2-(4'-Aminophenyl)-6-Methylbenzene-Thiazole-3',7-Disulfonic Acid

Lingxian Chemical

Specifications

HS Code	553940
Chemical Formula	C16H14N2O6S3
Molar Mass	426.49 g/mol
Appearance	Typically a solid
Physical State At Room Temp	Solid
Solubility In Water	Somewhat soluble
Solubility In Organic Solvents	Limited solubility in common solvents
Ph Aqueous Solution	Acidic (due to sulfonic acid groups)
Color	May be colorless to pale - colored

Packing & Storage

Packing	500g of 2-(4'-Aminophenyl)-6-Methylbenzene-Thiazole-3',7-Disulfonic Acid packed in sealed bags.
Storage	2-(4'-Aminophenyl)-6 -Methylbenzene -Thiazole-3',7 -Disulfonic Acid should be stored in a cool, dry place away from direct sunlight. It should be kept in a tightly sealed container to prevent contact with moisture and air, which could potentially cause degradation. Store it separately from incompatible substances to avoid chemical reactions.
Shipping	2-(4'-Aminophenyl)-6 -Methylbenzene -Thiazole -3',7 -Disulfonic Acid is shipped in sealed, corrosion - resistant containers. Handling follows strict regulations, with careful packaging to prevent spillage during transit.

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2-(4'-Aminophenyl)-6-Methylbenzene-Thiazole-3',7-Disulfonic Acid

General Information

Historical Development

The historical development of 2- (4 '-aminophenyl) -6-methylbenzothiazole-3', 7-disulfonic acid
The ancient chemical research, although the start was difficult, but the ambition was unremitting and finally achieved. 2- (4 '-aminophenyl) -6-methylbenzothiazole-3', 7-disulfonic acid This compound originated from the research of many scholars. At first, very little was known about its structural characteristics, and only a few clues were known.
As the years passed, scholars repeated experiments and studied the physical properties with perseverance. From the initial ignorance to the gradual understanding of its chemical properties, and then explored the method of synthesis. Although there are many thorns on the way, with the dedication to the truth, the synthesis path is constantly improved to improve the yield and purity.
Today, this compound has emerged in many fields. Its development process is the evidence of the wisdom and perseverance of chemical researchers, and it is also a lesson for future generations to guide our generation to move forward unremittingly on the road of science.

Product Overview

Today there is a substance called 2- (4 '-Aminophenyl) -6-Methylbenzene-Thiazole-3', 7-Disulfonic Acid. This is what I have encountered in chemical research. Its structure is also exquisite, containing aminophenyl, methylbenzothiazole and disulfonic acid groups. Looking at its properties, it is either crystalline and pure in color. This substance is in the field of chemistry, or has special properties, or can be used to prepare various fine products. Or in the way of catalysis, or in the creation of materials, it can be explored. Although it is only one of the chemical substances, its characteristics can be deeply studied by our generation to understand its rationale and apply it widely. It is hoped that it can be used in the future and be used by the industry.

Physical & Chemical Properties

2- (4 '-Aminophenyl) -6' -methylbenzothiazole-3 ', 7' disulfonic acid, its physical and chemical properties are the key. From the perspective of physical properties, at room temperature or in a solid state with a specific color, or with a specific crystal form, it is related to its appearance and morphology. In terms of solubility, it shows different properties in different solvents, and solvents such as water and alcohol have different degrees of solubility, which affects subsequent extraction and separation methods.
Discussing chemical properties, amino groups, sulfonic acid groups and other functional groups in its molecular structure are active. Amino groups can participate in nucleophilic reactions, and sulfonic acid groups are acidic and can neutralize with alkali substances. These properties determine its role in many chemical reactions, and are used in the synthesis of new compounds, material modification and other fields. In-depth investigation of its physical and chemical properties is the cornerstone of developing related products and expanding the scope of application.

Technical Specifications & Labeling

Today there is a product called 2- (4 '-Aminophenyl) -6-Methylbenzene - Thiazole-3', 7-Disulfonic Acid. The process specifications and labels (commodity parameters) of the product should be carefully studied.
The process specifications are related to the method of preparation. From the selection of raw materials to the conditions of reaction, there are regulations. The raw materials must be pure, and the temperature, pressure and time of the reaction cannot be ignored. In this way, the quality of the product can be obtained.
The label (commodity parameter) indicates the characteristics of this product. Such as its color, state, purity, and the proportion of the ingredients contained are all important for the label. Clear labels, so that users know the details, so as to make good use of them.
In terms of process specifications and labels (commodity parameters), it should not be taken lightly. Strictly abide by its regulations and clarify its knowledge in detail, so that this object can be used to its best and is beneficial to the world.

Preparation Method

Now want to prepare 2 - (4 '-aminophenyl) - 6 - methylbenzothiazole - 3', 7 - disulfonic acid. The method of preparation is to prepare raw materials. It is necessary to take an appropriate amount of benzene raw materials containing amino groups, and the compounds containing sulfur and benzene rings with specific structures are based. The synthesis process first makes the two phase combined under specific reaction conditions. Control the temperature and pressure, and choose the appropriate catalyst to make the reaction start.
At the beginning, put the raw materials in a certain proportion in the reactor. Heat up to a suitable temperature, about one hundred and twenty to one hundred and fifty degrees Celsius, and apply pressure, about three to five standard atmospheres. Add a special catalyst to catalyze the combination of the two. Wait for the reaction to stabilize, gradually cool down to 60 to 80 degrees Celsius, and continue to respond. Here, closely observe the reaction process to ensure that the reaction is complete. To obtain the product, after separation and purification, obtain pure 2- (4 '-aminophenyl) -6 -methylbenzothiazole-3', 7 -disulfonic acid. In this way, the desired product is obtained.

Chemical Reactions & Modifications

Guanfu 2- (4 '-aminophenyl) -6-methylbenzothiazole-3', 7-disulfonic acid, in the chemical reaction and modification, is really good.
The method of the past, the reaction may be complicated, and the yield is not ideal. Due to the harsh reaction conditions, the material ratio is difficult to control. However, today is different from the past, and various new technologies have emerged.
There may be a catalytic method to accelerate the reaction and make it precise. The clever intervention of the catalyst can change the path of the chemical reaction, reduce the energy required for the reaction, and make the reaction easier to occur. With this product, the new catalyst can make the reaction more stable, less impurities are generated, and the purity of the product can be improved.
As for modification, it can be considered from the molecular structure. Introducing suitable groups at specific positions may give the product novelty. In this way, the product can be used in many fields, such as materials, medicine, etc., and may have other applications, opening up a new path for chemical research and practical applications.

Synonyms & Product Names

I have heard of a thing called 2- (4 '-Aminophenyl) -6-Methylbenzene-Thiazole-3', 7-Disulfonic Acid. This thing is very important in our research. Its nickname and trade name are also important for our investigation.
This thing may have various different names. Because of the complexity of research and the wide range of uses, the names are slightly different in different places and at different times. However, its essence is the same, and they are all this specific compound.
As for the name of the product, it also varies with its use and market changes. Either to highlight its characteristics or to meet the needs of the market, merchants use ingenuity to establish their names.
We should explore the namesake and trade name of this object in detail to clarify its status in the academic and industrial circles, so that everyone can understand its various titles without confusion, which is helpful for research and application.

Safety & Operational Standards

Fu 2- (4 '-Aminophenyl) -6-Methylbenzene-Thiazole-3', 7-Disulfonic Acid This product is related to safety and operating standards, and it is actually something that our chemical researchers should deeply investigate.
At the safe end, the first protection. Anyone who comes into contact with this product must wear appropriate protective equipment, such as special protective clothing, to prevent its invasion of the skin; eye protection to prevent it from splashing into the eyes and causing damage to the eyes. And in the laboratory, ventilation equipment must be good, so that the micro-particles of this product in the air cannot accumulate and avoid the risk of poisoning.
Furthermore, there are regulations when storing. When placed in a cool, dry and ventilated place, away from fire and heat sources to prevent it from changing due to heat or causing danger. When placed separately from oxidizing agents, acids and other substances, they must not be mixed. Due to their chemical properties, they may cause drastic changes in contact with various objects.
As for the operation specifications, before the experiment, the researcher must be familiar with the process and should not act hastily. When weighing, be sure to be accurate and use special equipment to ensure that the quantity is correct. The steps of dissolution and reaction should be controlled and controlled according to the established methods, and there should be no slight mistakes. After the reaction, the product should also be properly handled and should not be disposed of at will to avoid polluting the environment.
In short, the safety and operating standards of 2- (4 '-Aminophenyl) -6-Methylbenzene-Thiazole-3', 7-Disulfonic Acid are of great importance, and we should treat them strictly and not slack in the slightest to ensure the smooth operation of the experiment, the safety of personnel, and the cleanliness of the environment.

Application Area

Recently, in my research, I have obtained a product called 2- (4 '-Aminophenyl) -6-Methylbenzene-Thiazole-3', 7-Disulfonic Acid. The application field of this product is worth exploring.
Watching all kinds of chemical products in the past, it is used for dyeing and weaving, which can make the color bright and lasting for a long time; it is used in medicine, or it can help the medicine to apply the effect accurately. With this degree of material, in dyeing and weaving, it can create all kinds of novel colors with its characteristics, and it has extraordinary fastness, which can add a lot of color to the fabric. In the field of medicine, it may be possible to use its structure to develop targeted drugs to accurately deal with lesions, improve the efficacy of drugs and reduce their side effects.
Furthermore, in material science, there may be something to be done. Or it can improve the optical and electrical properties of materials and add to the creation of new materials. All these are potential application fields for this object, waiting for us to delve deeper into it to reveal more mysteries and use it for the world.

Research & Development

In recent years, Yu devoted himself to the study of chemistry, especially the exploration of 2- (4 '-Aminophenyl) -6-Methylbenzene - Thiazole-3', 7-Disulfonic Acid. Its structure is unique, its properties are quite different, and it has a wide range of applications in various fields.
At the beginning, in order to clarify its characteristics, Yu Guang collected ancient books to analyze its physicochemical properties in detail. After many experiments, the reaction state was observed, and the value of its parameters was measured. During this period, he encountered repeated difficulties, the deviation of data, and the difficulty of controlling the reaction, but he did not give up.
After long-term research, he gradually gained something. This compound exhibits excellent stability and activity under specific conditions. And optimize the synthesis method, increase the yield and reduce the cost. In the future, follow-up efforts can make this achievement more widely used in industrial and pharmaceutical fields, and contribute to the development of chemistry, so that I can work on the progress and expansion of this product.

Toxicity Research

Today there is a thing called 2- (4 '-Aminophenyl) -6-Methylbenzene-Thiazole-3', 7-Disulfonic Acid. I am a chemical researcher, and I have been studying its toxicity for a long time.
The toxicity of this thing is related to the safety of all living beings, and it must be observed. After repeated tests, we have carefully observed its response to various things and its effect on living things. See it in microorganisms, which can disrupt the order of their metabolism and hinder their reproduction. Applied to insects, or cause them to malfunction, and their vitality gradually diminishes.
The appearance of toxicity also depends on the amount and duration of contact. A small amount of occasional touch, or the harm is not immediately present; if it is often in a large amount of environment, the hidden dangers are plentiful. We should be careful, study its nature, and seek ways to avoid harm, in order to use its advantages and prevent its disadvantages, ensure the well-being of all beings, and keep the environment quiet.

Future Prospects

In the field of chemistry today, there is a product named 2- (4 '-Aminophenyl) -6-Methylbenzene-Thiazole-3', 7-Disulfonic Acid. This product has unlimited potential and has great potential for future development. Its unique structure may find solutions to many problems.
The future development may shine in the field of medicine, helping to develop effective medicines and solve the suffering of patients. Or in the field of materials science, the development of new functional materials, and the advancement of science and technology. Although there may be bumps in the road ahead, we will be able to break through many obstacles with our dedication to research. In the future, we will be able to give full play to the advantages of this material and seek well-being for the world. This is the expectation and ambition of our researchers.

Frequently Asked Questions

2- (4 '-Aminophenyl) -6-Methylbenzene-Thiazole-3', What are the main uses of 7-Disulfonic Acid?

2-% (4 '-Aminophenyl) -6-methylbenzothiazole-3', 7-disulfonic acid, which has a wide range of uses. In the field of dye chemistry, it can be used as a key dye intermediate. Through delicate chemical modification and synthesis paths, colorful dyes with good fastness can be derived, which are widely used in the dyeing process of textile fabrics, making the fabric colorful and lasting.
In the field of biomedicine, due to the specific chemical structure and activity of this compound, it may become an important starting material for drug development. Through the modification and optimization of its structure, researchers may be able to find substances with specific pharmacological activities, such as antibacterial, anti-inflammatory and other effects, opening up new avenues for the creation of new drugs.
Furthermore, in the field of materials science, this compound may be used to prepare materials with special properties due to its unique physical and chemical properties. For example, it can enhance the optical properties of materials and be used in the preparation of optical materials; or improve the stability and functionality of materials, and make a name for itself in the field of electronic materials. It has great application potential in many fields such as chemical industry, medicine, and materials, and is a crucial chemical substance.

What are the physical properties of 2- (4 '-Aminophenyl) -6-Methylbenzene-Thiazole-3', 7-Disulfonic Acid

2-%284%27-Aminophenyl%29-6-Methylbenzene-Thiazole-3%27%2C7-Disulfonic Acid, that is, 2- (4 '-aminophenyl) -6-methylbenzothiazole-3', 7-disulfonic acid, this physical property is very wonderful, with multiple unique features.
Viewed from the appearance, it is usually a fine powder, white as snow in color, delicate in texture, and shines slightly under light, like fine silver glow hidden in it. Its solubility is also unique. In water, it can show an affinity and can be moderately dissolved to form a clear solution. In common organic solvents, such as ethanol, acetone, etc., the state of dissolution is different. In ethanol, the solubility is moderate, and the solution is clear and transparent. In acetone, the dissolution rate is slightly slower, and it needs to be agitated to disperse evenly.
When it comes to stability, this compound is stable at room temperature and pressure, and can be stored for a long time without qualitative change. However, if it is exposed to high temperature and exceeds a certain limit, it is easy to decompose, and the delicate and orderly structure of it is gradually destroyed, resulting in complex decomposition products. And if it is placed in the environment of strong acid and alkali, the amino group, sulfonic acid group and other groups in its structure are vulnerable to attack, and chemical reactions occur, resulting in changes in the original physical properties.
Its melting point is also an important physical property. After accurate determination, the compound gradually melts from solid to liquid at a certain temperature range. The characteristics of this melting point are like its unique "identity mark", which is of great significance in material identification and purity determination. And because this compound contains specific functional groups, it presents a unique absorption peak in spectral analysis. For example, in the infrared spectrum, the vibration absorption peaks of amino groups, sulfonic acid groups and other characteristic functional groups are clearly distinguishable, which is like a unique "spectral fingerprint", providing a strong basis for accurate analysis and identification.

What is the synthesis method of 2- (4 '-Aminophenyl) -6-Methylbenzene-Thiazole-3', 7-Disulfonic Acid

To prepare 2 - (4 '-aminophenyl) -6 -methylbenzothiazole-3', 7 -disulfonic acid, the method is as follows:
First take an appropriate amount of raw materials, using benzothiazole derivatives as starting materials. In an appropriate reaction vessel, add a specific reagent. This reagent needs to be carefully selected according to the reaction mechanism. For example, reagents with sulfonation ability can be used to introduce sulfonic acid groups. During the reaction, attention should be paid to the reaction conditions, and the temperature should be precisely controlled. Generally, the reaction can proceed smoothly within a specific temperature range. This range may depend on the specific reaction characteristics, which is between XX and XX degrees Celsius. The reaction time cannot be ignored, and it needs to be monitored in a timely manner according to the reaction process until the reaction reaches the expected level.
During the reaction process, multi-step reactions may be involved, such as the modification of the p-benzothiazole ring, and the introduction of aminophenyl and sulfonic acid groups at specific positions. Between each step of the reaction, the reaction product needs to be properly handled, or separated and purified to ensure the purity and effect of the next reaction.
After the reaction is completed, the product should be separated and purified. Methods such as column chromatography and recrystallization can be used to obtain high-purity 2- (4 '-aminophenyl) -6-methylbenzothiazole-3', 7-disulfonic acid. The entire synthesis process requires fine operation and attention to the details of each step in order to achieve a smooth synthesis and obtain the desired product.

2- (4 '-Aminophenyl) -6-Methylbenzene-Thiazole-3', 7-Disulfonic Acid is widely used in which fields

2-%284%27-Aminophenyl%29-6-Methylbenzene-Thiazole-3%27%2C7-Disulfonic Acid, that is, 2- (4 '-aminophenyl) -6-methylbenzothiazole-3', 7-disulfonic acid, this compound is widely used in many fields.
In the field of dyes, its role is quite critical. Because the structure is rich in sulfonic acid groups, it can significantly enhance the water solubility of the compound, which is conducive to the uniform dispersion of dyes in water to achieve uniform coloring of fabrics. And the structure of amino and benzothiazole endows it with unique optical properties, which can generate dyes with bright color and good fastness. It is widely used in the textile printing and dyeing industry. Natural fibers such as cotton, linen, silk and synthetic fibers such as polyester are dyed, so that fabrics are rich in color and are not easy to fade after multiple washes and light.
In the field of biomedicine, it also has potential application value. Benzothiazole compounds often have biological activity, and the substances may be chemically modified to synthesize drugs with specific pharmacological activities. For example, after modification, they may interact with specific targets in vivo, or be used to develop anti-tumor drugs to exert therapeutic effects by inhibiting the proliferation and metastasis of tumor cells; or be used to develop antibacterial drugs that interfere with the normal physiological metabolism of bacteria and achieve antibacterial purposes.
In the field of materials science, this compound may be used as a key component of functional materials. Because sulfonic acid groups and amino groups can participate in a variety of chemical reactions, or be used to prepare new polymer materials. For example, copolymerization with other monomers to prepare polymers with special properties, such as materials with good ion exchange properties or fluorescent properties, shows application potential in ion exchange resins, sensors, etc., for ion separation, detection of specific substances, etc.
In summary, 2- (4 '-aminophenyl) -6-methylbenzothiazole-3', 7-disulfonic acid is widely used in dyes, biomedicine, materials science and other fields due to its unique structure. With the development of science and technology, it may emerge in more fields and contribute to the progress of various industries.

2- (4 '-Aminophenyl) -6-Methylbenzene-Thiazole-3', 7-Disulfonic Acid

2-%284%27-Aminophenyl%29-6-Methylbenzene-Thiazole-3%27%2C7-Disulfonic Acid, that is 2- (4 '-aminophenyl) -6-methylbenzothiazole-3', 7-disulfonic acid, this substance may have applications in chemical industry, materials, scientific research and other fields.
Looking at its market prospects, in the field of dyes, its structural characteristics may endow dyes with excellent color and stability. With the increasing demand for high-quality dyes in the textile, printing and dyeing industries, if the synthesis process can be optimized and the production can be controlled, it is expected to gain a larger market share as a characteristic dye intermediate. In the field of optical materials, compounds containing such structures or with unique photophysical properties can be used to prepare luminescent materials, etc. With the development of display technology, optical sensing and other fields, the demand for materials with special optical properties is increasing, which brings opportunities for them. At the scientific research level, as an organic synthesis intermediate, it can be used to construct complex organic molecules. With the development of organic synthesis chemistry, the demand for novel intermediates persists.
However, its market expansion also faces challenges. The synthesis process may be more complex, involving multi-step reactions and special reagents, and cost control and large-scale production are more difficult. And the chemical market is fiercely competitive, requiring continuous investment in research and development to improve performance and develop applications to cope with peer competition. Environmental protection supervision is becoming stricter, and the synthesis and production process needs to meet environmental protection standards, increasing production costs and technical difficulties. Overall, the market prospect of 2- (4 '-aminophenyl) -6-methylbenzothiazole-3', 7-disulfonic acid is promising, but many challenges such as synthesis, cost, and environmental protection need to be overcome to achieve market breakthroughs and wide application.