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Dipotassium 3,3'-Sulphonylbis(Benzenesulphonate)

Lingxian Chemical

Specifications

HS Code	645320
Chemical Formula	C12H8K2O8S3
Molar Mass	462.67 g/mol
Appearance	White powder or granules
Solubility In Water	Soluble
Ph Aqueous Solution	Near - neutral
Density	Typically around 1.5 - 1.7 g/cm³
Melting Point	Decomposes rather than having a distinct melting point
Thermal Stability	Stable under normal conditions, may decompose on strong heating
Hygroscopicity	May absorb moisture from the air
Chemical Reactivity	Reacts with strong acids and bases

As an accredited Dipotassium 3,3'-Sulphonylbis(Benzenesulphonate) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	1 - kg package of dipotassium 3,3'-Sulphonylbis(Benzenesulphonate) in sturdy chemical - grade bag.
Storage	Dipotassium 3,3'-Sulphonylbis(Benzenesulphonate) should be stored in a cool, dry place away from direct sunlight. Keep it in a well - sealed container to prevent moisture absorption and contamination. Avoid storing near reactive substances as it may react. Ensure the storage area is well - ventilated to minimize exposure risks and maintain the chemical's stability.
Shipping	Dipotassium 3,3'-Sulphonylbis(Benzenesulphonate) is shipped in secure, properly - labeled containers. Packaging adheres to chemical safety regulations. Shipment methods ensure protection from damage and potential environmental exposure during transit.

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Dipotassium 3,3'-Sulphonylbis(Benzenesulphonate)

General Information

Historical Development

"The Evolution of Dipotassium 3,3 '-Sulphonylbis (Benzenesulphonate) "
View the wonders of chemistry, and the substances are diverse. Today there is Dipotassium 3,3' -Sulphonylbis (Benzenesulphonate). At the beginning, the academic community did not pay much attention to it. However, with the advance of research, various sages began to realize its special ability.
At the beginning, only one or two of its physical properties were known, and the preparation method was not very good. Over the years, the craftsmen worked hard and made many improvements in the synthesis technique. Since the simple method, it has gradually been perfected, and the yield has also increased.
Its use is initial or limited, and later it has learned from others' strengths, showing its effectiveness in the fields of industry and scientific research. I was ignorant in the past, but now I am clear about its many wonders. From this perspective, this agent has been used in chemistry since the end of the day, and has gradually become cherished by the academic community. The process of development has also witnessed the unremitting spirit of our generation's exploration.

Product Overview

There is a substance today called Dipotassium 3,3 '-Sulphonylbis (Benzenesulphonate). The properties of this substance are pure in color, just like the whiteness of the first snow, and the texture is delicate, just like the powder of the first snow. Its properties are stable, and it can last for a long time at room temperature without deterioration.
This substance has a wide range of uses. In industry, it is often used as an auxiliary agent to help all kinds of chemical reactions be smooth and efficient. It is also used in the manufacture of fine chemical products. Adding it can increase its quality and make it better. In the field of scientific research, it is an important reagent to help researchers explore the unknown and solve the mysteries of chemistry.
The preparation of this product requires fine operation, according to rigorous methods, temperature control and time control, so that the raw materials can be properly combined in order to obtain this excellent product to meet the needs of all parties.

Physical & Chemical Properties

Dipotassium 3,3 '-Sulphonylbis (Benzenesulphonate) is also a chemical substance. Looking at its physical properties, at room temperature, it may be solid, white and pure in color, with fine particles, such as the smoothness of powder. Its taste is tasteless, and it has no pungent smell.
In terms of its chemical properties, it has a certain degree of stability. In a common mild environment, it is not easy to spontaneously produce violent chemical reactions. In case of strong oxidants, oxidation may occur; in case of strong alkalis and strong acids, or participate in specific reactions, its structure and properties will be changed accordingly. Soluble in water, the formed solution has good conductivity, because it can dissociate ions in water. This substance has unique value in chemical research and industrial applications, and the investigation of its physical and chemical properties provides an important foundation for the development of many fields.

Technical Specifications & Labeling

"On the Technical Specifications and Labeling (Product Parameters) of Dipotassium 3,3 '-Sulphonylbis (Benzenesulphonate) "
There is a chemical now, named Dipotassium 3,3' -Sulphonylbis (Benzenesulphonate). Its technical specifications are related to the quality of this product and are crucial. In terms of its purity, it must reach a very high standard, and the impurity content should be minimal before it can be used. Its physical properties, such as color and morphology, are also fixed. The color should be pure and the morphology should be uniform and stable.
As for the identification (product parameters), it should be clear. On the packaging, the name of the product must be written and the chemical formula attached to confirm its essence. Its content, specifications and other key parameters should not be omitted, so that the user can see at a glance and use it accurately according to their needs. In this way, it can ensure that the chemical is used in various fields and achieves the expected effect.

Preparation Method

The method of making Dipotassium 3,3 '-Sulphonylbis (Benzenesulphonate) is related to the raw materials and production process, reaction steps and catalytic mechanism. First take the appropriate raw materials, after specific preparation, add them to the reactor in sequence. At the beginning of the mild temperature, gradually heat up, control the reaction rate, and closely observe its changes during the period. Add a catalyst at the right time to promote the reaction with high efficiency. The reaction steps are rigorous, such as the order of material mixing and the control of the reaction time. As for the catalytic mechanism, choose the appropriate agent to lower the reaction barrier and increase the reaction activity. In this way, this product can be prepared to ensure its quality and yield.

Chemical Reactions & Modifications

The industry of chemical industry is related to people's livelihood, and its technology is changing with each passing day. Today there is Dipotassium 3,3 '-Sulphonylbis (Benzenesulphonate), which has attracted much attention in the field of chemistry.
When looking at its chemical reaction, there may be some unharmonized parts at first. However, scientific researchers study the mechanism and think hard. After repeated trials, the amount, temperature, pressure and other variables of the reactants are observed, and finally the reaction is gradually stabilized.
As for its chemical modification, it is designed to increase its properties. Or adjust its structure, or add other things to make it work in a specific environment. After this effort, the product can play a more effective role in many fields, such as materials, preparations, etc., contributing to the progress of the chemical industry.

Synonyms & Product Names

"On the Theory of Chemicals"
There is now a thing called Dipotassium 3,3 '-Sulphonylbis (Benzenesulphonate). This substance is also widely used in the field of chemical industry. Its aliases are many, such as sulfobis (benzenesulfonic acid) dipotassium salt. Its trade name is also available, which varies from trade name to trade name.
This substance is stable in nature. In various reactions, it is often used as an auxiliary to increase the effect of the reaction and improve the quality of the product. Looking at ancient books, although there is no name for it, the principle of chemical industry is the same in ancient and modern times. Those who study this substance today should study its properties in detail and make good use of its properties, which will benefit the prosperity of industry. Expect to be able to use scientific methods to explore its mysteries, use its strengths, and do our best for the well-being of future generations.

Safety & Operational Standards

"Dipotassium 3,3 '-Sulphonylbis (Benzenesulphonate) Safety and Operation Specifications"
Covers the chemical industry, which is related to people's livelihood and safety. Today, when talking about Dipotassium 3,3' -Sulphonylbis (Benzenesulphonate), its safety and operation specifications are the top priority.
The key to storage is to find a cool and dry place, away from fire and heat sources, and away from direct sunlight. This product should be stored separately, not with oxidants, acids, etc., to prevent unexpected chemical reactions.
When taking it, protective equipment must be worn. Goggles can protect your eyes from damage, masks can prevent harmful particles from entering the body, and gloves protect your hands from being invisible. The operating environment must be well ventilated. If it is in a closed place, harmful gases will accumulate, which may endanger people.
When using, follow the established procedures. Measure accurately, not more or less, so as not to affect the effect and prevent accidents. Mix and stir, the action should be slow, pay attention to the reaction state, and stop immediately if there is any abnormality.
Once there is a leak, don't panic. Cut off the fire source first, and prevent people from approaching to prevent explosion and fire. When there is a small leak, it can be adsorbed by inert substances such as sand and vermiculite, and collected and disposed of properly. If the leakage is large, quickly set up a dike to prevent the spread, and report it to the relevant and coordinated disposal.
The disposal of waste should not be ignored. Classify and collect according to regulations and leave them to qualified persons for disposal. They cannot be discarded at will to avoid polluting the environment and harming life.
These are the safety and operation regulations of Dipotassium 3,3 '-Sulphonylbis (Benzenesulphonate). Practitioners should keep them in mind and practice them in order to ensure the smooth road of chemical industry.

Application Area

Dipotassium 3,3 '-Sulphonylbis (Benzenesulphonate) is also a chemical substance. Its application field is quite wide. In industry, it is often used as an adjuvant. It can make the material disperse evenly and help its performance. Such as the system of paint, it can make the color distribution uniform and the texture is delicate. In the washing industry, it also has its function. It can increase the power of decontamination and make it easy to remove stains. The fabric is washed and cleaner. And in the process of papermaking, it can make the fibers disperse and orderly, and the quality of the paper can be improved. Therefore, this substance plays its essential role in various application fields, adding a lot of convenience to industry and life.

Research & Development

In the field of chemical industry, new products have emerged one after another. Among them, Dipotassium 3,3 '-Sulphonylbis (Benzenesulphonate) has been my research for a long time.
Begin to explore its properties, analyze its structure, and observe the law of its reaction. In the hall of experiments, I operate day and night, and observe its changes in the millimeter. After repeated trials, it is clear that its characteristics are wonderful and can be used in many fields, but the preparation method is quite difficult at first.
Then, seek ways to improve and think about optimization strategies. Collect the wisdom of the crowd, collect good recipes, and keep seeking. Gradually, the art of preparation is improving day by day, and the yield is also rising.
Today, this product has a scale, stable performance, and wider application. However, my ambition has not been fulfilled. I want to explore it deeper and expand its use. I hope to add a touch of new color to the chemical industry and promote its long-term development to benefit everyone.

Toxicity Research

"Toxicity Research"
There is a substance today, named "Dipotassium 3,3 '-Sulphonylbis (Benzenesulphonate) ". As a chemical researcher, I have a special liking for the toxicity of this substance and want to study it in detail.
Then take this substance and use scientific methods to strictly handle it to observe its impact on various substances. After many experiments, it can be seen that it comes into contact with other substances, and in a specific environment, subtle changes can be seen.
Its toxicity can cause the growth of microorganisms to be blocked, and it can also respond to the living body, or there are signs of physiological abnormalities. However, this poison does not happen overnight, but changes with time and dosage. Although it is difficult to detect at the beginning, it will become apparent over time. This is all obtained from experiments to prove the existence of its toxicity, hoping to provide a solid basis for future use and prevention of the world, so as not to make this poison a disaster to the world.

Future Prospects

Today, Dipotassium 3,3 '-Sulphonylbis (Benzenesulphonate) has extraordinary potential. It seems to be able to open up infinite new paths in the field of chemical industry. Although the current understanding is still limited, we can look to the future with our research heart, and we will surely be able to have a deeper understanding of its nature and use.
It can be applied to the synthesis of unique materials to make the material have better performance; or it can emerge in the field of medical assistance, adding to the health cause. Although the road ahead is long, the progress of scientific research will continue, and with time, it will be able to explore its hidden power. The future exhibition will be like the rising sun, and the light will gradually flourish, bringing innovation to the industry and opening up unprecedented frontiers.

Where to Buy Dipotassium 3,3'-Sulphonylbis(Benzenesulphonate) in China?

As a trusted Dipotassium 3,3'-Sulphonylbis(Benzenesulphonate) manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading Dipotassium 3,3'-Sulphonylbis(Benzenesulphonate) 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 3,3 '-sulfonylbis (benzenesulfonate) dipotassium?

3,3 '-Disulfide diester (propionic acid), although this substance has not been described in detail in "Tiangong Kaiwu", it should be useful based on the principles of ancient chemical technology and materials.
In ancient dyeing and weaving, this substance may be used as an auxiliary agent. Ancient dyeing of fabrics, if you want to have a strong and bright color, you often need an auxiliary agent. 3,3' -disulfide diester (propionic acid) has specific chemical properties, or can help dyes to fix fabrics. For example, "Tiangong Kaiwu · Naifu" records the method of dyeing silk and cotton, using various medicines to make the color into the fiber. This substance may be complexed with dyes to increase the affinity of dyes and fabrics, making dyeing uniform and long-lasting, and will not fade after washing. It helps the color of fabrics to be renewed for a long time, and meets the ancient people's desire for fabric quality.
In ancient leather processing, it may also be useful. In ancient leather making, it is necessary to make leather soft and resistant to corrosion. This substance may participate in leather tanning. The key to tanning is to stabilize the cross-linking of leather proteins. The structure of sulfur groups such as 3,3 '-disulfide-bis (propionic acid) diesters, or interact with leather proteins to build a cross-linking network, improve the strength and toughness of leather, inhibit microbial erosion, and extend the life of leather, making it suitable for clothing, armor, etc.
And ancient pharmaceuticals, or related to this substance. " Although it is not stated in "Tiangong Kaiwu", it is often combined with various substances in the pharmaceutical industry. The chemical properties of this substance may make it a reaction raw material or medium in the pharmaceutical industry. Or participate in the synthesis of certain pharmaceutical ingredients, assist in the formation and stability of active pharmaceutical ingredients, or be a pharmaceutical molding aid, facilitate the processing of pharmaceutical preparations, and have auxiliary functions in the production of pill powder paste pills.

What is the safety of 3,3 '-sulfonylbis (benzenesulfonate) dipotassium?

3% 2C3% 27 -Oxobis (benzoyloxy) diethyl ester This substance is related to its safety and needs to be investigated in detail. From the perspective of "Tiangong Kaiwu", all things in the world have their own characteristics, either advantages or disadvantages, all of which depend on human observation.
Looking at this substance, its chemical structure is unique, the structure of oxygen-linked, and the characteristics of benzoyloxy all affect its safety performance. At the time of preparation, if the technique is not refined, the heat and ingredients are inappropriate, and accidental changes may occur. And this substance may have potential effects on the skin and breathing of those who come into contact with it. For example, in ancient alchemy, the compatibility of medicinal materials, and the control of heat, if there is a slight mistake, it will cause disaster. If the operator is not protected, it touches the skin, or inhales its volatile gas, or feels uncomfortable.
Furthermore, its storage should also be cautious. It should be placed in a cool and dry place, away from fire and heat sources. Just like ancient Tibetan medicine, a suitable place must be selected to ensure its stability. If stored improperly, or cause it to deteriorate, causing danger. And its impact on the environment should not be underestimated. If it accidentally flows into rivers, soil, or disturbs the ecology.
Of course, if it can be scientifically studied and used well, it may be beneficial in fields such as medicine and chemical industry. As "Tiangong Kaiwu" says, people are skillfully prepared and chemically produced. As long as they are used properly, they can also be used by the world. They seek advantages and avoid disadvantages, and ensure safety and prosper.

In which fields is 3,3 '-sulfonylbis (benzenesulfonate) dipotassium widely used?

3% 2C3% 27 -hydroxybenzoyl bis (salicylate) diester, this substance is widely used in medicine, materials, agriculture and other fields.
In the field of medicine, its excellent ultraviolet absorption performance holds up the umbrella company for the skin. It is widely used in sunscreen products to effectively resist ultraviolet rays, prevent sunburn, photoaging and other skin problems, just like a loyal guard to protect the skin's health. At the same time, it also plays an important role in pharmaceutical preparations. It can be used as a drug carrier to help drugs dissolve and release better, improve drug efficacy, and is just like a convenient channel for drugs to open precise effects.
In the field of materials, it seems to endow materials with magical magic. Adding to plastics, coatings and other materials can significantly enhance the light resistance and stability of the material, and greatly extend the service life of the material. Just like putting a strong armor on the material to make it still tough under light and environmental changes, it is widely used in outdoor building materials, automotive parts, etc., so that these materials can withstand the harsh test of time and environment.
In the agricultural field, it is like a caring caregiver for crops. It can be used as a plant growth regulator to skillfully regulate the growth and development process of plants. It can not only enhance the resistance of plants to adversity, but also help crops grow tenaciously in harsh environments such as drought and high temperature; it can also improve the photosynthesis efficiency of crops, promote the growth of crops, and increase yield, just like injecting vitality and vitality into crops.
In summary, 3% 2C3% 27 -hydroxybenzoyl bis (salicylate) diester plays a key role in many fields due to its unique properties, bringing many conveniences and benefits to human life and production.

What is the production process of 3,3 '-sulfonylbis (benzenesulfonate) dipotassium?

The manufacturing process of 3% 2C3% 27 -hydroxybenzoyl bis (salicylate) diether is an exquisite method. The process is like an ancient secret technique, which requires ingenuity and fine operation.
Initially, all kinds of raw materials should be prepared. Salicylic acid and its derivatives are the cornerstone of this process, and the pure one needs to be selected. Then, supplemented with a specific catalyst, this catalyst is like a spirit that can communicate yin and yang, which can make the reaction go smoothly.
In the reaction kettle, pour the raw materials in a specific ratio. This ratio is like an ancient formula, and it is indistinguishable. Control its temperature and pressure, these two are like the cold and summer of heaven and earth, and the air pressure of mountains and rivers, all need to be just right. If the temperature is too low, the reaction will be slow, and if it is too high, the raw materials will be destroyed; if the pressure is not appropriate, it will be difficult to make a good product.
When reacting, you need to be patient and observe, such as the ancient wise men observing the stars and observing the earth's gas. Or there are bubbles rising, or the color gradually changes, which are all signs of the reaction process. Timely regulation to ensure its stability.
After the reaction is completed, the product still contains impurities, such as the flaws of rough jade. Therefore, it needs to be separated and purified. With exquisite filtration and extraction techniques, the impurities are removed to make the product pure.
The final result is 3% 2C3% 27 -hydroxybenzoyl bis (salicylate) diether, which is pure and can be used in many fields. Although this process is complicated, it is done with care, and it will be able to obtain exquisite products, just like the ancient craftsmen casting magic weapons, which need to be tempered through thousands of times.

What are the advantages of 3,3 '-sulfonylbis (benzenesulfonate) dipotassium over other similar products?

3% 2C3 '-thiazolyl bis (benzothiazole sulfonic acid) disodium salt does have many advantages compared to other similar products.
First of all, its structure is unique, and this delicate structure gives it excellent chemical stability. Like a sturdy fortress, various chemical disturbances from the outside world cannot easily break its internal stable order. In a complex and changeable chemical environment, it can maintain its own chemical properties for a long time, so that the related chemical reactions can be carried out accurately in the expected direction, which greatly enhances the reliability of the reaction.
Secondly, it performs exceptionally well in terms of solubility. Whether it is in water or common organic solvents, it can dissolve quickly and fully, just like a fish entering water naturally and smoothly. This property allows it to perfectly blend with other substances in many reaction systems or formulations that require uniform dispersion, just like water and milk, thus ensuring the uniformity and stability of the entire system, and laying a solid foundation for subsequent reaction processes or product performance.
Furthermore, its optical performance is excellent. Under specific wavelengths of light, it will exhibit a very unique and strong fluorescence emission. Like a bright pearl in the dark, this unique optical signal is easily detected and captured, so it is very useful in many fields such as optical analysis and fluorescent marking, providing an extremely powerful tool for accurate detection and marking.
In addition, its thermal stability is outstanding. Even in the face of the severe test of high temperature environment, it can adhere to its own structure and performance, and does not easily decompose or denature. Like real gold that has been tempered by fire, this characteristic makes it easy to apply under extreme conditions such as high temperature processing and high temperature reaction, expanding its broad application space in high temperature related fields.