6-Benzothiazolesulfonic Acid, 2,2'-Azinobis(3-Ethyl-2,3-Dihydro-, Diammonium Salt

Lingxian Chemical

Specifications

HS Code	985348
Chemical Formula	C18H24N6O6S2·2H4N
Molecular Weight	528.61 g/mol
Appearance	Typically a solid, often in powder form
Solubility	Soluble in water
Ph	Affected by its salt form, can be in a certain acidic - basic range in solution
Stability	Stable under normal storage conditions, but may decompose upon exposure to strong acids, bases or high temperatures
Color	May be colorless to light - colored
Odor	Odorless or very faint odor
Reactivity	Can participate in ionic - type reactions due to its ammonium salt nature

Packing & Storage

Packing	250 - gram package of 2,2'-azinobis(3 - ethyl - 2,3 - dihydro - 6 - benzothiazolesulfonic acid) diammonium salt.
Storage	Store 6 - Benzothiazolesulfonic Acid, 2,2'-Azinobis(3 - Ethyl - 2,3 - Dihydro -), Diammonium Salt in a cool, dry place away from heat and ignition sources. Keep it in a tightly - sealed container to prevent moisture absorption and exposure to air, which could potentially affect its chemical stability and properties. Store it separately from incompatible substances to avoid chemical reactions.
Shipping	6-Benzothiazolesulfonic Acid, 2,2'-Azinobis(3 - Ethyl - 2,3 - Dihydro -, Diammonium Salt) is shipped under strict regulations. Packed securely to prevent leakage, transported in accordance with chemical shipping guidelines to ensure safety during transit.

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6-Benzothiazolesulfonic Acid, 2,2'-Azinobis(3-Ethyl-2,3-Dihydro-, Diammonium Salt

General Information

Historical Development

6-Benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-), diammonium salt products, their historical development has been ancient. At the beginning, in various attempts to combine, I occasionally got clues about this quality, but I did not investigate it in detail. After the passage of time, the sages worked tirelessly. At that time, due to the limitations of skills, progress was slow. However, everyone was determined to explore the details and hide. In recent times, science and technology have flourished, instruments have been exquisite, and research has been refined. The deeper the study of its structure and characteristics, the more complete the preparation method. Through the efforts of countless craftsmen, this product has been able to move from obscurity to clarity, its application has gradually expanded, and it has emerged in various fields, eventually becoming today's grand view, laying the foundation for the advancement of future generations of science and technology.

Product Overview

6-Benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-), diammonium salt, is a chemical product that I have been working hard on recently. Its properties are unique. From the looks of it, the color is pure and the state is uniform, and the quality is like coagulated jade, which is delicate.
In terms of its use, it has extraordinary capabilities in many fields. In [specific field 1], it can be used as [specific effect 1], with its unique chemical structure, it can significantly [specific effect 1], and help the development of this field; in [specific field 2], it also plays a key role, with [specific effect 2], which can make the relevant processes in this field more efficient.
I have gone through many twists and turns in the process of research. However, with perseverance and repeated trials, I finally achieved this result. This product not only coalesces my efforts, but also hopes to add a touch of color to the field of chemical industry and create a new situation.

Physical & Chemical Properties

6-Benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-), diammonium salt, the physicochemical properties are related to many things. Its color state, or a specific appearance, can be seen from its initial properties. In terms of solubility, it shows different properties in different solvents, water or organic solvents, solubility and insolubility, and the degree of solubility are its characteristics. Thermal stability is also the key. When heated, it remains stable in a specific temperature range, or decomposes and discolours. In terms of chemical activity, specific groups in its structure give reactivity, and can react with specific reagents such as substitution and addition. It is used in chemical synthesis and other fields or relies on this property. These are all important physicochemical properties of 6-benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-), diammonium salt.

Technical Specifications & Labeling

6-Benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-), diammonium salt, the process specifications and identification (product parameters) of this substance are of great importance to our research. Looking at its process specifications, it is necessary to review the finer aspects of each link in detail. From the selection of raw materials, it is necessary to be pure and flawless, and to fit a specific quality. The synthesis process, temperature, pressure, time and other parameters must be precisely controlled, and there must be no mistakes. As for the identification, when its chemical properties and safety concerns are clear. Product parameters are also critical, such as purity geometry and impurity limits, should be clearly marked. In this way, this product can be fully effective when applied, and it is safe and secure.

Preparation Method

6-Benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-), and diammonium salts made today should first be carefully examined for their raw materials. Choose pure and good materials, such as benzothiazole and sulfonic acid, to ensure good quality and no impurities.
The art of making is to combine benzothiazole and sulfonic acid in a kettle at a suitable temperature, and control the heat. Do not make it too much or too little. At the right time, it should be stirred slowly to make it even. When it is finished, gradually cool and precipitate crystals.
In the next step, add ammonium salt to the liquid, adjust its acid and base, and make it into diammonium salt. During the process, observe the change of its color, taste and state, and abide by its laws.
Refined, remove its impurities with a filter, and then use distillation to improve its purity. The final product, test its quality, and meet the standard. In this way, the method of making this product is ready.

Chemical Reactions & Modifications

To taste the wonders of chemistry, it is related to the change of substances, and the reaction and modification are particularly important. Today, there are 6 - Benzothiazolesulfonic Acid, 2,2 '-Azinobis (3 - Ethyl - 2,3 - Dihydro -, Diammonium Salt. In the field of chemistry, its reaction and modification are worth exploring.
To view its reaction, it is necessary to understand all kinds of conditions. Temperature, pressure, and the nature of catalysts can all affect its change. Or combine with other things, or decompose itself, it is all logical. When modifying, you want to change its properties, increase its stability, or change its activity to suit all needs.
After repeated research, the details of its reaction were investigated, and the modification method was analyzed. With the goal of chemistry, more new knowledge was gained, so that this substance could be used in various fields such as industry and scientific research to develop its growth and be used by the world, so as to achieve the power of chemistry and benefit people.

Synonyms & Product Names

6-Benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-), diammonium salt, the synonyms and trade names of this thing are always important to our generation of chemical researchers. There are many synonyms, all of which are needed to accurately describe their chemical structure and properties. Trade names may vary from merchant to merchant due to the convenience of market sales.
The naming of chemical substances is inherently rigorous. Synonyms can help us recognize its characteristics from different angles, such as according to its structure, reaction, etc., and related titles can be derived. And trade names, although they are convenient for the market, cannot be arbitrary, and need to highlight their unique uses or advantages.
We must study the synonyms and trade names of this 6-benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-), diammonium salt in detail in order to accurately grasp and use it in chemical research, industrial applications and many other aspects.

Safety & Operational Standards

6-Benzothiazolesulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-), diammonium salt product safety and operation specifications
Fu6-benzothiazolesulfonic acid, 2,2' -azobis (3-ethyl-2,3-dihydro-), a genus of diammonium salts, is very important in my chemical research work. However, its use must follow safety and operation specifications to ensure that everything goes smoothly and personnel are safe.
Anyone who takes this thing should be in a well-ventilated place. Cover it or contain volatilization, if it accumulates in the room, it may cause harm to the body. And when handling, it is necessary to wear protective equipment, such as gloves, goggles, etc., to prevent it from touching the body and hurting the skin and entering the eyes.
When storing, it should be placed in a dry and cool place, away from fire and heat sources. Because of its nature or activity, it is afraid of unexpected changes in case of heat or fire. It should also be stored separately from other chemical substances to avoid interaction and danger.
In experimental operation, the steps must be rigorous. Read the instructions carefully first to explain its dosage and usage. When weighing, measure accurately, do not make excess or insufficient. During the reaction, pay close attention to the phenomenon, control its temperature and time, and prevent it from getting out of control.
If you accidentally touch it, rinse it with plenty of water as soon as possible. If it enters the eye, you need to rinse it immediately and seek medical attention as soon as possible. In case of fire, use a suitable fire extinguishing agent, and do not blindly rescue it.
In short, 6-benzothiazolesulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-), diammonium salt The safety and operation specifications of this salt are something that we chemical researchers should not ignore. We should always be in awe and proceed with caution.

Application Area

6-Benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-, diammonium salt) is very useful in various application fields. It can be used for biochemical analysis, which can assist researchers to clarify the mechanism of complex biochemical reactions. In medical testing, it also has its place, which can accurately measure various biomarkers and provide a key basis for disease diagnosis.
In the field of materials science, this compound may participate in the preparation of specific materials and optimize material properties. Such as improving material stability and enhancing its corrosion resistance. And in the field of industrial production, it may be used as a catalyst for specific reactions to improve reaction efficiency and reduce production costs. Its performance in multiple application fields is like a starry night, adding to the development of various fields, and it is an important compound that cannot be underestimated.

Research & Development

The name of this chemical product is 6-benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-, diammonium salt). This material is unique and has great potential in many fields. We dedicated ourselves to studying, analyzing its structure and exploring its properties.
At first, we extracted this substance in a fine way to ensure purity. Then, observe its reaction under different conditions and record the data in detail. Also observe the changes in its mixing with other substances to understand the reason of its interaction.
After long-term research, we gradually gained something. In a specific reaction, this substance can promote the reaction to go fast and the product is pure. However, there are also problems, such as poor preservation stability.
We are unremitting and thinking of ways to improve. We hope to use new techniques and new methods to solve its problems, so that this material has better properties and wider applications. It will shine in the field of chemical industry and promote the progress and prosperity of the industry.

Toxicity Research

Toxicity study of 6-benzothiazolesulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-), diammonium salt
The toxicity of 6-benzothiazolesulfonic acid, 2,2' -azobis (3-ethyl-2,3-dihydro-), diammonium salt must be investigated in detail. This compound may be used in industry and scientific research, but its impact on organisms cannot be ignored.
Observation of various experiments, administered to the tested organisms at different doses. At low doses, there may be subtle physiological changes, but no obvious damage is caused. And the dose gradually increases, it can be seen that the behavior of the tested organisms is abnormal and the growth is blocked. Some biological organs also show signs of disease, which is a sign of gradual toxicity.
Furthermore, consider its environmental behavior. In water and soil, its decomposition and transformation state is related to the surrounding ecology. If it is difficult to degrade and accumulate, it may cause environmental toxicity accumulation and endanger the ecological balance. Therefore, the toxicity study of p-6-benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-), diammonium salt needs to be comprehensive and cautious, so as to be the basis for safe application and environmental protection.

Future Prospects

Today, there is a product called 6-Benzothiazolesulfonic Acid, 2,2 '-Azinobis (3-Ethyl-2,3-Dihydro-, Diammonium Salt), which is also a chemical product. As a chemical researcher, we look at its future prospects and feel that it has extraordinary potential.
In the field of industry, this product may be used as a new type of raw material to help improve the process and improve the quality of the product. In the process of scientific research, it may be a key reagent to open up unknown secrets and lead to the tide of exploration.
Although it is used today or limited, in the future, with the development of science and technology, its application will be extensive. It may be able to develop the effect of environmental protection on the road of green chemistry; in the path of pharmaceutical research and development, the ability to remove diseases. We look forward to it, hoping that it will shine in the unfinished time, be used by the world, and benefit all people.

Frequently Asked Questions

What is the chemical formula of 6-benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-, diammonium salt

6 + -Fluoropyridine carboxylic acid, 2,2 '-carbonyl bis (3-ethyl-2,3-dihydro-, the chemical formula of its disodium salt, is a problem in the field of chemistry. To understand the details, we should deduce it from the principles of chemistry, the properties of elements, and the rules of bonding.
Looking at this compound, fluoropyridine carboxylic acid contains fluorine, carbon, hydrogen, nitrogen, and oxygen elements. The fluorine atom is connected to the pyridine ring and has a carboxyl group in its structure. And 2,2 '-carbonyl bis (3-ethyl-2,3-dihydro-moiety, with carbonyl as a bridge, connected to a specific hydrocarbon group structure.
To obtain the chemical formula of its disodium salt, the first thing to know is the chemical formula of its acid structure. The number of atoms in the acid structure and the connection relationship are established, because when forming a sodium salt, the hydrogen atom of the carboxyl group is replaced by a sodium ion. A carboxyl group is combined with a sodium ion to form a sodium carboxylate salt. If this compound has two carboxyl groups that can form salts, it is combined with two sodium ions.
Let the chemical formula of this acid compound be $C_ {x} H_ {y} F_ {z} N_ {a} O_ {b} $. When salted with sodium, the two hydrogen atoms are replaced by two sodium ions. Therefore, the chemical formula of the disodium salt is $C_ {x} H_ {y - 2} F_ {z} N_ {a} O_ {b} Na_ {2} $. However, in order to determine the specific values of $x $, $y $, $z $, $a $, $b $, it is necessary to study the precise structure of the compound in detail. By chemical analysis, spectrometry and other experimental methods, the type and quantity of its atoms can be determined.
Although the fine structure of this compound is not known in detail to determine the exact chemical formula, according to the general principle of chemical salt formation, it can be deduced that it forms a disodium salt in this general form.

6-Benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-, diammonium salts are mainly used in which fields

2,2 '-Carbonyl bis (3-ethyl-2,3-dihydro-) and dibismuth urea are mainly used in many fields.
In the field of chemical synthesis, its unique chemical structure gives it the potential as a special reaction intermediate. With the activity of groups such as carbonyl and dihydro, it can participate in a series of complex organic synthesis reactions to help build organic compounds with specific structures, such as in the preparation of drug precursors with special functional groups, high-performance material monomers, etc., providing the possibility for the chemical industry to prepare new materials and expand product categories.
In the field of materials science, it can be used to improve material properties. The bismuth element in dibismuth urea has some special physical and chemical properties. When combined with other materials, it can change the electrical, optical or thermal properties of the material. For example, the addition of certain polymer materials can improve the flame retardancy of the material, improve its mechanical strength, etc., so that the material can meet the needs of high-end fields for special performance materials, such as electronic equipment manufacturing, aerospace materials and other fields.
In the field of biomedicine, such compounds or their derivatives may exhibit unique biological activities. By modifying and optimizing their structures, it is possible to develop drugs with specific pharmacological effects, such as as potential lead compounds for antibacterial, antiviral or anti-tumor drugs, opening up new directions for the development of new drugs. It holds rich application prospects in the fields of chemical synthesis, materials science, and biomedicine, providing an important material foundation and research direction for technological innovation and development in various fields.

What is the safety of 6-benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-, diammonium salt

Wen Jun's question is about the safety of 6 + -aniline and imidazole sulfonic acid, 2,2 '-carbonyl bis (3-ethyl-2,3-dihydro-, disodium salt). These two may have applications in chemical industries and other fields, and the study of their safety is related to many parties.
6 + -aniline and imidazole sulfonic acid, or involved in chemical synthesis, material properties, etc. For the human body, if it comes into contact with this substance, it is necessary to check whether it irritates the skin and mucous membranes. If exposed to the skin, it may cause sensitivity, redness and swelling; if it enters the eyes, it may cause eye discomfort, damage vision. And inhaled through the respiratory tract, or affect the respiratory system, causing cough, asthma, etc. And long-term ingestion, or accumulation in the body, can harm the function of organs, such as liver and kidney.
As for 2,2 '-carbonyl bis (3-ethyl-2,3-dihydro-, disodium salt), there are also similar conditions. Its chemical structure and characteristics determine its safety. If inadvertently exposed, it will also cause irritation to the body surface. In the environment, it is necessary to observe its degradation. If it is difficult to degrade, or accumulates in the ecology, it will endanger the biological chain.
To determine its safety, follow the scientific method. First, conduct laboratory tests, using cells and animals as models to test its toxicology. Second, in the place of production and use, check the health of the operator and accumulate data to analyze. Third, in accordance with the law, set the standard of safety, regulate the limit of its use and the law of protection. In this way, it can be clearer about its safety, avoid harm in the past, and ensure the safety of people and the environment.

What is the production process of 6-benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-, diammonium salt

To prepare the products of sulfadiazine and 2,2 '-carbonyl bis (3-methyl-2,3-dihydro-, disodium salt), the process is as follows:
The first is the preparation of sulfadiazine. First take the appropriate raw materials, based on pyrimidine compounds and sulfadiazine reagents. In a specific reaction vessel, control the appropriate temperature, pressure and reaction time. If the pyrimidine parent is combined with the sulfadiazine part in a precise ratio. The reaction environment needs to be pure and stable to prevent the disturbance of impurities. Catalytic agents can be used to promote the reaction speed and make the two combine efficiently. After multi-step reactions, or intermediate products are formed, it needs to be refined and separated in sequence to remove the impure matter. Or by crystallization, filtration, etc., to obtain pure sulfadiazine.
The second time is 2,2 '-carbonyl bis (3-methyl-2,3-dihydro-, disodium salt. Compatible with specific organic raw materials containing carbonyl groups and reagents containing 3-methyl-2,3-dihydro-related structures. In an alkaline environment, the carbonyl groups react with their structures by condensation. The amount and concentration of bases need to be carefully controlled to ensure that the reaction follows the expected path. After the reaction is completed, sodium ions are introduced by sodium salination to form disodium salts. During the process, temperature control, stirring, etc. may be required to ensure the uniformity of the reaction. It also needs to go through purification processes, such as extraction, recrystallization, etc., in addition to its by-products and impurities, to obtain high-purity 2,2 '-carbonyl bis (3-methyl-2,3-dihydro-, disodium salt.
The preparation process of these two products requires fine control of each link in order to obtain high-quality products.

What is the market price of 6-benzothiazole sulfonic acid, 2,2 '-azobis (3-ethyl-2,3-dihydro-, diammonium salt)

Looking at what you said, I seem to be asking about the market price of 6-fluoroindolecarboxylic acid, 2,2 '-carbonyl bis (3-methyl-2,3-dihydro-, diferrocene). However, these things are all modern chemical things. At the time I was there, there were no such fine chemical products, so it was difficult to know their exact market prices.
In today's world, the art of chemistry has advanced greatly, and new things have emerged in large numbers. The determination of prices is related to various factors. First, whether the raw materials are rare or not, if the raw materials are rare and difficult to harvest, the price will be high; second, the preparation is difficult and easy, if the preparation method is cumbersome, it consumes labor time and material resources, and the price is not low; third, the supply and demand in the market, if there are many people who need it and few people who supply it, the price will rise, and vice versa.
Although I can't confirm the price, if you want to know, you can go to the chemical market and trade platform in today's world to inquire about it, or ask people who are skilled in chemical trade, you will definitely get a detailed price. And in today's world, information is convenient, on the Internet, or there is also information on relevant prices. If you are good at seeking, you will get something.