4-(3-Methyl-5-Thioxo-1H-1,2,4-Triazol-4(5H)-Ylamino)Benzenesulfonic Acid

Lingxian Chemical

Specifications

HS Code	388278
Chemical Formula	C10H10N4O3S2
Molecular Weight	298.34 g/mol
Appearance	Solid (usually powder)
Melting Point	Specific value would require experimental determination
Solubility In Water	Limited solubility likely due to polar - non - polar balance
Solubility In Organic Solvents	May show some solubility in polar organic solvents like DMSO
Acidity	The sulfonic acid group makes it acidic
Basicity	The triazole moiety may have some weak basic character
Crystal Structure	Depends on synthesis and crystallization conditions
Stability	Stable under normal conditions but may decompose on heating or in presence of strong oxidants

Packing & Storage

Packing	1 kg of 4-(3 - Methyl - 5 - Thioxo - 1H - 1,2,4 - Triazol - 4(5H)-ylamino)Benzenesulfonic Acid in sealed containers.
Storage	4-(3 - Methyl - 5 - Thioxo - 1H - 1,2,4 - Triazol - 4(5H)-Ylamino)Benzenesulfonic Acid should be stored in a cool, dry place away from direct sunlight. Keep it in a tightly - sealed container to prevent contact with moisture and air, which could potentially affect its chemical stability. Avoid storing near flammable or reactive substances.
Shipping	Shipping Description for 4-(3 - Methyl - 5 - Thioxo - 1H - 1,2,4 - Triazol - 4(5H)-Ylamino)Benzenesulfonic Acid This chemical will be shipped in properly sealed, corrosion - resistant containers. It adheres to all hazardous material shipping regulations, ensuring safe transit to the destination.

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4-(3-Methyl-5-Thioxo-1H-1,2,4-Triazol-4(5H)-Ylamino)Benzenesulfonic Acid

General Information

Historical Development

The industry of chemical industry is changing with each passing day, and all kinds of products emerge one after another. Today there is a product called 4- (3 - Methyl - 5 - Thioxo - 1H - 1,2,4 - Triazol - 4 (5H) -Ylamino) Benzenesulfonic Acid. At the outset, the researchers worked hard and studied the material properties. At the beginning, they explored the method of synthesis, but after repeated mistakes, they were determined to persevere.
After years, the craftsmanship has become more and more exquisite, and the control of reaction conditions and the trade-off of raw material ratio have all been achieved. The field of application of this product has also gradually expanded, whether it is used in medicine or related to materials. The hardships of the past are the cornerstone of today's vigorous development. Its development process is similar to that of the star flintlock trade, starting from the end of the micro and gradually flourishing. The future is expected to become increasingly broad.

Product Overview

4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid
There is a product named 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid. Its structure is unique, containing a triazole ring, and the ring is modified with methyl and thio, and the base of benzenesulfonic acid is connected.
The properties of this product are both triazole and benzenesulfonic acid. The triazole structure gives it a certain reactivity, or it can participate in a variety of heterocyclic reactions; the benzenesulfonic acid group makes it acidic and can be dissociated under appropriate conditions.
From the theory of application, because of its special structure, or in the field of medicine, it can be used as a lead compound. After modification and transformation, it can be developed into a drug to play a role in specific diseases. Or in materials science, with its reactivity, it can be used to prepare special functional materials and add unique properties.

Physical & Chemical Properties

4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid, its physical and chemical properties are particularly critical. Looking at its morphology, it may be solid at room temperature, and the color state may vary slightly due to impurities, but it is likely to be white to off-white powder, which is convenient for observation and operation. Its solubility also needs to be carefully observed. It dissolves differently in water, alcohols and organic solvents, or can be separated and purified according to its characteristics.
In terms of thermal stability, it is heated to a specific temperature, or decomposes and rearranges, which has strict requirements on storage and use temperatures. And its chemical activity should not be underestimated, the structure contains triazole ring and sulfonic acid group, can participate in a variety of chemical reactions, and can play a role in metal ions and organic reagents, which provides a broad space for its use in the synthesis of new compounds, material modification and other fields.

Technical Specifications & Labeling

4- (3-methyl-5-thio- 1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid This product is very important due to its technical specifications and identification (product parameters). To observe its quality, it is necessary to observe its color, pure taste, and no heterogeneous gas. To test its shape, it should be uniform and free of omissions. Regarding its properties, the state of dissolution in a specific solvent, the rate and degree are fixed. The proportion of its ingredients must be accurate and correct, and it must be prepared according to the square, and there must be no difference. On the logo, the product name, composition, specification, and origin are all clear and clear, and there is absolutely no ambiguity. Only in this way can we ensure that this product is of high quality, beneficial to the user, meets the requirements of technical specifications and labels, and is not mistaken.

Preparation Method

This product is made of 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid. The formula is as follows:
Raw materials and production process: Take an appropriate amount of specific chemical raw materials and prepare them according to the exact ratio. First, put the methyl-related raw materials and the raw materials containing the thio-triazole structure into the reactor in a certain order. Control the temperature and pressure within a suitable range, such as the temperature is about [X] ° C and the pressure is about [X] kPa, to ensure the smooth reaction.
Reaction steps: Turn on the stirring device to fully mix the raw materials and initiate the reaction. During this period, the reaction process is closely monitored, and the conditions are fine-tuned in a timely manner according to the degree of reaction. When the reaction reaches a specific stage, the raw material containing benzene sulfonic acid is added, and the reaction continues for a period of time.
Catalytic mechanism: A specific catalyst is selected to accelerate the reaction rate and improve the purity of the product. The catalyst is put in at a specific time and the dosage is precisely controlled, which prompts the reaction to proceed efficiently in the direction of generating the target product. In this way, the product of 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzene sulfonic acid can be obtained.

Chemical Reactions & Modifications

There is now a product named 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid. In the field of chemistry, its reaction and modification are worth exploring.
Looking at the reaction, under various conditions, it may be a unique change. The matching of reagents, the control of temperature, and the degree of time are all key. Only in the right environment can the expected results be obtained.
As for modification, the structure can be modified to change its properties. Or add groups, or adjust bonds, hoping to increase its stability, change its solubility, and change its activity. Hoping that this chemical substance, through reaction and modification, can be used in medicine and materials, contributing to the advancement of learning and the prosperity of industry.

Synonyms & Product Names

4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid The study of its synonym and trade name is quite important in my chemical research. The name of the chemical substance, so its nature and its class are clear. This compound may be nicknamed for various uses, or under the name of a commodity to be used in various markets.
Examine its synonym, because of the analysis of chemical structure and the exploration of properties, there may be differences in opinions from various parties, resulting in different names. And the trade name is related to marketing activities and product identification. Although its essence is the same, the different names also affect people's cognition and application.
For our researchers to distinguish its synonyms and trade names, we can be accurate and not confused between academic exchanges and industrial applications. Make the research results flow smoothly, promote the art of chemistry, and improve day by day.

Safety & Operational Standards

Fu 4- (3-methyl-5-thio- 1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid is related to safety and operating standards, and it is something that our chemical researchers should be careful about.
The properties of this compound need to be investigated in detail. For storage, it must be placed in a cool, dry and well-ventilated place, away from open fires and hot topics. Cover it or have specific chemical activity, and it may change unexpectedly in case of heat or fire. And it must be kept away from strong oxidants, strong acids, strong bases and other substances to prevent violent chemical reactions and dangerous situations.
When operating, the researcher must wear appropriate protective equipment. Protective clothing can prevent its harm to the body, goggles can protect the eyes from the risk of splashing, and masks can prevent its tiny particles from entering the lungs. The operation room also needs to be well ventilated, so that the volatile substances that may escape can be dissipated in time, so as not to accumulate and cause harm.
Furthermore, when using this product, use a precise device and act according to the quantity, do not make excessive or improper contact. If it accidentally touches the skin, rinse it with plenty of water quickly, followed by appropriate medicine. If it enters the eyes, it is even more necessary to rinse it with flowing water or normal saline immediately, and seek medical attention immediately.
Dispose of waste from this material should not be ignored. Must be in accordance with specific environmental norms, classified collection, proper disposal, to prevent pollution of the environment, the legacy of future generations.
In short, in the 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid safety and operating norms, researchers should keep in mind, rigorous practice, to ensure that everything goes well, safe and secure.

Application Area

4- (3-methyl-5-thio- 1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid is quite good in the field of use. Although the ancient books of Guanfu have no name, they can be deduced from today's chemical theory to show their effectiveness.
It is used in the field of medicine, or it can help the research and development of pharmaceuticals. Due to its unique structure, or it has antibacterial and anti-inflammatory effects, it can relieve the suffering of diseases and pains for patients. In the world of agriculture and planting, it can add new substances to pesticides. Its characteristics may protect crops, prevent pests and diseases, and increase the yield of grains. In the study of materials, or can be used as an adjuvant for new materials, so that the material has excellent properties and is widely used.
This acid, with its uniqueness, can be used in the fields of medicine, agriculture, plants, materials, etc., and it is also promising for chemical researchers.

Research & Development

The research and innovation of 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid
Our generation studies the subtlety of chemistry, and recently focuses on the research and innovation of 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid. This compound has a unique structure and combines the characteristics of triazole and benzenesulfonic acid, and may have extraordinary potential in the fields of medicine and materials.
At the beginning of the research, the literature was carefully reviewed to explain its reaction mechanism and explore the synthesis path. After many attempts, the reaction conditions, such as temperature, solvent, and reactant ratio, were adjusted to optimize the synthesis process. At the beginning, the yield was not as expected, and there were many impurities. However, unremitting research has finally led to improved methods to improve the yield and purity.
Although progress has been made, the road ahead is still long. The follow-up will explore its physicochemical properties in depth, expand the application field, and hope to contribute to the development of chemistry and develop the value of this compound in practice.

Toxicity Research

Study on the toxicity of 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -ylamino) benzenesulfonic acid
In this world, those who study chemical substances, especially toxicity. 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -ylamino) benzenesulfonic acid This substance is also of our concern.
In the study of toxicity, it is necessary to observe its interaction with organisms. Or enter the body to observe its effect on the viscera and meridians. After a series of tests, it was observed whether it damaged its vitality and disrupted its physiology to the tested insects, mice, etc.
If this substance is toxic, it is harmful to the environment and living beings. Or sewage and soil, harming plants, trees, insects and fish; or entering human food and drink, harming human health. Therefore, a detailed study of the toxicity of this compound can provide evidence for protection, application, etc., to avoid its harm, promote its benefits, and protect the safety of life in the world.

Future Prospects

The product of Fu 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid has a great future prospect.
This product, in the field of chemical industry, may be the basis for new materials. Its unique structure, the combination of 3-methyl and 5-thio and triazole rings, may endow the material with different properties, such as excellent stability and specific reactivity. In the future, it may be able to make tough and special functional materials, which will shine in the construction, machinery and other industries.
It also has potential in the field of medicine. The groups contained in its structure may be specifically combined with biomolecules, opening a convenient door for the development of new agents. Or it can be a good medicine for targeted treatment for specific diseases and benefit patients.
Furthermore, in the context of environmental protection, it may be able to develop efficient purification agents. With its unique chemistry, it absorbs and decomposes pollutants to protect the environment. Although there may be thorns in the road ahead, with time and careful study, this product will be able to develop its extraordinary, used by the world, and achieve future brilliance.

Frequently Asked Questions

What is the chemical structure of 4- (3-Methyl-5-Thioxo-1H-1, 2,4-Triazol-4 (5H) -Ylamino) Benzenesulfonic Acid?

This is the chemical structure analysis of 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -thiamino) benzenesulfonic acid. This compound contains key structural parts such as triazole ring, benzene ring and sulfonic acid group.
The first triazole ring, in this molecule, the triazole ring is attached to other places in a specific way. Its 3-position methyl substitution, this methyl group has an effect on the molecular space structure and chemical properties, or changes the polarity and lipid solubility of the compound. The 5-position is a thio group, the introduction of sulfur atoms increases the molecular reactivity, because sulfur has specific electronic properties and reactive tendencies.
Looking at the benzene ring again, it is a planar cyclic conjugated system with stability. Connected to the triazole ring, the conjugated system may interact with the two, which affects the distribution of molecular electron clouds and chemical activities. The benzene ring is linked to a sulfonic acid group, which is a strong hydrophilic group, which significantly increases the water solubility of the molecule, and the sulfonic acid is basically acidic, which can be ionized under suitable conditions, giving the molecule acid-base characteristics.
As for the 4 (5H) -cyanamide part of the triazole ring, it is connected to the benzene ring in a specific structural relationship, which also contributes to the electronic effect and spatial structure of the whole molecule. Imino nitrogen atoms lone pair electrons or participate in the conjugation system, which affects the distribution of molecular electron clouds, and then affects the
In summary, the chemical structure of 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -pyriamino) benzenesulfonic acid is composed of triazole ring, benzene ring, sulfonic acid group, etc. The interaction of each part endows the compound with unique physical and chemical properties.

What are the main uses of 4- (3-Methyl-5-Thioxo-1H-1, 2,4-Triazol-4 (5H) -Ylamino) Benzenesulfonic Acid

4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid has a wide range of uses. In the field of medicine, it can be used as a key intermediate for the synthesis of many special drugs. The unique structure of the material can precisely combine with specific targets in the body, or help to develop new antibacterial and antiviral drugs to relieve patients' pain.
In the field of materials science, this substance also has wonderful uses. Its unique chemical structure gives materials special properties, or can be used to create new materials with excellent adsorption and stability. For example, in some adsorption materials, the addition of this substance can greatly enhance the adsorption capacity of specific harmful gases or substances, and make extraordinary contributions to environmental protection.
In the field of agriculture, it can also play an important role. It can be used to synthesize high-efficiency pesticides. By virtue of the specific mechanism of action on pests, it can precisely combat pests and diseases, and has little impact on the environment. It helps agriculture produce a bumper harvest and protects the fertility of the earth.
Furthermore, in the dye industry, 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid can be used as an excellent dye intermediate. It can give the dye a unique color and good color fastness, making the fabric colorful and long-lasting, and bringing people colorful visual enjoyment.
In summary, 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid is indispensable in many fields such as medicine, materials, agriculture, dyes, etc. It is an important compound with a wide range of uses.

What are the physical properties of 4- (3-Methyl-5-Thioxo-1H-1, 2,4-Triazol-4 (5H) -Ylamino) Benzenesulfonic Acid

4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid, which is an organic compound. Its physical properties are related to many aspects, let me tell you in detail.
Looking at its shape, it mostly exists as a solid at room temperature and pressure. Due to the relatively strong intermolecular force, it condenses into a solid state. As for the color, it is often white or off-white powder, which is determined by the absorption and reflection characteristics of the molecular structure of visible light.
When it comes to solubility, it can show some solubility in water. This is because the molecule contains a sulfonic acid group, which is hydrophilic and can form hydrogen bonds with water molecules to improve its dispersion in water. However, its solubility is not infinite, because the molecule still contains hydrophobic benzene ring and triazole structure, limiting its solubility in water.
In addition to the melting point, the compound has a specific melting point, which is an important indicator for identifying its purity and characteristics. The melting point depends on the strength of the intermolecular force. Intramolecular hydrogen bonds, van der Waals forces and other factors jointly determine that it needs a specific temperature to overcome the attractive force between molecules, causing the lattice structure to disintegrate and melt.
In addition, density is also one of its physical properties. Its density reflects the mass of the substance per unit volume and is related to the degree of molecular structure. Closely arranged molecules often lead to higher densities.
In summary, the morphology, color, solubility, melting point and density of 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid are determined by its unique molecular structure and are of great significance in chemical research and practical applications.

What is the preparation method of 4- (3-Methyl-5-Thioxo-1H-1, 2,4-Triazol-4 (5H) -Ylamino) Benzenesulfonic Acid

To prepare 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -ylamino) benzenesulfonic acid, the method is as follows:
First take an appropriate amount of 3-methyl-5-thio-1H-1,2,4-triazole and place it in a clean reactor. The kettle must be carefully cleaned to ensure that no impurities interfere with the reaction. Add an appropriate amount of solvent to the kettle. This solvent must have good solubility to the reactants and be stable in nature. It is appropriate to use dimethyl sulfoxide (DMSO).
After 3-methyl-5-thio-1H-1,2,4-triazole is fully dissolved in the solvent, slowly add the amino-containing benzenesulfonic acid derivative dropwise. The dropwise addition process must be slow and uniform, and continue to stir with a stirring device to make the two fully contact the reaction. The stirring speed should not be too fast or too slow. If it is too fast, it is easy to cause local overheating, and if it is too slow, the reaction will be uneven.
During the reaction process, the temperature needs to be strictly controlled. Through an external temperature control device, the temperature of the reaction system is maintained in a specific range, such as 40-50 degrees Celsius. If the temperature is too high, it is easy to initiate side reactions and cause the product to be impure; if the temperature is too low, the reaction rate will be slow and
After the reaction has continued for a period of time, monitor the progress of the reaction by thin-layer chromatography (TLC) or high-performance liquid chromatography (HPLC). When the reaction reaches the desired level, stop the reaction.
Then, the reaction product is separated and purified. First, pour the reaction mixture into an appropriate amount of precipitator to precipitate the product. The choice of precipitator depends on the nature of the product, so that the product can be effectively precipitated, while impurities remain in the solution. After that, the precipitate is separated by a filtration device and washed with deionized water several times to remove residual impurities.
The precipitate after washing is dried in a vacuum drying oven. The drying temperature and time also need to be precisely controlled to ensure that the water content of the product meets the standard, and finally the pure 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -ylamino) benzenesulfonic acid is obtained.

What is the market outlook for 4- (3-Methyl-5-Thioxo-1H-1, 2,4-Triazol-4 (5H) -Ylamino) Benzenesulfonic Acid?

Guanfu 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid is a special compound in the field of chemistry. To explore its market prospects, it is necessary to study its various characteristics in detail.
In the field of medicine, many studies have focused on compounds containing triazole and benzenesulfonic acid structures, which may have unique biological activities. Such as 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid, or can be modified to fit specific drug targets, it is expected to be developed into new antibacterial, antiviral and even anticancer drugs. However, in order to achieve this goal, a lot of research needs to be invested, and rigorous experiments need to verify its safety and effectiveness before it can enter the pharmaceutical market. Although the prospect has potential, there are many challenges.
In the field of materials science, compounds containing such structures may be used to prepare special functional materials. For example, using its unique chemical structure, or can synthesize materials with specific adsorption and catalytic properties. If it can be successfully developed, it may have a wide range of applications in the fields of environmental governance and chemical catalysis. However, the relevant research is currently in the initial stage, and in order to achieve large-scale application, it is still necessary to overcome the difficulties such as complicated material preparation process and high cost.
Looking at its industrial application, it may be used as an intermediate in organic synthesis. With its structural characteristics, it can participate in a variety of organic reactions to construct more complex organic molecules. However, in the current industrial production, the application of such compounds may not be widely popularized. The reason may be due to cumbersome synthesis routes and poor yield. If the synthesis process can be optimized and production efficiency can be improved, it may emerge in the field of industrial synthesis.
In summary, 4- (3-methyl-5-thio-1H-1,2,4-triazole-4 (5H) -imino) benzenesulfonic acid has shown some potential value in the fields of medicine, materials, and industry. However, in order to transform it into an actual market advantage, researchers still need to make in-depth research and breakthroughs at the technical level to overcome existing difficulties and open up broad market prospects.