Sodium Bromo Ethane Sulphonate

Sodium bromoethane sulfonate, which is a particularly important chemical substance, has a wide range of uses.
In the industrial field, one can be used as a surfactant. It can significantly reduce the surface tension of liquids, making liquids easier to spread and penetrate. Adding this substance to detergents can enhance its decontamination ability, making it easier for dirt to detach from the surface of fabrics and other objects, achieving a more ideal cleaning effect. This is due to the special molecular structure of sodium bromoethane sulfonates. One end is a hydrophilic group, which can interact with water; the other end is a hydrophilic group, which can be combined with oil stains to achieve good emulsification and dispersion effects.
Second, it also has important uses in the textile industry. It can be used as a fabric treatment agent, and the treated fabric can obtain antistatic properties. In this way, the fabric is not easy to absorb fine particles such as dust during wearing and use, keeping the surface clean. And it can also improve the softness of the fabric, make the hand feel more comfortable, and add the quality and added value of the fabric.
Third, it also plays a key role in the petroleum industry. In the process of oil field exploitation, it can be used as an oil displacement agent. By reducing the interfacial tension between oil and water, the recovery rate of crude oil is improved. Because it can change the wettability of the rock surface, the crude oil can more easily flow out of the rock pores, thereby improving the efficiency of oil extraction and increasing oil production.
Furthermore, in the field of medicine, sodium bromoethane sulfonate can also be used as an intermediate for some drugs. With its unique chemical structure, it participates in the drug synthesis process, laying the foundation for the preparation of drugs with specific curative effects, and helping to develop more efficient and safe drug varieties.

The process of manufacturing sodium bromoethane sulfonate is quite complicated and requires careful operation. At the beginning, ethane is often used as a group to react with bromine. This reaction requires specific conditions, such as suitable temperature and pressure, and a catalyst may be introduced to promote its speed.
When ethane comes into contact with bromine, through a substitution reaction, bromine atoms enter the ethane structure to obtain bromoethane. In this process, temperature control is the key. If it is too high, side reactions will occur, resulting in impure products; if it is too low, the reaction will be slow and time-consuming.
After obtaining bromoethane, it will meet with sulfonating agents such as sodium sulfite. This step also requires strict regulation of the reaction conditions, such as pH, temperature and reaction time. In a suitable acid-base environment, the bromine atom of bromoethane is replaced by sulfonate, and the final product is sodium bromoethane sulfonate.
Throughout the process, the precise measurement of the reaction material, the fine maintenance of the reaction equipment, and the strict monitoring and regulation of the reaction conditions are all necessary to ensure the purity and yield of the product. A slight poor pool will lead to poor product quality or low yield. And after each step of the reaction, it is often necessary to separate and purify methods, such as distillation, crystallization, extraction, etc., to remove impurities and obtain pure sodium bromoethane sulfonate. In this way, the product of this fine chemical industry can be obtained.

For sodium bromoethane sulfonate, its Quality Standards involve purity, impurity content, moisture, pH value, particle size, etc.
The first word is purity, which is the key standard. High purity sodium bromoethane sulfonate can show its good effect in various applications. If the purity is insufficient, or the reaction result is deviated, the product quality is not as expected. Therefore, it is often necessary to use high performance liquid chromatography, gas chromatography and other methods to accurately measure its purity, usually requiring a very high proportion, which is almost pure.
The impurity content should not be underestimated. All kinds of impurities, such as unreacted raw materials, side reaction products, etc., can affect its performance. It is necessary to use precise analysis methods to check the types and content of impurities in detail, and strictly control them at a very low level to avoid interference during application.
Moisture content is related to its stability and reactivity. Excessive moisture or deliquescence affect storage and use. It is often measured by Karl Fischer method, etc., and the moisture is strictly limited within a specific range to ensure its inherent characteristics.
pH value is also an important indicator. The pH value of the environment in which sodium bromoethane sulfonate is located can have an effect on its chemical properties. According to its use and reaction requirements, the pH value needs to be adjusted to a suitable range, and it needs to be accurately measured and adjusted by a pH meter.
In terms of particle size, different application scenarios have different needs for its particle size. In some reactions or preparations, the appropriate particle size can promote the reaction rate and increase dispersion. The particle size distribution is often measured by a laser particle size analyzer and processed according to actual needs.
All these Quality Standards complement each other and need to be carefully controlled to make sodium bromoethane sulfonate play its due role in various fields and achieve good application results.

When using sodium bromoethane sulfonate, many things need to be paid attention to.
First, it is related to its physical and chemical properties. This substance has specific chemical properties, such as solubility, and it is necessary to know its dissolution in different solvents in order to ensure uniform dispersion in the reaction system and play an effective role. For example, if it is insoluble in water, and the reaction system uses water as a solvent, it is necessary to consider means such as co-solvents to make it fully dissolved to prevent affecting the reaction process.
Second, in the operation process, safety is of paramount importance. Sodium bromoethane sulfonate may be toxic and corrosive. When operating, you must be fully armed and wear protective equipment, such as protective gloves, goggles, protective clothing, etc., to avoid direct contact with skin, eyes, etc. If you accidentally contact, you should immediately follow the corresponding first aid measures, such as rinsing with a large amount of water, and seek medical attention in time.
Third, the control of reaction conditions should not be underestimated. Temperature, pH, reaction time, etc. will all affect the reaction effect. If the temperature is too high, or it may decompose, affecting the yield; if the temperature is too low, the reaction rate will be slow and time-consuming. The pH will also interfere with the direction and rate of the reaction, which needs to be precisely adjusted to an appropriate range. And the reaction time must also be strictly controlled. If the time is too short, the reaction will be incomplete; if the time is too long, it may cause side reactions, consume raw materials, and reduce the purity of the product.
Fourth, storage is also exquisite. It should be stored in a dry, cool and well-ventilated place, away from fire and heat sources, and avoid mixing with oxidizing and reducing substances to prevent dangerous chemical reactions. At the same time, it needs to be sealed and stored to prevent it from getting wet and deteriorating, which will affect the performance.
In short, when using sodium bromoethane sulfonate, it is necessary to fully understand its characteristics, operate with caution, and strictly control the reaction conditions and storage environment to ensure safe and efficient work.

I don't know the exact market price range of the thing you said "Sodium + Bromo + Ethane + Sulphonate". However, if you want to know its price, you can check it from the following ways.
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