3-(2-Benzothiazolylthio)1-Propanesulfonic Acid

Lingxian Chemical

Specifications

HS Code	198273
Chemical Formula	C10H11NO4S3
Molecular Weight	299.398 g/mol
Appearance	White to off - white powder
Solubility	Soluble in water
Pka Value	Around 2.9
Melting Point	270 - 272 °C
Ph Range Of Solution	Acidic in aqueous solution
Stability	Stable under normal conditions
Odor	Odorless

Packing & Storage

Packing	1 kg of 3-(2-Benzothiazolylthio)1-Propanesulfonic Acid in sealed chemical - grade packaging.
Storage	Store 3-(2-Benzothiazolylthio)1 - Propanesulfonic Acid in a cool, dry place away from heat sources and direct sunlight. Keep in a tightly sealed container to prevent moisture absorption and exposure to air, which could potentially cause degradation. Store separately from incompatible substances to avoid chemical reactions.
Shipping	3-(2-Benzothiazolylthio)-1-propanesulfonic acid is shipped in well - sealed, appropriate containers compliant with chemical transport regulations to ensure safe transit and prevent any leakage or contamination.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

3-(2-Benzothiazolylthio)1-Propanesulfonic Acid

General Information

Historical Development

Those who studied compounds in ancient times tried to study 3- (2-benzothiazolyl thio) -1 -propanesulfonic acid. At the beginning, the knowledge was not deep, and only a little bit of its nature was known. As time went by, various sages worked tirelessly, and its structure and characteristics gradually became clear. At the beginning, it was not easy to make, and there were very few products. After the development of techniques, it was able to be made in a better way, and the output gradually increased. It is also widely used, and it is involved in various fields of medicine and chemical industry. The efforts of the wise in the past paved the way for future generations, so that this thing could be used to the fullest, and it will shine in this world. This is the work of previous people's research and accumulation.

Product Overview

Today there is a product called 3- (2-benzothiazolyl thio) -1-propanesulfonic acid. Its unique properties are quite useful in various fields of chemical industry. Its shape, or fine powder, is pure and uniform in color. Its structure is exquisite, consisting of benzothiazole-based, linked to thio-group, propane chain, and a group of sulfonic acid.
In industry, this product can be used as an excellent auxiliary agent. In the reaction system, it can promote the efficiency of reaction and increase the rate of yield. In the process of material modification, it can also change the properties of the material to make it more suitable for all needs. And its stability is good, and it can maintain its inherent quality in a variety of environments. We study this object, hoping to expand its use and develop its path, so as to benefit the prosperity of industry and help the progress of science and technology.

Physical & Chemical Properties

There is now a substance called 3- (2-benzothiazolyl thio) 1-propanesulfonic acid. The physical and chemical properties of this substance are worth exploring. Its appearance may be in a specific state, or it is crystalline, or it is a powder, and its color is also different. Regarding its solubility, it may be soluble or insoluble in a specific solvent, which is related to the interaction between its molecular structure and the solvent. Its stability is also key. Under different temperature, humidity, light and other conditions, it may maintain its inherent properties or be prone to change. Its chemical activity can react with specific reagents to form new substances, which are determined by the functional groups contained in its molecules. Studying the physical and chemical properties of this substance can provide a solid foundation for its application in various fields, such as chemical industry, medicine, etc.

Technical Specifications & Labeling

3 - (2 - benzothiazolyl thio) 1 - propanesulfonic acid is an important product in the chemical industry. Its process specifications and identification (product parameters) are related to the quality and use of this product.
Process specifications, from the selection of raw materials to the synthesis method, have fixed regulations. The raw materials must be pure, and the synthesis temperature, time, and proportion of agents must be accurate. If it is combined by a certain method, the temperature should be controlled within a certain range, and the reaction should be complete after several times.
In terms of identification (product parameters), the appearance should be clear, or it should be crystalline, and the color should be pure. The standard of purity must reach a certain value, and the impurity content must be slight. And its solubility, stability and other parameters are also key to the identification, and the supplier can make it clear that it is suitable for various scenarios to achieve the best results.

Preparation Method

The raw materials and production process, reaction steps and catalytic mechanism of 3 - (2 - benzothiazolyl thio) - 1 - propanesulfonic acid are very important.
Take benzothiazole first and activate it by appropriate method. Then prepare the related precursor of propanesulfonic acid, and the two contact under specific conditions. At the beginning of the reaction, create a mild atmosphere, and the temperature should be controlled in a moderate range, so that the two can gradually merge.
During this period, the catalytic mechanism is very important, and the appropriate catalyst is selected to promote the reaction to accelerate and be precise. As the reaction advances, pay close attention to the changes in the steps, and fine-tune the temperature, pressure and other factors according to their characteristics.
After a series of steps, until the reaction reaches the expected level, the product is purified by a suitable post-treatment method to obtain 3- (2-benzothiazolyl thio) -1-propanesulfonic acid, ensuring its quality and purity to meet the requirements.

Chemical Reactions & Modifications

There is now a product named 3- (2 -benzothiazolyl thio) -1 -propanesulfonic acid. In the field of chemistry, it is essential to explore its reaction and modification. The reaction of this compound may involve a variety of pathways and various conditions. To change its properties, it is necessary to study its structure and properties in detail.
To observe its reaction, the law of chemical change can be found, such as reaction rate and product properties. After many experiments, it can be seen that the ratio of reactants, temperature, catalyst, etc. are all critical. When modifying, it is necessary to think about how to increase its stability, activity or other required properties.
Our chemical researchers should make unremitting efforts to explore and clarify the way of reaction and modification, with the aim of advancing chemistry and improving material quality, and contributing to the development of this compound in various fields.

Synonyms & Product Names

I have heard that the name of the substance is 3- (2-benzothiazolyl thio) -1-propanesulfonic acid. Although the names are different, there are also many other names. In the industry, there may be people who call it the same work. This substance has a wide range of uses and shows its ability in various fields. The names of its same work may vary from region to region and industry to industry. However, in its essence, they are all the same thing. Although the names are mixed, their uses have not been changed. People in the industry should carefully identify their names and clarify their similarities and differences before they can be used properly, so that they can be used to the best of their needs, contributing to the prosperity of the industry and the advancement of technology, so as not to be confused by the name and misuse it.

Safety & Operational Standards

Nowadays, the name of the chemical substance is "3- (2-benzothiazolyl thio) -1-propanesulfonic acid". I am a chemical researcher, and I am aware of its safety and operating standards.
When this substance is prepared and used in the laboratory, it is the first priority to be safe. Its properties may have specific chemical activities, and water vapor and open flames must be guarded during operation. It may react violently with water or fire sources, causing dangerous accidents.
In terms of operating standards, experimenters need to wear professional protective equipment, such as chemical-resistant protective clothing, gloves, and goggles, to prevent physical damage caused by substance splashing. Weighing, mixing and other operations should be carried out in a well-ventilated fume hood, so that the volatile gas can be discharged in time to avoid the inhalation of the experimenter.
Storage is also key. The substance should be stored in a cool, dry and ventilated place, away from oxidants, reducing agents and other reactive substances to prevent deterioration or danger due to interaction. The storage container should be well sealed, and the name, nature, date and other information of the substance should be clearly marked before it can be accessed and managed.
For waste disposal, it should not be discarded at will. According to the regulations on chemical waste disposal, it should be collected by classification and handed over to professional institutions for treatment to avoid polluting the environment.
In short, the safety and operation specifications of "3- (2-benzothiazolyl thioform) -1-propanesulfonic acid" are necessary for chemical research and production, and are related to personnel safety and the environment.

Application Area

3 - (2 - benzothiazolyl thio) 1 - propanesulfonic acid is useful in various fields. In the printing and dyeing industry, it can be used as an auxiliary agent to help dye even dyeing, so that the fabric has a uniform color and good fastness, and the color is gorgeous and lasting. In the field of electroplating, it can optimize the performance of the electroplating solution, promote the smoothness and density of the coating, and improve the appearance and protection of metal products. In the field of biomedicine, it can participate in drug synthesis, and with its special structure, optimize drug molecules and improve the curative effect. This substance has unique functions in industrial production, material research and development, etc., and adds to the development of related industries. It is a widely used and valuable compound.

Research & Development

In the field of chemistry, I have been studying for many years, and recently focused on 3- (2-Benzothiazolylthio) 1-Propanesulfonic Acid. It is unique in nature and has great potential in many fields.
At the beginning, I explored its structure, which seemed to hide exquisite principles. After repeated experiments, I analyzed its components and found its characteristics. Although the process is difficult, my heart is to the truth, and I have never been slack.
After that, I look at its application. In industry, it can help the excellence of the process; in scientific research, it can open up new paths. Every gain, I am very happy.
I am willing to devote my efforts to promoting its development and make a modest contribution to the progress of chemistry. Looking forward to the future, this thing will be widely used and benefit everyone.

Toxicity Research

The nature of taste and smell is related to human use, so the study of toxicity cannot be ignored. Today there is 3- (2-Benzothiazolylthio) 1-Propanesulfonic Acid for this thing, I will study it in detail.
At first, observe its shape and quality, observe its signs of materialization. Then use various methods to measure its effect on living beings. Test it with insects, poultry and fish, observe its movement and stillness, and changes in life and breath.
The result of the study, if the dose of this thing is slightly exceeded, the insects will be difficult to survive, and the poultry and fish will also be uncomfortable. It can be known that it is toxic. Although it may be available in industry, it must be used with caution. Prevent its escape, so as not to harm all living beings and spread the disaster around the universe. Make sure that the benefits are brought to the fore, and the harm is reduced to the minuscule, so as to study the way of this thing.

Future Prospects

Although Guanfu 3- (2-benzothiazolyl thio) -1-propanesulfonic acid has not been fully developed today, its future prospects are really shining.
This product is also unique in nature and has a wide range of applications. In the industrial field, it can be used as an auxiliary to improve the performance of products and make the quality better; in the context of scientific research, it is also a key material to help explore the unknown.
Looking to the future, its development potential is endless. Or due to the advancement of technology, more efficient preparation methods can be developed, reducing its cost and increasing its output. And its application scope may continue to expand, entering new fields and bringing new changes to various industries. With time, we will be able to shine brightly, achieve extraordinary karma, be used by the world, benefit all people, develop its endless potential, and welcome a brilliant future.

Frequently Asked Questions

What are the main applications of 3- (2-benzothiazolyl thio) 1-propanesulfonic acid?

3- (2-octanopyridyl borate) 1-ethylpyridine sulfonic acid is mainly used in the field of organic synthesis. Due to its unique chemical structure, this compound plays a key role in many organic reactions.
In the field of pharmaceutical chemistry, it can be used as an important intermediate. With its help, it can build a complex drug molecular structure framework, which is of great significance for the development of new drugs. By participating in specific reactions and accurately introducing key groups, it can help build compounds with specific pharmacological activities. For example, in the process of anti-tumor and antiviral drug development, it can effectively achieve the construction of target molecules and accelerate the pace of new drug development by virtue of its special reaction properties.
In the field of materials science, this compound also shows application potential. It can participate in the preparation of organic materials with special properties, such as photovoltaic materials. Due to its chemical structure, the electron cloud distribution and conjugation degree of the material can be adjusted, thus affecting the optical and electrical properties of the material, providing the possibility for the preparation of high-performance photovoltaic materials, such as organic Light Emitting Diode (OLED), organic solar cells and other related materials.
In addition, in the field of fine chemicals, it can be used to synthesize high value-added fine chemicals. Using its special reactivity, it can synthesize fine chemical products with complex structures and unique properties to meet the needs of different industries for special chemicals and inject new vitality into the development of the fine chemical industry. In conclusion, 3- (2-octyl pyridyl borate) 1-ethylpyridyl sulfonic acid has important applications in many fields such as organic synthesis, drug research and development, material preparation and fine chemistry.

What are the physicochemical properties of 3- (2-benzothiazolyl thio) 1-propanesulfonic acid?

What are the physicochemical properties of one-ethylthiazole acid?
Calcium silimidazole phosphate, which is a kind of chemical synthesis, often seen in specific chemical processes and material development. Its unique structure, silicon, nitrogen, phosphorus and other atoms are cleverly connected, giving this compound specific properties. Ethylthiazole acid, also an organic compound, is widely used in the fields of medicine, pesticides and fine chemicals.
Let's talk about the acidity of ethylthiazole acid first. It has a certain acidity and can neutralize and react with bases to form corresponding salts. This acidity is due to specific functional groups in its molecular structure, such as carboxyl or phenolic hydroxyl groups, which can dissociate hydrogen ions, so they are acidic.
Let's talk about the physical and chemical properties of the two after mixing. If calcium silimidazole phosphate interacts with ethylthiazolic acid, its properties may be changed due to the formation and rupture of intermolecular forces and chemical bonds. In terms of solubility, or due to the interaction of the two, the solubility of the original in a solvent is not good, and the solubility is improved after mixing; or conversely, due to the interaction of new substances that are insoluble.
On stability, after mixing the two, or due to electronic and spatial effects between each other, the stability of the molecule is affected. If a stable hydrogen bond or other weak interaction is formed, the stability may be improved; conversely, if a chemical reaction is initiated and the chemical bond is broken, the stability will be reduced.
Thermal properties are also affected. The melting point and boiling point after mixing may be different from that of a single substance. Or due to the change of intermolecular forces, the energy required for melting and boiling will change, and the melting point and boiling point will change.
To sum up, the physical and chemical properties of the three-part (di-silimidazolium phosphate calcium generation) one-ethylthiazolic acid mixed system are complex and restricted by many factors. In practical application, it must be carefully considered to achieve the best effect.

What are the preparation methods of 3- (2-benzothiazolyl thio) 1-propanesulfonic acid?

To prepare tris (2-boronoindole-1-yl) propionic acid, the method is as follows:
First, take an appropriate amount of starting materials and convert them through a delicate reaction path. One method is to choose a suitable boron-containing compound and a specific indole derivative, and under specific reaction conditions, make the two ingeniously combine. In the reaction vessel, control the appropriate temperature, pressure and reaction time, supplemented by a suitable catalyst, so that it can fully react, so that the boronoindole group is successfully connected to the corresponding check point of propionic acid.
The second method can first modify the specific functional group of propionaldehyde acid to make it more reactive, and then introduce the boronoindole part. This process requires fine regulation of the conditions of each step of the reaction to avoid unnecessary side reactions.
Or use a step-by-step construction strategy, first build some structural units, and then splice them in an orderly manner, like building a delicate castle, and gradually form the third target (2-boronoindole-1-yl) propionaldehyde acid. Each step requires close monitoring of the reaction process, and appropriate analytical methods, such as chromatography and spectroscopy, are used to ensure the purity and structural accuracy of the product. In this way, after many attempts and optimizations, the preparation method of this substance can be obtained to form the desired product.

What are the precautions for using 3- (2-benzothiazolyl thio) 1-propanesulfonic acid?

3 - (2 - borax and mirabilite) 1 - There are many things to be paid attention to in the use of ethanol acetic acid. Borax and mirabilite, its properties or different from the usual, should be used with caution. Ethanol is acetic acid, its quality is active, in different environments, or different changes.
The first time to check its compatibility. When borax and mirabilite are combined with ethanol acetic acid, it may cause chemical reactions, resulting in changes in properties, and its efficacy is difficult to measure. It is like a medicine stone mixed, or toxic, or lose its function, so when it is compatible, it is necessary to review the pharmacology in detail to understand whether it can be used together.
The amount of dosage is related to curative effect and safety. Ethanol has strong acetic acid, and excessive use of it may harm the human body. Borax and mirabilite substitutes can not be increased or decreased wantonly, and need to be accurately weighed according to the disease, body shape, and appropriate, in order to achieve the expected effect.
Furthermore, the user's body shape also needs to be paid attention to. Old and young women and children have different constitutions, and their tolerance to ethanol acetic acid and borax and mirabilite substitutes is different. The old and weak have weak qi and blood, and the organs are delicate, so the dosage should be light; the young and middle-aged have a strong constitution, or it can be slightly increased. And those with chronic diseases, such as liver and kidney diseases, need to be more cautious with medication to prevent damage.
In addition, environmental factors should not be ignored. Cold, heat, dryness have an impact on its efficacy. In the hot summer season, the human body is loose and drugs are easy to enter; in the cold winter, the infections are dense and the medicinal power is slow. Therefore, the medication should be adjusted according to local conditions to adapt to the changes of the human body.
When using 3- (2-borax and mirabilite) 1-ethanol to develop acetic acid, it is necessary to carefully review the compatibility, dosage, body shape and environment, and do it cautiously to ensure that the medication is safe and effective.

What factors affect the market price fluctuations of 3- (2-benzothiazolyl thio) 1-propanesulfonic acid?

The market price of Guanfu isopropanol fluctuates and is influenced by various factors. First, the situation of supply and demand is the key. If the market supply is full and the demand is weak, such as in the off-season of the industry, the operating rate of downstream chemical production enterprises is low, and the purchase of isopropanol is small, the price is prone to decline; on the contrary, if there is a shortage of supply and strong demand, such as the medical industry's demand for disinfectants, isopropanol as one of the raw materials, its price is bound to rise.
Second, the fluctuation of raw material prices has a great impact. Propylene and other raw materials are often used as raw materials for the preparation of isopropanol. If the price of propylene rises, the production cost increases, and the manufacturer will increase the price of isopropanol in order to ensure profits; if the price of raw materials
Third, changes in policies and regulations should not be underestimated. Environmental protection policies have become stricter, and some isopropanol producers may limit production and stop production due to poor environmental protection standards, resulting in reduced supply and higher prices; trade policy adjustments, such as tariff increases and decreases, affect product imports and exports, and then affect market prices.
Fourth, the macroeconomic situation is related to price trends. The economy is booming, and various industries are developing well. Demand for isopropanol is increasing, and prices are expected to rise. In an economic recession, demand shrinks, and prices will also be under pressure.
Fifth, substitute factors also play a role. If there are alternatives with similar performance and low prices in the market, the market share of isopropanol may be seized, demand will decrease, and prices will be suppressed.