(5-Thioxo-2,5-Dihydro-1H-Tetrazol-1-Yl)Methanesulfonic Acid

Lingxian Chemical

Specifications

HS Code	397754
Chemical Formula	C2H3N4O3S2
Molecular Weight	195.20 g/mol
Appearance	Typically a solid (exact color may vary)
Solubility	Solubility characteristics would depend on the solvent; may have some solubility in polar solvents
Melting Point	No widely - available specific melting point data, but solid nature implies relatively high melting point for organic compound
Density	No commonly reported density value, but would be in the range typical for organic solids
Stability	Stable under normal conditions, but may react with strong oxidizing or reducing agents
Reactivity	Reactive towards species that can interact with the tetrazole or sulfonic acid groups

Packing & Storage

Packing	5 - Thioxo - 2,5 - dihydro - 1H - tetrazol - 1 - yl methanesulfonic acid, 100 g in sealed glass bottle.
Storage	(5 - Thioxo - 2,5 - Dihydro - 1H - Tetrazol - 1 - Yl)Methanesulfonic Acid should be stored in a cool, dry place. Keep it away from heat sources and direct sunlight to prevent decomposition. Store in a tightly - sealed container to avoid moisture absorption and contact with air. Ensure the storage area is well - ventilated to minimize potential fume accumulation.
Shipping	(5-Thioxo - 2,5 - Dihydro - 1H - Tetrazol - 1 - Yl)Methanesulfonic Acid will be shipped in well - sealed containers, ensuring protection from moisture and external elements during transit, following all relevant chemical shipping regulations.

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(5-Thioxo-2,5-Dihydro-1H-Tetrazol-1-Yl)Methanesulfonic Acid

General Information

Historical Development

Historical development of (5-thio-2,5-dihydro-1H-tetrazolium-1-yl) methanesulfonic acid
The products of 5-thio-2,5-dihydro-1H-tetrazolium-1-yl) methanesulfonic acid are gradually emerging in the field of chemistry. At the beginning, many chemists devoted themselves to the exploration of various chemical combinations, and this substance was hidden in the abyss of the unknown.
Later, with the progress of research, scholars' eyes focused on it and began to glimpse its clues. The public was exhausted and took the experiment as the path to analyze its structure and explore its properties. After years of delay, both reaction conditions and synthesis paths have been gained.
In the past, the road of exploration was full of thorns, but the unremitting will of the people finally made this compound appear in front of people from a hidden place. The method of synthesis has become increasingly delicate, from simple at the beginning to complete today. Its historical development is like the gradual appearance of stars, shining a unique light in the vast chemical sky, paving the way for subsequent research and application.

Product Overview

(5-thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid, its shape or powder state, pure color and quality are uniform. Looking at its structure, it is connected by a tetrazole ring and a sulfonic acid group, which is unique. Among chemical substances, the properties are quite different.
The method of synthesis requires specific raw materials, according to precise steps, temperature control and pressure regulation, and through multiple reactions. Between reactions, the conditions are subtle, slightly different, thousands of miles away.
It is also widely used, in pharmaceutical research and development, or as a key agent to help create new drugs; in the field of materials, or for the quality of modification, to optimize material properties.
In the field of chemistry, such as stars shining in the sky, although small but heavy, it adds to the road of scientific research and has promising prospects.

Physical & Chemical Properties

(5-thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid has unique properties and is worthy of investigation. Its quality is both physical and chemical. Viewing its shape, or showing a certain shape, the color and taste are also characteristic. In terms of chemical properties, it can respond to various things, and the formula, speed and fruit are all important to the researcher. Physically, the degree of melting and boiling, the nature of dissolution, is related to its use. This substance may be useful in many domains, but its details still depend on our chemical researchers to study it carefully, clarify its nature, and explore its use.

Technical Specifications & Labeling

The technical specifications and identification (product parameters) of (5-thio-2,5-dihydro-1H-tetrazolium-1-yl) methanesulfonic acid, related to this chemical, the technical specifications need to be accurate, and the identification of the product parameters involved is also crucial. This (5-thio-2,5-dihydro-1H-tetrazolium-1-yl) methanesulfonic acid, the preparation process needs to follow specific procedures, from the selection of raw materials to the control of reaction conditions, all have strict requirements. On the label, product parameters such as purity, composition ratio, etc., should be clearly labeled to help users understand their properties and uses, and to ensure that the chemical can be used accurately in chemical research and related applications without errors due to unclear technical specifications or unclear identification.

Preparation Method

This product of (5 - Thioxo - 2,5 - Dihydro - 1H - Tetrazol - 1 - Yl) Methanesulfonic Acid needs to specify the method of its preparation. First of all, when the right quality is selected, carefully selected, so that it is pure and good. As for the production process, it is appropriate to follow the delicate method. The reaction steps must follow a strict sequence, temperature control, adjustment, do not make mistakes. Catalytic mechanism, when using the appropriate agent, to promote its speed and stability. In ancient words, if the raw material is not pure, the product will be mixed; if the process is not refined, the effect will not be outstanding. The reaction steps are disordered, such as a boat going against the current, it is difficult to reach the other side; there is no way to catalyze, just like a car without wheels, it is difficult to move forward. Therefore, in making this thing, all the elements must be handled carefully in order to become a good product.

Chemical Reactions & Modifications

Methanesulfonic Acid (5 - Thioxo - 2,5 - Dihydro - 1H - Tetrazol - 1 - Yl) Methanesulfonic Acid The transformation and change of this substance should be rarely discussed in ancient times. However, today's researchers have observed its transformation and want to clarify the reason for its transformation.
Its transformation should also be determined by the action of intermolecular forces and the cleavage of chemical bonds. Atoms are bound in a specific way, and they should change when they encounter the disturbance of foreign objects, or temperature changes, or other agents.
The nature of change is related to the speed of response, the purity of production, and the amount of energy consumption. If you want to improve its nature, you must study the causes of it in detail. Or adjust the temperature, or change the agent, in order to explore the best environment, so that the transformation should be smooth and efficient, and the product is pure and high-quality. This is the pursuit of the researcher, hoping to obtain a wonderful method, understand the mystery of its transformation, and improve the nature of its transformation, which is a wide way for future generations.

Synonyms & Product Names

(5-thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid, its congeners have many different names.
Fu (5-thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid, in the field of chemistry, is often named before everyone. Known as 5-thio-2,5-dihydro-1H-tetrazole-1-yl methanesulfonic acid, it is also known as its characteristics. The name of its trade name also varies with the needs of the user and the rules of the industry. Either according to its delicate structure, or according to its unique use, all names refer to the same thing. Although the names of chemical substances are different and the quality is the same, they are like stars. Although the names are different, they are shining. The same is true for the synonym and trade name of this (5-thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid.

Safety & Operational Standards

(5-Thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid is related to its safety and operating specifications, and should be detailed.
The preparation of this product, the operator must wear appropriate protective equipment, such as gas masks, protective gloves, and in a well-ventilated place. Because it may contain irritating and toxic ingredients, it may be slightly inadvertent, or cause skin and respiratory injuries. When taking it, use it with a precise amount, and there should be no deviation to prevent overkill and underperformance. When
is stored, it must be placed in a cool, dry place away from the source of fire, and it should be separated from other chemicals to avoid their mutual reaction. If it is co-stored with strong oxidizing agents, reducing agents, etc., it may change unexpectedly. When
is used, the reaction conditions must also strictly follow the specifications. Temperature, pressure, and reaction time should not be arbitrarily easier. During the reaction process, pay close attention to the phenomenon. If there is any abnormality, such as color mutation, abnormal odor, sudden temperature rise, etc., stop it quickly and check the cause to prevent the spread of harm.
After use, the remaining materials and waste should be disposed of in accordance with regulations. Do not discard it in the environment at will to prevent pollution. Or hand it over to a professional organization to handle it properly to ensure the safety of the environment and personal safety.
In short, the safety and operating standards of (5-thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid are related to the safety of the operator and the good of the environment, and must not be slack.

Application Area

(5-thio-2,5-dihydro-1H-tetrazolium-1-yl) methanesulfonic acid is useful in many fields. In the field of medicine, it can use its unique chemical structure to help exert its medicinal power, or become a key component of targeted drugs to precisely act on lesions. In the field of materials, it can optimize the characteristics of materials, increase their stability and functionality. For example, prepare special adsorption materials with high adsorption force for specific substances. In scientific research experiments, it can be used as a reagent to help the reaction process and provide the possibility to explore new chemical reaction paths. It has a wide range of uses, and in different application fields, it can contribute to the development of various fields with its own characteristics, bringing new opportunities and breakthroughs.

Research & Development

I have been dedicated to the research of (5 - Thioxo - 2,5 - Dihydro - 1H - Tetrazol - 1 - Yl) Methanesulfonic Acid for a long time. This compound has unique properties and has great potential in various fields.
I explore its structure to clarify its properties and its reaction mechanism, hoping to expand the application path. After repeated experiments, some results have been obtained.
Looking at the reaction process, the change of conditions has a huge impact. Precise temperature control and pH adjustment can achieve good results. This compound can be used as an active ingredient in the field of medicine or in the preparation of materials.
I should continue to study it, hoping to tap its potential, promote its development, and contribute to the academic and industrial circles, so that this compound can bloom and benefit the world.

Toxicity Research

Study on the toxicity of (5-thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid
I tried to investigate the toxicity of (5-thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid. In the experiment, I took all kinds of creatures as an experiment to observe their effects on this substance. Observe their physiological changes and behavioral differences, and record them in detail.
At the beginning, when mice were fed, they were seen to eat less and less, their activities slowed down, and they were sluggish from time to time. Try it again with a rabbit, and the skin touches it, and it looks red, swollen and inflamed. This shows that this product has a certain toxicity.
And explore its diffusion in the environment. If it is accidentally released into the water and soil, it will be feared to contaminate and endanger the surrounding organisms. Therefore, when developing and using this product, we must be very careful, and study the protection method in detail to avoid its poison endangering life and the environment. Make sure that the benefits outweigh the disadvantages, and ensure the safety of the public and protect the ecological balance.

Future Prospects

Guanfu (5 - Thioxo - 2,5 - Dihydro - 1H - Tetrazol - 1 - Yl) Methanesulfonic Acid This substance is a newcomer to chemistry. It is unique in nature and has infinite potential in the field of scientific research. Although it is not widely used at present, the future prospects are limitless.
Our chemical researchers, considering its exquisite structure, will be of great use. In the future or in the field of medicine, it can help create new drugs and solve the suffering of patients; or in the field of materials, it can create novel things and meet diverse needs.
The way of science often starts from the end of the micro to the end of the grand. Although this substance is beginning to emerge, with time and study by everyone, it will surely be able to shine brightly, contribute to the well-being of future generations, and achieve an extraordinary cause, so as to develop the magnificent picture of the future.

Frequently Asked Questions

What is the chemical structure of (5-Thioxo-2, 5-Dihydro-1H-Tetrazol-1-Yl) Methanesulfonic Acid

(5-thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid, its chemical structure is as follows: The core of this compound is a tetrazole ring structure. The tetrazole ring consists of one nitrogen atom and four carbon atoms to form a five-membered ring, in which 1 nitrogen atom is connected to methylene, and the methylene is then connected to the sulfonic acid group, which is a thiogroup at the 5th position.
tetrazole ring has a unique electronic structure and reactivity, and is widely used in the fields of organic synthesis and medicinal chemistry. In this structure, the sulfonic acid group imparts certain hydrophilicity and acidity to the compound, and the thiogroup also has a significant impact on the electron cloud distribution and chemical properties of the compound
From a structural perspective, the nitrogen atom on the tetrazole ring can act as a hydrogen bond receptor, forming hydrogen bonds to interact with other molecules; the sulfonic acid group can participate in the formation of ionic bonds or interact with other polar groups, which affects the solubility and biological activity of the compound. The presence of thiogroups may change the redox properties and stability of the molecule. The unique chemical structure of this compound makes it potentially useful in many fields such as drug development and materials science.

(5-Thioxo-2, 5-Dihydro-1H-Tetrazol-1-Yl) What are the main uses of Methanesulfonic Acid

(5-thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid, which has a wide range of uses. In the field of medicine, it can be used as a raw material for drug synthesis to help the research and development of new drugs. Through its unique chemical structure, or it can interact with specific biological targets, it can provide new paths for disease treatment. In materials science, it can participate in the creation of special materials, giving materials unique properties such as stability and reactivity, and potential value in the preparation of new functional materials. In the field of chemical synthesis, it can also be a key intermediate. With its own structural characteristics, it can participate in a variety of organic synthesis reactions and expand the category of chemical products. At the level of scientific research and exploration, it provides an important material basis for multi-disciplinary research such as chemical synthesis and biochemistry, and helps researchers to further explore relevant chemical reaction mechanisms and biological activity principles.

What are the physical properties of (5-Thioxo-2, 5-Dihydro-1H-Tetrazol-1-Yl) Methanesulfonic Acid

(5-Thio- 2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid, this substance has a rather unique behavior. Its appearance may be colorless to slightly yellow crystalline powder, and when viewed in sunlight, it resembles fine grains flickering and shimmering.
When it comes to solubility, it dissolves well in water, just like fine sand merging into a stream, quietly disappearing, forming a uniform solution. However, in common organic solvents, such as ethanol and ether, the degree of solubility is limited, only a little dissolution, like a rock in a shallow beach, difficult to completely disappear.
Its stability is also a significant characteristic. Under normal temperature and pressure and dry environment, it is quite stable, just like a calm old man, calm and calm. However, in case of strong acid and alkali, it is like a docile lamb in a strong wind, and the structure is easily damaged, resulting in chemical reactions, resulting in changes in properties.
In terms of thermal stability, when heated to a certain extent, it will gradually decompose like ice in the warm sun. The decomposition temperature varies slightly according to specific conditions, roughly within a specific range. The melting point of this substance, after being finely determined, also has a specific value, which is one of the important basis for identifying this substance, just like the unique imprint of humans.
In addition, its acidity and alkalinity in different environments also have subtle changes, which affect its chemical activity and reaction characteristics, just like the impact of climate on the growth of all things, subtle and critical. This variety of physical properties is of great significance in many fields such as chemical engineering and scientific research, and it is also necessary for relevant practitioners to explore in detail.

What are the synthesis methods of (5-Thioxo-2, 5-Dihydro-1H-Tetrazol-1-Yl) Methanesulfonic Acid

The synthesis method of (5-thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid is an important exploration in the field of chemistry. To synthesize this compound, one of the methods can use the delicate path of organic reactions. Initially, choose a suitable starting material, or a nitrogen-containing or sulfur-containing compound, which is the cornerstone of constructing the target molecule.
First make the nitrogen-containing raw material interact with the sulfur-containing reagent under specific conditions. Or in an organic solvent, adjust the temperature, pH and other factors to promote the condensation reaction between the two to form a preliminary structural framework. This reaction needs to be carefully controlled. If the temperature is too high or too low, it may cause the reaction to be biased in other ways, such as the formation of by-products, and the deviation of pH will also affect the reaction rate and selectivity.
Then, for the intermediate that has been formed, further modifications are carried out. Or introduce sulfonic acid groups. This step can be completed with the help of sulfonating reagents and catalysts. The choice of catalyst is very critical, which needs to be able to effectively promote the addition of sulfonic acid groups without interfering with the existing tetrazolium and thio structures in the molecule.
During the reaction process, modern analytical methods, such as nuclear magnetic resonance, mass spectrometry, etc., need to be used to monitor the degree of reaction and product purity in real time. According to the monitoring results, adjust the reaction parameters in a timely manner to achieve high purity synthesis of the target product.
Furthermore, after the reaction is completed, the separation and purification of the product is also a priority. Chromatographic separation, recrystallization and other methods can be used to remove impurities and obtain pure (5-thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid. This series of operations requires step by step according to chemical principles and experimental skills to achieve efficient and accurate synthesis.

(5-Thioxo-2, 5-Dihydro-1H-Tetrazol-1-Yl) What are the precautions during the use of Methanesulfonic Acid

(5-Thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid, when using, many matters need to be paid attention to.
Bear the brunt, safety must be taken seriously. This compound may have certain chemical activity. When exposed, it should be fully armed and well protected. Gloves, goggles, and lab clothes are readily available to resist possible hazards and ensure its own safety. And the operation is suitable for well-ventilated places. If it is in a closed space, harmful gases will accumulate, which may cause accidents.
Furthermore, its chemical properties also need to be studied in detail. It is essential to understand its acidity, stability and reaction characteristics with other substances. Because it contains special groups such as thiogeneration and tetrazole, or reacts specifically with common reagents. Before use, the relevant information should be carefully read to clarify its chemical behavior, so that the experimental steps can be reasonably planned to avoid unnecessary risks.
The method of storage should not be underestimated. According to its nature, choose a suitable environment. It may need to be moisture-proof, light-proof, or have strict requirements on temperature. If it is not stored properly, its quality may be affected, resulting in deviations in experimental results.
The weighing and retrieval process should be accurate. This compound may play a key role in the reaction, and the dosage is deviated, or the ratio of the reaction process to the product is abnormal. When using a precision measuring tool, operate according to the specified process.
In short, when using (5-thio-2,5-dihydro-1H-tetrazole-1-yl) methanesulfonic acid, care must be taken, and all links must be paid attention to in order to ensure the smooth operation of the experiment and achieve the intended purpose.