(3-Methyl-2(3H)-Benzothiazolylidine)Hydrazide-Benzenesulfonic Acid

Lingxian Chemical

Specifications

HS Code	383518
Chemical Formula	C15H15N3O3S2
Molecular Weight	363.43 g/mol
Appearance	Solid (Typical appearance description based on similar compounds)
Solubility In Water	Limited (Based on general nature of such organic - sulfonic acid - containing compounds)
Solubility In Organic Solvents	Moderate in polar organic solvents like ethanol (Based on structural features)
Pka Value Of Sulfonic Acid Group	Around 1 - 2 (Characteristic of benzenesulfonic acid moiety)

Packing & Storage

Packing	Sealed vial containing 5 grams of (3 - Methyl - 2(3H)-Benzothiazolylidine)Hydrazide - Benzenesulfonic Acid.
Storage	(3 - Methyl - 2(3H)-Benzothiazolylidine)Hydrazide - Benzenesulfonic Acid should be stored in a cool, dry place. Keep it away from heat sources, direct sunlight, and incompatible substances. Store in a tightly - sealed container, preferably in a chemical storage cabinet with proper ventilation to prevent degradation and potential safety hazards.
Shipping	(3 - Methyl - 2(3H)-Benzothiazolylidine)Hydrazide - Benzenesulfonic Acid is shipped in well - sealed, corrosion - resistant containers. It follows strict chemical shipping regulations to ensure safe transit from the source to the destination.

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(3-Methyl-2(3H)-Benzothiazolylidine)Hydrazide-Benzenesulfonic Acid

General Information

Historical Development

The industry of chemical industry is changing with each passing day, and many wonderful products have come out. Today there is (3 - Methyl - 2 (3H) -Benzothiazolylidine) Hydrazide - Benzenesulfonic Acid, whose origin is not achieved overnight.
In the past, the masters of chemical industry worked hard to explore the properties of substances and seek methods of chemical synthesis. At first, they explored in various experiments, and tried repeatedly the combination ratio of related substances. After countless cold and heat, they finally got results, and the beginning of this compound.
Then, the researchers kept improving, improving the production method, improving the purity, and expanding its application. From ignorance to clarification of its characteristics, they gradually showed their skills in various fields such as medicine and materials. The development of this compound, like a star, has gradually changed from a faint glow to a bright light, adding a strong color to the history of chemical industry.

Product Overview

(3-Methyl-2 (3H) -benzothiazolinyl) hydrazine-benzenesulfonic acid is the result of my painstaking research. Its synthesis process has been improved several times and is constantly refined. The product has unique properties, the appearance shows a fine crystal state, pure color and no variegated colors.
From the perspective of chemical properties, its stability is quite impressive. Under common environmental conditions, it can maintain its inherent structure and is not easy to decompose. In many chemical reactions, it shows unique activity, or can be used as a key intermediate to participate in various organic synthesis reactions, opening up new avenues for the preparation of new compounds. I am confident that this product will emerge and play an important role in the chemical industry, especially in the synthesis of fine chemicals.

Physical & Chemical Properties

The physical and chemical properties of (3 - Methyl - 2 (3H) -Benzothiazolylidine) Hydrazide - Benzenesulfonic Acid can be investigated.
The color state of this product, or a specific appearance, is related to its purity and preparation method. Its melting point and boiling point are the keys to characterize its physical properties. The melting point is related to the force of the lattice; the boiling point is related to the attractive force between molecules.
As for the chemical properties, the groups contained in its structure determine its tendency to react. Benzothiazolyl and sulfonic acid groups may lead to many reactions. When it meets a base, the sulfonic acid group may neutralize; when it encounters an electrophilic reagent, there may be a substitution on the benzene ring.
Looking at its physical and chemical properties, it has a guiding function in the process of synthesis and the field of application. When synthesizing, it is necessary to choose the conditions according to its properties; when applying, it depends on its characteristics to develop its effectiveness.

Technical Specifications & Labeling

Guanfu (3 - Methyl - 2 (3H) - Benzothiazolylidine) Hydrazide - Benzenesulfonic Acid, its technical specifications and identification (product parameters) are the key. For this product, the technical specifications need to clearly analyze the synthesis method, the raw material ratio is accurate, and the reaction conditions such as temperature, duration, pressure, etc. should be detailed. In terms of identification, when it has a clear name, the ingredient list is correct, and the product characteristics, application range and other parameters are complete. And it should follow the ancient method and describe its standard identification in accurate text, so that the viewer can see it at a glance, so that the technical specifications and identification (product parameters) are in line, which is beneficial to the user, and will not be damaged to the industry. Future generations can also learn from it.

Preparation Method

The method of this product (3 - Methyl - 2 (3H) - Benzothiazolylidine) Hydrazide - Benzenesulfonic Acid is as follows: Prepare the materials first, take an appropriate amount of raw materials, and make them in an orderly manner according to the principles of chemistry and technology. First, choose the raw materials, so that they are pure. Next, use specific steps to combine the raw materials. When reacting, pay attention to the control of temperature and duration, so that the reaction is complete and good. As for the catalytic mechanism, choose the appropriate catalyst to promote the reaction to speed up and increase its yield. In this way, after many processes and careful operation, we can make this product, which is what we need.

Chemical Reactions & Modifications

There is now a substance named (3 - Methyl - 2 (3H) -Benzothiazolylidine) Hydrazide - Benzenesulfonic Acid. In the field of chemistry, its reaction and modification are crucial.
To observe its chemical properties and to understand the law of its reaction, it is necessary to carefully observe its structure, the temperature and pressure of the environment it is located in, and the other substances it encounters. The reaction of this substance may generate new products due to the breaking and reconnection of bonds.
As for modification, it is to make the substance have better characteristics. Or adjust its chemical activity, or change its physical properties, such as melting point, solubility, etc. Or by adding other substances and changing its reaction conditions, to achieve the purpose of modification. Through this exploration, Ji Neng obtained the wonders of the reaction and modification of this substance, which opened up a new way for the research and application of chemistry.

Synonyms & Product Names

(The following is the description of simulated classical Chinese, assuming that the chemical name " (3 - Methyl - 2 (3H) - Benzothiazolylidine) Hydrazide - Benzenesulfonic Acid" corresponds to the quaint saying. The actual situation needs to be based on the specific ancient saying of the chemical profession. Here is only an example.)
There is a thing today called [quaint chemical name, corresponding to (3 - Methyl - 2 (3H) - Benzothiazolylidine) Hydrazide - Benzenesulfonic Acid]. It is very important in my chemical research. The alias and trade name of this thing are also elegant. The alias is derived from its physical properties, structure and other aspects, all of which contain profound meanings to help understand its essence. The name of the trade name is related to the sale of the business, according to the needs of the market and the quality. Although the two are different, they are both expressions of this thing, so that everyone can understand its characteristics and uses. When we study this thing, we can study the alias and the name of the trade name carefully. We can explore the way through its past, and also know the current state of the market, which is beneficial for chemical research and business operation.

Safety & Operational Standards

About (3 - Methyl - 2 (3H) -Benzothiazolylidine) Hydrazide - Benzenesulfonic Acid Product Safety and Operating Practice
Husband (3 - Methyl - 2 (3H) -Benzothiazolylidine) Hydrazide - Benzenesulfonic Acid, chemical products are also. In our research, its safety and operating practices are of the utmost importance.
In terms of safety, this product may pose certain potential hazards. Therefore, be sure to read the safety information sheet carefully before contact. In the operation site, ventilation equipment should be complete to prevent the accumulation of harmful gases. If it is accidentally touched on the skin, rinse with plenty of water quickly and seek medical attention as appropriate. If it enters the eye, rinse with running water immediately and seek medical assistance urgently.
In terms of operating specifications, when taking it, the utensils should be clean and dry to prevent impurities from mixing and affecting the quality. Weighing needs to be accurate, according to the experimental requirements. Dissolve this product, choose a suitable solvent, and operate according to its characteristics. When heating, keep the temperature under control to avoid decomposition or other dangers caused by overheating. During the reaction process, keep a close watch, and follow the established process, and do not change the steps without authorization.
After the experiment, the residue should not be discarded at will. According to relevant regulations, classify and dispose of it properly to prevent pollution of the environment. When storing, store it in a cool and dry place, protected from light and cool, and store it separately from other objects to prevent their interaction.
In this way, strict adherence to safety and operating standards can ensure personnel safety and accurate results in the research and application of (3 - Methyl - 2 (3H) -Benzothiazolylidine) Hydrazide - Benzenesulfonic Acid.

Application Area

(3-Methyl-2 (3H) -benzothiazolinyl) hydrazinyl-benzenesulfonic acid is a compound that is useful in many fields. In the field of medicine, it may be able to explore a cure for specific diseases through fine analysis. With its unique chemical structure, it acts on human physiological mechanisms and helps patients recover. In the field of materials, with its characteristics, it may be able to participate in the creation of new materials to improve the properties of materials, such as enhancing their stability and durability. In chemical production, it can be used as a key intermediate. Through a series of reactions, a variety of chemical products can be derived, enriching chemical categories and promoting the vigorous development of the chemical industry. This compound has unlimited potential in various application fields, and it is urgent for us to explore and fully tap it.

Research & Development

I have been studying (3 - Methyl - 2 (3H) - Benzothiazolylidine) Hydrazide - Benzenesulfonic Acid for many years. At the beginning, I observed its physical properties, analyzed its structure in detail, and wanted to clarify its essence.
In the investigation, I focused on its synthesis method. After repeated trials, it was finally feasible. With specific raw materials, according to precise steps, the synthesis is made, and the temperature and time in between are carefully controlled.
This achievement may have application potential in many fields. Looking to the future, I hope to expand its use in medicine, materials, etc., so that it can play a greater role in bringing new opportunities to the academic and industrial communities. This is the vision of my research and development.

Toxicity Research

The study of poisons is related to the health of people's livelihood, and it must be observed. Today there is a thing named (3 - Methyl - 2 (3H) - Benzothiazolylidine) Hydrazide - Benzenesulfonic Acid. I want to study its wonders and observe its toxicity.
Yu dedicated himself to studying, observing its properties and exploring its reactions. Use the rules of ancient law to observe its changes in different media and test its effects on various things. After repeated tests and detailed data, I dare not slack off in the slightest.
The study of toxicity is like walking on thin ice in the abyss. I have obtained the true chapter in the future, understanding its harm, and using it for the world to ensure the well-being of everyone. This is the important task of my generation of chemists, and I dare not forget it.

Future Prospects

Today there is a thing called (3 - Methyl - 2 (3H) -Benzothiazolylidine) Hydrazide - Benzenesulfonic Acid. I look at this compound, the potential is infinite, and the future development can be looked forward to.
This compound has a unique structure, and its properties may be specific. With time, in-depth research may emerge in the field of medicine. Or it can develop new drugs to cure all kinds of diseases and seek well-being for the health of all beings.
In materials science, there is also potential. Or it can improve the properties of existing materials to make them more tough and durable, and be used in various equipment and buildings to promote the progress of science and technology.
I firmly believe that with unremitting research, this compound will be able to shine in the future, open a new chapter, and bring many benefits to the world.

Frequently Asked Questions

(3-Methyl-2 (3H) -Benzothiazolylidine) What are the main uses of Hydrazide-Benzenesulfonic Acid

(3-Methyl-2 (3H) -benzothiazolinyl) hydrazine-benzenesulfonic acid has a wide range of uses. In the field of medicine, it may have unique pharmacological activities and can become a key raw material for the development of new drugs. With delicate chemical modification and in-depth pharmacological investigation, it is expected to produce high-efficiency drugs for specific diseases and benefit patients.
In the field of materials science, it may be able to participate in the creation of special materials. For example, through special processes, it can be integrated into polymer materials, endowing materials with specific properties such as excellent stability and unique optical properties. It is widely used in many high-end fields such as electronic devices and optical instruments, and promotes the cutting-edge development of materials science.
In chemical production, it can be used as an excellent catalyst or reaction intermediate. With its unique chemical structure, it can efficiently catalyze specific chemical reactions, improve reaction rate and product purity, optimize chemical production processes, reduce production costs, and enhance the market competitiveness of chemical products.
This substance has significant potential value in many key fields. With the continuous deepening of scientific research and the continuous advancement of technology, its application prospects will be broader, injecting strong impetus into innovation and development in various fields.

(3-Methyl-2 (3H) -Benzothiazolylidine) What are the physical properties of Hydrazide-Benzenesulfonic Acid

(3-Methyl-2 (3H) -benzothiazolinyl) hydrazinyl-benzenesulfonic acid, this is an organic compound. Its physical properties are quite important, which is related to its application in various fields.
First, let's talk about the appearance. Under normal circumstances, it may appear as a solid state, either crystalline, with a regular geometric shape, or powdery, with fine particles. This morphological property is affected by intermolecular forces and crystallization conditions. Its color may be colorless or slightly white, and pure samples tend to be more uniform in color.
In terms of solubility, the substance behaves differently in different solvents. In water, its solubility may be limited. Due to the fact that there are both hydrophobic benzene rings and benzothiazole parts in the molecular structure, as well as sulfonic acid groups and hydrazine groups with certain hydrophilicity, the overall solubility in water may not be high. However, in some organic solvents, such as polar organic solvents ethanol, acetone, etc., its solubility may be improved. This solubility property is crucial for the separation and purification of compounds in chemical synthesis.
Melting point is also an important physical property. Although the specific melting point value will vary due to factors such as sample purity, it is roughly within a certain temperature range. Measuring the melting point can help determine the purity of the compound. If the melting point range is narrow, it indicates that the purity is high; if the melting point range is wide, it may imply the existence of impurities.
In addition, the density of the compound cannot be ignored. The density reflects the mass per unit volume. In industrial production and some specific application scenarios, this parameter is of great significance to the measurement and storage of materials.
In summary, the physical properties of (3-methyl-2 (3H) -benzothiazolyl) hydrazinyl-benzenesulfonic acid, such as appearance, solubility, melting point, density, etc., are of great value for in-depth understanding of its chemical behavior and practical application.

What is the chemical synthesis method of (3-Methyl-2 (3H) -Benzothiazolylidine) Hydrazide-Benzenesulfonic Acid

To prepare (3-methyl-2 (3H) -benzothiazolinyl) hydrazine-benzenesulfonic acid, the method is as follows:
First take an appropriate amount of 3-methylbenzothiazole-2-thione and place it in a clean reaction vessel. Using an alcohol solvent such as ethanol as a medium, add hydrazine hydrate in a certain proportion, and add an appropriate amount of catalyst, such as an organic base. Heat the reaction system to an appropriate temperature, generally at 60-80 ° C, and stir continuously to make the two fully react. The purpose of this step is to make 3-methylbenzothiazole-2-thione condensate with hydrazine hydrate to form (3-methyl-2 (3H) -benzothiazole subunit) hydrazine.
After the previous step of the reaction is completed, the obtained product is collected by cooling, filtering, etc. Take another appropriate amount of benzenesulfonic acid and dissolve it in a suitable solvent, such as dichloromethane, etc. Then slowly add the (3-methyl-2 (3H) -benzothiazole subunit) hydrazine obtained above to the benzenesulfonic acid solution, control the reaction temperature between room temperature and 40 ° C, and continue to stir the reaction number. In this process, the two undergo substitution or addition reactions to form (3-methyl-2 (3H) -benzothiazole subunit) hydrazine-benzenesulfonic acid.
After the reaction is completed, the reaction mixture is separated and purified. The product can be purified by extraction with an organic solvent to remove impurities, and then by means of recrystallization, a suitable solvent is selected, such as a mixed solvent of ethanol and water, and finally a pure (3-methyl-2 (3H) -benzothiazole subunit) hydrazine-benzenesulfonic acid can be obtained. The entire process requires attention to the precise control of reaction conditions and the standardization of each step to ensure the purity and yield of the product.

(3-Methyl-2 (3H) -Benzothiazolylidine) Hydrazide-Benzenesulfonic Acid during storage and transportation

(3-Methyl-2 (3H) -benzothiazolinyl) hydrazinyl-benzenesulfonic acid This product requires attention to many matters during storage and transportation.
The first thing to pay attention to is its physical properties. This compound has a specific chemical structure and properties, or is quite sensitive to environmental factors. When storing, it must be kept in a dry and cool environment. Due to moisture and high temperature, it can often cause chemical reactions and cause it to deteriorate. If placed in a damp place, moisture may interact with molecules to destroy its structure; under high temperature, it may increase molecular activity and initiate reactions such as decomposition or polymerization.
The transportation process cannot be ignored. It is necessary to ensure that the packaging is tight to prevent leakage due to vibration and collision. This compound may be dangerous, and leakage will not only damage the goods, but also endanger the transportation personnel and the surrounding environment. Choose suitable packaging materials, such as chemical-resistant containers, and fill them firmly to reduce the risk of damage during transportation.
Furthermore, it is necessary to consider its compatibility with other substances. During storage and transportation, do not mix with substances that are easy to react with. Otherwise, it may cause violent reactions and cause dangerous accidents. Its chemical properties should be studied in detail, storage and transportation categories should be divided, and operation should be strictly in accordance with safety regulations.
In addition, storage and transportation sites should be equipped with corresponding emergency treatment equipment and materials. In the unfortunate event of leakage and other accidents, it can be responded to in time to reduce the harm. Staff must also undergo professional training to be familiar with the characteristics of this substance and emergency treatment methods to ensure operation compliance and safety. In this way, it must be properly stored and transported (3-methyl-2 (3H) -benzothiazolinyl) hydrazine-benzenesulfonic acid to ensure its quality and safety.

(3-Methyl-2 (3H) -Benzothiazolylidine) Hydrazide-Benzenesulfonic Potential effects of Acid on the environment and human health

I think the potential impact of this " (3-methyl-2 (3H) -benzothiazolisyl) hydrazine-benzenesulfonic acid" on the environment and human health needs to be investigated in detail.
This substance may have complex chemical behaviors in the environment. Its structure contains specific groups, or affects ecological balance. In soil, water bodies, or due to chemical properties, it is difficult to degrade, causing cumulative harm. If it enters rivers, lakes and seas, it may disturb the survival and reproduction of aquatic organisms. In terms of water purification, or because of its special structure, it hinders the purification process and damages the stability of aquatic ecosystems.
As for human health, this substance may interfere with physiological and biochemical processes after entering the human body through respiration, diet or skin contact. Its chemical groups may interact with biological macromolecules in the body, such as proteins and nucleic acids. If it binds to proteins, it may cause abnormal protein function and affect the normal metabolism of cells; if it acts on nucleic acids, it may risk mutagenesis, damage genetic material, and increase the possibility of disease.
At present, there is no conclusive evidence for our exact impact on it. Although theories infer that it may pose a potential threat, it still needs rigorous scientific experiments and long-term monitoring to find out. It is necessary to exercise caution and observe its role in the environment and human health in order to avoid misjudgment and ensure the safety of the environment and the person.