3,3'-Dithiobis(1-Propanesulfonic Acid), Disodium Salt

Lingxian Chemical

Specifications

HS Code	614360
Chemical Formula	C6H12Na2O6S4
Molar Mass	362.39 g/mol
Appearance	White to off - white powder
Solubility	Soluble in water
Purity	Typically high purity, e.g., >98%
Ph Aqueous Solution	Around neutral
Cas Number	1072-87-9
Melting Point	Decomposes
Storage Condition	Stored in a cool, dry place
Stability	Stable under normal conditions

Packing & Storage

Packing	250g of 3,3'-Dithiobis(1-propanesulfonic acid), disodium salt in a sealed chemical - grade package.
Storage	3,3'-Dithiobis(1 - Propanesulfonic Acid), Disodium Salt should be stored in a cool, dry place. Keep it in a tightly sealed container to prevent moisture absorption and exposure to air, which could potentially affect its stability. Store away from heat sources, ignition sources, and incompatible substances to ensure safety and maintain its chemical integrity.
Shipping	For shipping 3,3'-Dithiobis(1-propanesulfonic acid), Disodium Salt, it must follow strict chemical transport regulations. Ship in properly labeled, corrosion - resistant containers to prevent leakage and ensure safe transit.

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3,3'-Dithiobis(1-Propanesulfonic Acid), Disodium Salt

General Information

Historical Development

I have heard that there is a product named 3,3 '-disulfide disodium salt (1-propanesulfonic acid). Its beginning is also unknown, but chemists have made great efforts to study it, and in the past years, its properties and uses have gradually become clear.
In the past, the field of chemistry was not as prosperous as it is today, and the number of people who studied this product was rare. However, all the sages are not afraid of difficulties, and they use their wisdom and ingenuity to explore the details. At the beginning, they only knew a little about its characteristics, and then they have studied it for a long time, and they have made progress in the method of synthesis and the identification of its properties.
As the years go by, everyone's understanding has deepened, and it has gradually become clearer from ignorance, and its use has also gradually widened. Or used for the precision of experiments, or to help the development This all depends on the diligence of the ancestors to make this thing self-concealed and revealed to the world, leaving profound traces in the path of chemistry, for future generations to use, and the benefits are infinite.

Product Overview

Today there is a product called "3,3 '-Dithiobis (1-Propanesulfonic Acid), Disodium Salt". This is an important product in the chemical industry and has unique characteristics. Its shape or powder, white and pure, soluble in water, stable.
In the field of industry, it has a wide range of uses. It can be used as a surfactant to assist in the dispersion and fusion of substances; it can also be used in pharmaceutical research. It has potential uses. It can adjust the process of reaction and assist in the synthesis of pharmaceuticals. Its structure is exquisite, and sulfur is connected to sulfonic acid groups to form a stable structure, giving this product specific properties. Looking at it, although it is small in shape, it has an extraordinary effect and has contributed to various fields. The real chemical industry is a treasure of research.

Physical & Chemical Properties

3,3 '-Disulfide bis- (1-propanesulfonic acid) disodium salt has unique and wonderful properties. Its color is pure, in a state of crystal brightness, as clear as jade. The texture is stable, under room temperature, it can maintain its properties and does not change easily.
Its water solubility is good, it is scattered when entering water, instant and uniform, just like snowflakes melted in spring water. And it has good antioxidant properties, such as the protection of a shield, which can protect the material in the environment of oxidation.
This substance is often the key in the reaction, leading the way of change, such as the pilot lamp. It can be used in various fields, or to assist medical research, or to promote the innovation of industrial technology. It is really a treasure of chemistry, and its function is extraordinary.

Technical Specifications & Labeling

3,3 '-Disulfide bis- (1-propanesulfonic acid) disodium salt, this chemical substance, its technical specifications and identification (product parameters) are the key. Looking at its craftsmanship, it is necessary to control all conditions with precise and strict methods. The purity of the raw material, the temperature of the reaction, and the duration must all be appropriate. After the reaction is completed, the purification technique should be repeated to remove impurities and improve its purity. On the label, the parameters such as composition, character, purity, and molecular weight should be stated. What the characteristics are, and the geometry of the color state should be detailed. The number of purity must be accurate, which is related to quality. The value of molecular weight cannot be ignored, and it is essential for identification. In this way, the technical specifications and labels must be clarified to ensure the excellence of the product.

Preparation Method

The method of preparing 3,3 '-disulfide bisyl (1-propanesulfonic acid) disodium salt is related to the raw material and production process, reaction steps and catalytic mechanism. First, take an appropriate amount of sulfur-containing raw materials, and interact with them according to specific proportions and reaction conditions. For example, starting with a sulfur source and a substance containing propanesulfonic acid structure, at a suitable temperature and pressure, with the force of a specific catalyst, initiate the reaction. During this period, precise temperature control and time control ensure that the reaction proceeds in sequence. After the reaction is completed, the impurities are removed through separation and purification to obtain a pure product. In this process, the purity of the raw material and the reaction environment are all key, which are related to the quality and yield of the product. The preparation of this product requires following the steps and fine operation.

Chemical Reactions & Modifications

There is a substance today called "3,3 '-Dithiobis (1-Propanesulfonic Acid), Disodium Salt". For chemical learners, the transformation and change of this substance are quite critical.
Its reaction, or involved in various reaction pathways. The position of sulfur and the sulfonic acid group all affect its reactivity. Or in contact with nucleophiles, the sulfur is the target of nucleophilic attack, leading to the change of bonds and the formation of new compounds.
When talking about change, or under different temperatures, pressures, and solubility environments, the properties change. When the temperature rises, the reaction rate may increase; when the solvent changes, the solubility and reaction direction are also different. All of this needs to be studied in detail to clarify the wonders of its adaptation and transformation, and to pave the way for the use of this object in various fields, such as medicine, material research, etc., so that it can exert its capabilities and benefit the world.

Synonyms & Product Names

3,3 '-Disulfide bis- (1-propanesulfonic acid) disodium salt, which is very important in chemical research. There are many other names, and there are also different trade names in the industry. Guanfu's academic, although there is no accurate record of this thing, but the evolution of chemical industry, just like the convergence of rivers, little by little accumulated into today's big view.
In the past, the Fang family explored the physical properties and studied many similar things. Although this delicate compound was not obtained at that time, the spirit of exploration paved the way for future generations. Today's 3,3' -disulfide bis- (1-propanesulfonic acid) disodium salt is widely used, or used for reaction catalysis, or used for material modification.
Its many aliases reflect the different perspectives and habits of academia and industry. The different commodity names also vary according to the positioning of manufacturers and market demand. We chemical researchers, when we understand its synonyms, know its characteristics, and make good use of it for the prosperity of chemical industry, do our best, just like the ancients seeking knowledge, unremitting.

Safety & Operational Standards

"About 3,3 '-disulfide (1-propanesulfonic acid) disodium salt product safety and operation specifications"
Fu 3,3' -disulfide (1-propanesulfonic acid) disodium salt, chemical products are also. If you want to use this product, you must understand its safety and operation regulations, so as to keep it safe.
This product is quite stable under normal temperature and pressure. However, if it encounters a hot topic, open flame, or merges with a strong oxidant, there is a danger. Therefore, when storing, it is advisable to choose a cool, dry and ventilated place, away from fire and heat sources, and do not mix with oxidants.
When operating, be careful. The operator must wear appropriate protective clothing, protective gloves and goggles to prevent touching the skin, entering the eyes, and injuring the body. If you accidentally touch the skin, rinse quickly with plenty of water, and seek medical attention if necessary; if it enters the eye, rinse with water urgently, and then seek medical treatment.
When taking it, it should be placed in a well-ventilated place or in a fume hood to prevent its dust from spreading in the air and causing harm to breathing. Weighing, transferring, etc., the action should be slow, and the powder should not fly.
Furthermore, the waste of this material should not be disposed of at will. It must be properly disposed of in accordance with relevant laws and regulations to avoid polluting the environment.
In general, the use of 3,3 '-disulfide (1-propanesulfonic acid) disodium salt, in accordance with this safety and operation regulations, can ensure personal safety, environmental integrity, and chemical research.

Application Area

3,3 '-disulfide bis- (1-propanesulfonic acid) disodium salt has a wide range of application fields. In the field of biochemical research, it is often used as a protein modification reagent, which can precisely adjust the structure and function of proteins and help explore the complex mechanism of proteins. In the field of medical diagnosis, it can participate in the construction of specific detection systems, leveraging its unique chemical properties to achieve sensitive detection of disease markers and improve the accuracy of diagnosis. In the field of materials science, it can intervene in the surface modification process of materials, optimize the key properties such as hydrophilicity and stability of materials, and expand the application boundary of materials. From this perspective, 3,3 '-disulfide-bis (1-propanesulfonic acid) disodium salt has significant effects in many fields, and is an important substance for scientific research and industrial applications.

Research & Development

To taste the way of scientific research, the most important thing is to make continuous progress. Today there is a thing called "3,3 '-Dithiobis (1-Propanesulfonic Acid), Disodium Salt". We explore its mysteries with the heart of study.
At the beginning, we observed its properties, observed its characteristics, and wanted to understand its essence. After many experiments, we recorded the data in detail and analyzed the changes. In the process of reaction, explore its laws and seek the best method.
During the period, we may encounter obstacles, but we will persevere. With perseverance, we will repeatedly scrutinize and improve the steps. In the end, we will get something, and in the method of synthesis, there will be progress.
And looking to the future, this substance may be available in many fields. We should continue to study it, hoping to expand its application, promote the progress of science and technology, and contribute to the development of scientific research, so that this material can play a greater value.

Toxicity Research

The study of toxicology is of great importance to people's livelihood. Now look at 3,3 '-Dithiobis (1-Propanesulfonic Acid), Disodium Salt. The study of its toxicity cannot be ignored.
Examine this product in detail, and try it on all kinds of creatures in the experimental environment. Observe the change of its form and spirit, and observe the state of its internal organs. Or there is a state of restlessness, or there are signs of physiological disharmony. Although the amount of dosage and time vary, the appearance of toxicity can be discerned through history.
The appearance of toxicity is not only on the surface, but also in the inside. Or disturb the luck of qi and blood, or the ability to mess up the internal organs. This is a warning to my generation, in chemical products, we should be cautious. Examine its nature carefully, understand its benefits and harms, in order to protect the safety of the people and avoid disasters. This is the essence of toxicology research and must not be ignored.

Future Prospects

Today there is a thing called 3,3 '-disulfide disodium salt (1-propanesulfonic acid). Looking at its properties, it has unique properties and may be of great use in various fields of chemical industry.
Looking to the future, our generation, this thing has broad prospects. In pharmaceutical research and development, or in the creation of new drugs, to cure various diseases; in material science, or as the foundation of new materials, to endow materials with superpowers. Although the road ahead is long, we scientific researchers should study material properties with perseverance.
With time, we will be able to fully develop its potential. Make this material emerge in the future wave of science and technology, contribute to human well-being, create a new situation, and achieve extraordinary achievements.

Frequently Asked Questions

3,3 '-Dithiobis (1-Propanesulfonic Acid), what is the main use of Disodium Salt

3% 2C3% 27-disulfide disodium salt, this substance has a wide range of uses. In the field of biochemical research, it is often a help for protein and enzyme research. Protein structures are complex, and in order to understand their internal details, it is often necessary to use chemical reagents. This sodium salt can react with specific groups in the protein. Through the changes in the reaction, the structure and function of the protein can be explored, helping researchers to clarify the mechanism of protein operation, and gain insight into its subtlety like a butternut.
In the industrial field, this sodium salt also has extraordinary performance. In the preparation of some special materials, it can be used as a reaction aid to promote specific chemical reactions and improve material properties. For example, when preparing high-performance polymers, adding this substance can regulate the molecular chain structure of the polymer, making it have better mechanical properties and stability, just like craftsmen skillfully apply skills, so that the material can be reborn.
In the process of pharmaceutical research and development, this sodium salt is also indispensable. In the process of drug synthesis, it can be used as a key intermediate to participate in the construction of drug molecules, laying the foundation for the creation of new drugs. Scientists use this "brick and stone" to build a "high building" for treating diseases and saving people, and help medical science continue to move forward.
To sum up, 3% 2C3% 27-disulfide bis (1-propanesulfonic acid) disodium salt plays an important role in many fields such as biochemistry, industry, medicine, etc., like a multi-purpose "sharp blade", opening up new paths for the development of various fields.

3,3 '-Dithiobis (1-Propanesulfonic Acid), what are the physicochemical properties of Disodium Salt

3% 2C3% 27 '-disulfide bis (1' -propanesulfonic acid) disodium salt, the physical and chemical properties of this substance are as follows:
Looking at its properties, it is mostly white to white crystalline powder at room temperature, which is easy to store and use, and is easy to disperse in many systems.
When it comes to solubility, it exhibits good solubility in water, and can quickly melt with water to form a uniform solution. This property makes it fully effective in various reactions or application scenarios using water as a medium. However, in common organic solvents, such as ethanol, ether, etc., its solubility is poor, only slightly soluble or almost insoluble.
In terms of thermal stability, this substance is quite stable within a moderate temperature range, and its chemical structure and properties can remain relatively unchanged. However, when the temperature rises to a higher level, a decomposition reaction may occur, causing its chemical composition to change, thereby affecting its original functions and characteristics.
The acidity and alkalinity of its aqueous solution is also worthy of attention, showing a certain pH value range, the specific value varies slightly according to its concentration. Overall, under specific conditions, a relatively stable acid-base environment can be maintained.
In terms of redox properties, due to the disulfide bond in the molecular structure, corresponding reactions can occur under suitable redox conditions. This property makes it potentially valuable in some fields involved in redox processes, such as biochemistry, materials science, etc.
The above physical and chemical properties play a key role in applications in many fields, determining their scope of application and use.

3,3 '-Dithiobis (1-Propanesulfonic Acid), Disodium Salt is widely used in which fields

3% 2C3% 27 - Dithiobis% 281 - Propanesulfonic Acid% 29% 2C Disodium Salt, the Chinese name is often 3,3 '-disodium dithiodipropanosulfonate. This product is widely used in many fields.
In the field of biomedicine, it is often used as a modifying agent for proteins and polypeptides. Because it contains disulfide bonds, this bond can react with specific groups of proteins, thereby modifying proteins and affecting their structure and function. For example, in the development of antibody-coupled drugs, it can be used to connect drug molecules to antibodies to enhance drug targeting and improve efficacy.
In the field of materials science, it also has important uses. It can be introduced into polymer materials as a functional additive. For example, when preparing conductive polymers, adding this sodium salt can change the electrical properties of the polymer, giving the material unique electrical conductivity or semiconductivity, which can be used to fabricate new electronic devices.
In the field of analytical chemistry, it can serve as a special chemical reagent. In some electrochemical analysis methods, it helps to improve the reactivity of the electrode surface, improve the detection sensitivity and selectivity, and help to more accurately determine the content and properties of target substances.
It also plays a role in some aspects of industrial production. For example, in the synthesis of some special surfactants, it participates in the reaction as a key raw material, so that the obtained surfactants have special properties and meet specific industrial needs.

3,3 '-Dithiobis (1-Propanesulfonic Acid), what is the synthesis method of Disodium Salt

The synthesis of 3% 2C3% 27 '-disulfide bis (1' -propanesulfonic acid) disodium salt is a key research topic in the field of organic synthesis. To prepare this substance, the following steps can be followed.
At the beginning, choose a suitable sulfur source and a compound containing allyl sulfonic acid structure as the starting material. Common sulfur sources, such as sulfur powder, sodium sulfide, etc., are available. Those containing allyl sulfonic acid structure can be obtained by reacting allyl alcohol with sulfating reagents.
times, so that the starting material can be reacted under the appropriate reaction conditions. This reaction often needs to be carried out in a solvent. Organic solvents such as dimethyl sulfoxide (DMSO), N, N-dimethylformamide (DMF), or a mixed system of water and organic solvents can be used. The reaction temperature and time also need to be carefully regulated. Generally speaking, the temperature may be between room temperature and 100 ° C, and the reaction time depends on the reaction progress, or it may take several hours to several days.
During the reaction process, the progress of the reaction can be monitored by means of thin layer chromatography (TLC) or high performance liquid chromatography (HPLC). When the reaction reaches the desired level, the reaction is terminated.
Then, the reaction mixture is processed. The target product is usually separated by extraction, filtration, etc. When extracting, select a suitable extractant, such as ethyl acetate, dichloromethane, etc., to extract the product. Filtration can remove insoluble impurities. At the end of
, the separated product is purified by recrystallization, column chromatography and other methods. During recrystallization, select a suitable solvent, dissolve the product, slowly cool down or evaporate the solvent, so that the product crystallizes and precipitates. Column chromatography is based on the difference in the partition coefficient between the product and the impurity in the fixed phase and the mobile phase, to achieve separation and purification.
After the above steps, a higher purity of 3% 2C3% 27-disulfide (1-propanesulfonic acid) disodium salt can be obtained. However, during the synthesis process, various reaction conditions and operation details need to be carefully controlled to obtain a product with satisfactory yield and purity.

What is the market price of 3,3 '-Dithiobis (1-Propanesulfonic Acid), Disodium Salt?

I look at the market price of "3% 2C3% 27 - Dithiobis% 281 - Propanesulfonic Acid% 29% 2C Disodium Salt" you asked. This is a professional chemical reagent. Its market value is geometric, and it is difficult to determine. The price often varies due to various factors, such as the quality of the product, the different manufacturers, the situation of supply and demand, the amount of procurement, etc.
If it is in the context of "Tiangong Kaiwu", although the chemical techniques at that time were not as refined as they are today, it can also be compared. At that time, the price of materials mostly depends on the distance of the origin, the difficulty of collection, and the wide and narrow use. Today's chemical reagents, if the quality is high, they come from famous factories, the demand is strong, and the purchase volume is small, the price will be high; conversely, if the quality is ordinary, there are many manufacturers, the market supply is sufficient, and the purchase volume is large, the price may be slightly lower.
Looking at today's chemical market, the prices of various chemical reagents fluctuate frequently. To know the exact market price, it is advisable to consult chemical reagent suppliers, or explore chemical product trading platforms. The quotations of various suppliers may be different, and they can be compared many times to get a better price. And the market is changing rapidly, and real-time attention is required in order to grasp the trend of their prices and achieve the appropriate purchase.