (Methyl (1-Oxododecyl) Amino) Ethanesulphonate
Sodium 2- (Methyl (1 - Oxododecyl) Amino) Ethanesulphonate, this is a compound whose chemical structure is composed of several parts.
Looking at its name, "Sodium" indicates that it is a sodium salt, that is, with sodium ions ($Na ^ + $).
"2- (Methyl (1 - Oxododecyl) Amino) Ethanesulphonate" In "Ethanesulphonate", "Ethanesulphonate" is an ethanesulfonic acid group. This group contains ethane and sulfonic acid groups. The sulfonic acid group has good water solubility and ionization characteristics. "2 -" indicates that the connection check point is at position 2 of the ethanesulfonic acid group.
" (Methyl (1 - Oxododecyl) Amino) " part, "Amino" is an amino group, this amino group is connected to "Methyl (1 - Oxododecyl) ". "Methyl" is a methyl group, and "1 - Oxododecyl" represents a dodecyl group with a carbonyl group ($C = O $) at position 1. This long chain alkyl group gives the compound a certain lipophilicity.
Overall, the compound is composed of a long-chain alkyl group and a methyl-modified amino group that are lipophilic at one end, and a hydrophilic sulfonic acid group and sodium ion at the other end. It has typical surfactant structural characteristics and may have applications in many fields such as daily chemicals, industrial cleaning, etc. With its amphiphilicity, it can play the functions of emulsification, dispersion, and solubilization.
What are the physical properties of Sodium 2- (Methyl (1-Oxododecyl) Amino) Ethanesulphonate
Sodium + 2 - (methyl (1 -oxododecyl) amino) ethane sulfonate, this substance is a common raw material for fine chemicals. Its physical properties are quite important and affect the application efficiency.
Looking at its properties, it is mostly white or off-white powder at room temperature, delicate and uniform, and smooth to the touch. This form is conducive to accurate weighing and dispersion, and can be easily operated in many processes.
In terms of solubility, it is easily soluble in water to form a clear and transparent solution. This property makes it well dispersed and soluble in aqueous systems, and can be widely used in detergents, cosmetics and other fields to play its specific functions in formulations.
Melting point is also a key physical property. Usually there is a specific melting point range, although the exact value may vary depending on the preparation process, it is roughly stable within the range. The existence of the melting point determines the phase transition during the heating process, and it needs to be heated during production and processing. This property affects the control of operating temperature, ensuring that the material is in a suitable physical state and maintaining process stability.
Surface activity is significant, which can reduce the surface tension of water. In solution, it can be quickly adsorbed on the interface and change the interface properties. In detergents, it can make water easier to wet the surface of clothes, enhance the emulsification and dispersion ability of oil stains, and improve the decontamination effect; in the preparation of cosmetic emulsions, it helps the oil phase and water phase to mix evenly to form a stable emulsion structure.
In addition, its density is relatively stable under specific conditions, providing an important reference for product formulation design and process control. Different application scenarios may have different requirements for its density, and production needs to be precisely adjusted according to actual needs.
Sodium 2- (Methyl (1-Oxododecyl) Amino) Ethanesulphonate in which applications
Sodium (sodium) and 2 - (Methyl) (1 - Oxododecyl (1 - Oxododecyl)) Amino (amino)) Ethanesulphonate (ethanesulfonate) composed of substances, scientific name 2 - [methyl (1 - oxododecyl) amino] sodium ethanesulfonate, often referred to as sodium lauroyl methyl taurine. This substance is widely used and has applications in many fields.
In the field of daily chemical industry, it is often used as a surfactant in cleansing products. Because of its excellent decontamination and foaming properties, it can effectively clean the oil and dirt on the surface of the skin, and it is mild in nature and less irritating to the skin, so it is often used to make mild facial cleansers, which can keep the skin soft and comfortable after cleaning, without excessive dryness and tightness.
In the field of personal care, such as shampoo, body wash and other products are also used. In shampoo, it can not only clean the hair, remove oil and dandruff, but also make the hair soft and shiny after washing; in body wash, it can produce a rich and dense foam, gently cleanse the body skin, and give the user a comfortable bathing experience.
In the field of industrial cleaning, with good decontamination and dispersion properties, it can be used for metal surface cleaning to remove oil and impurities, ensure the cleaning of metal products, and lay the foundation for subsequent processing or use; it can also be used for fabric cleaning, effectively removing various stains on fabrics, while reducing damage to fabrics.
In the field of food processing, it can be used as a food additive when it meets relevant food safety standards. For example, in some beverages and dairy products, it is used as an emulsifier to help maintain product stability, prevent oil separation or precipitation, and improve product quality and shelf life.
What is the preparation method of Sodium 2- (Methyl (1-Oxododecyl) Amino) Ethanesulphonate
To prepare Sodium + 2 - (Methyl (1 - Oxododecyl) Amino) Ethanesulphonate, the ancient method is as follows.
First of all, you need to prepare the raw materials, choose the fine dodecanoic acid, and mix it with methylamine in an appropriate ratio. The combination of the two is suitable for the environment of temperature and pressure. If the temperature is too high, the side should be clumped; if the temperature is too low, it should be slow and difficult to form. After the two are mixed, a catalytic agent is applied to make it react quickly. The choice of catalyst is extremely important, and it should be able to promote the reaction without impurities.
Then, introduce the derivative of ethanesulfonic acid. At this step, it is crucial to control the rate and conditions of the reaction. It is necessary to carefully observe the progress of the application, so as to ensure that the derivative of ethanesulfonic acid is just suitable for the contact with the previous product. During the application, it may be necessary to fine-tune the temperature and pressure to ensure a smooth reaction.
After the application is completed, the obtained product still needs to be purified. By various separation methods, such as chromatography, crystallization, etc., to remove impurities and store sperm. The method of chromatography can be divided into impurities and main substances according to the nature of the substance. The method of crystallization depends on the difference in the solubility of the substance in different solvents, so that the main substance can be separated and purified.
During the whole process, every step needs to be carefully observed. From the selection of raw materials, to the control, to the purity of the product, all are related to the quality of the final Sodium + 2 - (Methyl (1 - Oxododecyl) Amino) Ethanesulphonate. A little carelessness may cause the product to be impure or the yield to be low. Therefore, the operator should be in awe and abide by the rules to get good things.
Sodium 2- (Methyl (1-Oxododecyl) Amino) Ethanesulphonate
Sodium (sodium) and 2 - (Methyl) (1 - Oxododecyl (1 - Oxododecyl)) Amino (amino)) Ethanesulphonate (ethylsulfonate) composed of a substance, the Chinese name is sodium lauroyl methyl taurine, is a kind of surfactant. When using, be sure to pay attention to the following things:
First, safety protection must not be forgotten. Although this substance is usually milder, it may also cause irritation in direct contact with the skin and eyes. Therefore, when operating, it is advisable to wear appropriate protective equipment, such as gloves, goggles, etc. If it is accidentally touched, it should be rinsed with a lot of water immediately. If it is serious, seek medical attention in time.
Second, pay attention to compatibility taboos. When this substance encounters certain cationic surfactants or high-concentration electrolytes, it may precipitate, resulting in reduced surface activity. When using it in combination, be sure to test it first to clarify its compatibility and ensure stable product quality and performance.
Third, precisely control the dosage. According to different application scenarios and needs, strictly control the dosage. If the dosage is too small, the desired effect may not be achieved, and functions such as decontamination and emulsification are difficult to fully exert; if the dosage is too large, it will not only increase the cost, but also cause abnormal product performance, such as excessive foaming, which will affect the use experience.
Fourth, storage conditions are crucial. Store in a cool, dry and well-ventilated place, away from fire sources and oxidants. Improper storage may cause it to become damp and deteriorate, thus weakening the surface activity and affecting the effectiveness of use.
