7-Benzothiazolesulfonic Acid, 2-(4-((1-(((2-Methoxy-5-Methyl-4-Sulfophenyl)Amino)Carbonyl)-2-Oxopropyl)Azo)Phenyl)-6-Methyl-, Disodium Salt

Lingxian Chemical

Specifications

HS Code	290447
Chemical Name	7-Benzothiazolesulfonic Acid, 2-(4-((1-(((2-Methoxy-5-Methyl-4-Sulfophenyl)Amino)Carbonyl)-2-Oxopropyl)Azo)Phenyl)-6-Methyl-, Disodium Salt

Packing & Storage

Packing	250g of 7 - Benzothiazolesulfonic Acid disodium salt in sealed chemical - grade packaging.
Storage	Store "7 - Benzothiazolesulfonic Acid, 2 - (4 - ((1 - (((2 - Methoxy - 5 - Methyl - 4 - Sulfophenyl)Amino)Carbonyl)-2 - Oxopropyl)Azo)phenyl)-6 - Methyl -, Disodium Salt" in a cool, dry place, away from heat and direct sunlight. Keep it in a tightly sealed container to prevent moisture absorption and ensure its stability during storage to maintain chemical integrity.
Shipping	Shipment of 7 - Benzothiazolesulfonic Acid... disodium salt should be in well - sealed, corrosion - resistant containers. Follow strict hazardous chemical shipping regulations to ensure safe transit, avoiding exposure to incompatible substances.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

7-Benzothiazolesulfonic Acid, 2-(4-((1-(((2-Methoxy-5-Methyl-4-Sulfophenyl)Amino)Carbonyl)-2-Oxopropyl)Azo)Phenyl)-6-Methyl-, Disodium Salt

General Information

Historical Development

I tried to study chemical products, there are 7 - Benzothiazolesulfonic Acid, 2 - (4 - (1 - ((2 - Methoxy - 5 - Methyl - 4 - Sulfophenyl) Amino) Carbonyl) -2 - Oxopropyl) Azo) phenyl) -6 - Methyl -, Disodium Salt. The development of its products has gone through years. At the beginning, all the sages explored the way of chemical industry, and strived to understand its nature and improve its law.
The past, the ancient method of research, encountered many obstacles, but everyone did not give up. With the passage of time, new techniques gradually emerged, and the analysis of its structure and nature deepened. After years of hard work, chemists have obtained a good method for making this material, making it from an unknown environment to a usable material, and gradually showing its ability in various fields of chemical industry. This is the outline of its development.

Product Overview

Product Overview
There is a product called "7 - Benzothiazolesulfonic Acid, 2 - (4 - (1 - ((2 - Methoxy - 5 - Methyl - 4 - Sulfophenyl) Amino) Carbonyl) -2 - Oxopropyl) Azo) phenyl) -6 - Methyl -, Disodium Salt". This is a fine chemical product and is of great significance in the chemical industry.
Looking at its structure, it is cleverly connected by benzothiazole, sulfonic acid group and many complex substituents to form a unique structure. Its disodium-containing salt form gives the product specific chemical properties and stability.
This product can be used as a functional additive in materials science to enhance the properties of materials; or as a key intermediate in some chemical reactions to assist in the synthesis of more complex compounds. Although its appearance may be in powder form, its microstructure and chemical activity make it play an important role in various application scenarios and contribute to the development of the chemical industry.

Physical & Chemical Properties

Recently, a 7-benzothiazole sulfonic acid, 2- (4- (1- (((2-methoxy-5-methyl-4-sulfophenyl) amino) carbonyl) -2-oxopropyl) azo) phenyl) -6-methyl -, disodium salt. Its physical and chemical properties are quite critical. Looking at its morphology, it may be in a specific state at room temperature, or as a powder, or as a crystal, and it needs to be carefully observed. On its solubility, it varies in various solvents. The degree of solubility of water, alcohol and other solvents is related to subsequent applications. Its stability cannot be ignored, and factors such as light, temperature, and humidity may cause it to change. In terms of chemical activity, the groups contained determine that it can participate in specific reactions, interact with other compounds, or form new substances. Only by knowing these physical and chemical properties can we lay a solid foundation for subsequent research and development and application.

Technical Specifications & Labeling

Today there is a product called "7 - Benzothiazolesulfonic Acid, 2 - (4 - (1 - ((2 - Methoxy - 5 - Methyl - 4 - Sulfophenyl) Amino) Carbonyl) -2 - Oxopropyl) Azo) phenyl) -6 - Methyl -, Disodium Salt". As a chemical researcher, I am very concerned about the technical specifications and identification (product parameters) of this product.
Its technical specifications are related to the purity of the substance, the proportion of ingredients, etc., and need to be accurately determined. The purity must reach a very high standard, and the impurity content must be minimal to ensure that this product can play a stable role in various chemical experiments and industrial production. The proportion of ingredients cannot be wrong, and the combination of elements and groups is based on specific chemical principles and process requirements.
And the identification (product parameters) should clearly mark the name, chemical formula, molecular weight and other key information. The name should be accurate, the chemical formula must accurately present its molecular structure, and the molecular weight must be accurately determined. In this way, the user can have a clear and accurate understanding of the product, which is convenient for rational use and will not be wrong.

Preparation Method

7-Benzothiazole sulfonic acid, 2 - (4 - (1 - (((2 - methoxy - 5 - methyl - 4 - sulfophenyl) amino) carbonyl) - 2 - oxopropyl) azo) phenyl) - 6 - methyl -, disodium salt products, must be studied in detail. The method is the first raw material and production process, finding suitable sources of materials, and developing exquisite skills. For example, the pure quality of 2 - methoxy - 5 - methyl - 4 - sulfoaniline, etc. is selected as the source, and the reaction steps are carried out in sequence. First, make a coupling reaction with the related substances, carefully control the temperature and humidity, and the reaction time to prevent the generation of side reactions. Then use a delicate catalytic mechanism to promote its transformation to obtain this product. This method can ensure the quality of the product and increase its yield, which is a good way to make this product.

Chemical Reactions & Modifications

The chemical reaction and modification of 7-Benzothiazolesulfonic Acid, 2- (4- ((((2-Methoxy-5-Methyl-4-Sulfophenyl) Amino) Carbonyl) -2-Oxopropyl) Azo) phenyl) -6-Methyl-, Disodium Salt. Looking at its structure, it contains groups such as benzothiazole, sulfonate group and azo, which have unique properties. Its reaction, or due to the activity of azo bonds, under light or specific reagents, can occur rearrangement or fracture, resulting in structural changes. To modify it, new groups can be introduced into the benzene ring or thiazole ring to adjust its hydrophobicity and stability. If modified with hydrophilic groups, it can increase its solubility in water, making it easier to disperse in a specific reaction system, promoting the progress of the reaction, or changing its light and thermal stability, expanding its application domain.

Synonyms & Product Names

Today there is a thing called 7-Benzothiazolesulfonic Acid, 2- (4- ((((2-Methoxy-5-Methyl-4-Sulfophenyl) Amino) Carbonyl) -2-Oxopropyl) Azo) phenyl) -6-Methyl-, Disodium Salt. Its object is very important in the field of chemical research in our country.
Seeking its synonymous name and the name of the commodity are just like exploring the secluded and treasure-hunting. In the records of ancient books and exchanges in the same industry, they are all key points. The name of the synonym can help us recognize this thing from different perspectives, or according to the characterization of its chemical structure, or according to its nature and use. If we explore it in many ways, we will definitely gain something. The name of the commodity is related to the circulation of this thing in the market, the demonstration of its function, and the identification of practicality.
Our chemical explorers should study in detail, examine their synonymous names and commodity names, understand their similarities and differences, and understand their changes. Only in the process of chemical engineering can we make steady progress and contribute to the industry.

Safety & Operational Standards

7-Benzothiazole sulfonic acid, 2- (4- (1- (((2-methoxy-5-methyl-4-sulfophenyl) amino) carbonyl) -2-oxopropyl) azo) phenyl) -6-methyl-, disodium salt product safety and operation specification
Fu 7-benzothiazole sulfonic acid, 2- (4- ((1- ((2-methoxy-5-methyl-4-sulfophenyl) amino) carbonyl) - 2-oxygen Substitute propyl) azo) phenyl) -6-methyl-, a genus of disodium salts, in the application of experiments and production, when its safety and operating standards are known, all things can be guaranteed to go smoothly and not be at risk.
The first word is safe. This thing may have a certain chemical activity. When contacting, it must be fully protected. The operator should wear suitable protective clothing, such as protective clothing, to avoid it from dating with the skin. Wear goggles to avoid splashing into the eyes and causing eye injuries. Wear gloves to prevent it from touching the skin to avoid skin invasion. And the storage of this thing should not be ignored. It is advisable to choose a cool, dry and well-ventilated place, away from fire and heat sources, to prevent accidents due to temperature changes and moisture invasion.
As for the operation specifications, at the beginning of the experiment, you must read the relevant books carefully to understand the reaction mechanism and process. When weighing, use a precise instrument to ensure that the quantity is correct, due to the deviation of the quantity, or the reaction is wrong. When reacting, it is important to control the temperature and time. According to the established conditions, observe the temperature range carefully, do not make the high or low, and disrupt the order of the reaction; observe the records in time to clarify the reaction process. After the reaction, the treatment of the product should not be delayed. In accordance with environmental protection regulations, properly dispose of waste, and do not dump it at will, so as not to pollute the environment.
Anyone who handles this thing must be cautious, follow safety and operating standards, and promote the completion of the experiment to ensure the safety of personnel and the cleanliness of the environment.

Application Area

There is now a product named 7-benzothiazole sulfonic acid, 2- (4- (1- (((2-methoxy-5-methyl-4-sulfophenyl) amino) carbonyl) -2-oxopropyl) azo) phenyl) -6-methyl -, disodium salt. This chemical product has a wide range of application fields. In the field of printing and dyeing, it can be used as a dye, because of its unique structure, it can make the fabric with bright color, and good color fastness, over time, not easy to fade. In pharmaceutical research and development, it may have potential effects, or its characteristics can be used to develop new drugs to help heal diseases. In material science, it may be used as a raw material for building materials with special properties, adding the uniqueness of materials. From this perspective, this product has considerable use in many fields and has promising prospects.

Research & Development

Taste the way of scientific research, the most important thing is to be diligent. Now look at 7 - Benzothiazolesulfonic Acid, 2 - (4 - (1 - ((2 - Methoxy - 5 - Methyl - 4 - Sulfophenyl) Amino) Carbonyl) -2 - Oxopropyl) Azo) phenyl) -6 - Methyl -, Disodium Salt. The research and development of this product is very important.
As we study, we investigate its chemical structure and properties in detail. Explore the method of synthesis, and strive for high efficiency and purity. Consider the reaction conditions, temperature, pressure, catalyst and other factors, all carefully weigh.
Thinking about the application of this material, it may be of great use in medicine, materials, etc. Hope to open up new paths and increase its effectiveness. Although the road ahead is long, we will uphold the heart of research and make unremitting explorations, hoping to promote the development of this material research and contribute to the progress of science.

Toxicity Research

Today, there is a substance called "7-Benzothiazolesulfonic Acid, 2- (4- ((((2-Methoxy-5-Methyl-4-Sulfophenyl) Amino) Carbonyl) -2-Oxopropyl) Azo) phenyl) -6-Methyl-, Disodium Salt". I take poison research as my business, so I observe the toxicity of this substance.
Observe the composition of this substance, its chemical structure is complex. However, to know its toxicity, many tests are required. Take animals as samples, apply this substance, observe its physiological changes, observe its abnormal behavior, and measure its organ damage. It is also necessary to consider its stability in different environments, because the environment may change its toxicity.
Poison research is related to the well-being of all living beings. Although the structure of this substance is complex, I must explore its toxicity with a rigorous attitude in order to protect the world from its harm.

Future Prospects

In today's world, science and technology are changing day by day, and chemical things are also developing endless possibilities. Today there is a thing named 7-Benzothiazolesulfonic Acid, 2- (4- (((((2-Methoxy-5-Methyl-4-Sulfophenyl) Amino) Carbonyl) -2-Oxopropyl) Azo) phenyl) -6-Methyl-, Disodium Salt, which is in the field of chemical research and opens the window to the future.
The characteristics of this thing can lay the foundation for various applications. In the creation of materials, it may be able to add new qualities to make them tough and specific; in the exploration of medicine, it may be a cure for diseases, saving people from pain. Although its potential is not fully understood today, it can look to the future. After careful study, it will surely bloom, add brilliance to human well-being, and develop its endless grand path to create an unparalleled industry.

Frequently Asked Questions

What is the chemical structure of 7-Benzothiazolesulfonic Acid, 2- (4- (((2-Methoxy-5-Methyl-4-Sulfophenyl) Amino) Carbonyl) -2-Oxopropyl) Azo) Phenyl) -6-Methyl-, Disodium Salt?

7-Benzothiazole sulfonic acid, 2- (4- (1- (((2-methoxy-5-methyl-4-sulfophenyl) amino) carbonyl) -2-oxopropyl) azo) phenyl) -6-methyl-, disodium salt, this is a rather complex organic compound. Its chemical structure is formed by splicing several parts delicately.
Looking at its structure, the benzothiazole part is one of its core structures, and the 7-position is connected with a sulfonic acid group, which endows the compound with specific chemical activity and solubility. The second position is connected to the phenyl group containing the azo structure, which closely connects 4- ((1 - ((2-methoxy-5-methyl-4-sulfophenyl) amino) carbonyl) -2 -oxopropyl).
Wherein, 2-methoxy-5-methyl-4-sulfophenyl is connected to the carbonyl group by the amino group, and constitutes a specific spatial configuration with the 2-oxopropyl group. In the overall structure, the presence of 6-methyl also affects its chemical properties and spatial arrangement. Finally, it is presented in the form of disodium salt, which is of great significance to its stability and ionic characteristics in solution, enabling it to exhibit unique properties in specific chemical reactions or application scenarios.

What are the main uses of 7-Benzothiazolesulfonic Acid, 2- (4- ((((2-Methoxy-5-Methyl-4-Sulfophenyl) Amino) Carbonyl) -2-Oxopropyl) Azo) Phenyl) -6-Methyl-, Disodium Salt?

7-Benzothiazole sulfonic acid, 2- (4- (1- (((2-methoxy-5-methyl-4-sulfophenyl) amino) carbonyl) -2-oxopropyl) azo) phenyl) -6-methyl -, disodium salt, this compound is quite widely used. In the printing and dyeing industry, it is often used as a reactive dye. Due to the special azo group and sulfonic acid group in the structure, it can tightly combine the dye with the fiber, not only improve the dyeing fastness, but also make the dyed fabric colorful, uniform, and lasting bright. In the field of scientific research, it may serve as an analytical reagent, with its unique chemical structure and properties, used to detect specific substances or participate in specific chemical reactions, to help scientists explore the properties and reaction mechanisms of substances. In pharmaceutical research, it may have potential biological activity and can be used as a lead compound for researchers to study in depth, hoping to develop new drugs. Or it may play a role in the field of materials science, such as as as a key component of functional materials, giving materials specific optical, electrical and other properties. In short, the compound has important uses in many fields, and with further research, more novel applications may be discovered.

7-Benzothiazolesulfonic Acid, 2- (4- ((((2-Methoxy-5-Methyl-4-Sulfophenyl) Amino) Carbonyl) -2-Oxopropyl) Azo) Phenyl) -6-Methyl-, Disodium Salt What are the precautions in the synthesis process?

In the process of synthesizing 7-benzothiazole sulfonic acid, 2- (4- (1- (((2-methoxy-5-methyl-4-sulfophenyl) amino) carbonyl) -2-oxopropyl) azo) phenyl) -6-methyl-, disodium salts, there are many points to be paid attention to.
The selection of raw materials is the key. It is necessary to ensure that the raw materials such as 2-methoxy-5-methyl-4-sulfoaniline and 2-oxopropionic acid are of high quality, the purity is up to standard, and the impurity content is low. Because impurities will interfere with the reaction process, the purity and yield of the product will be reduced. For example, if the purity of 2-methoxy-5-methyl-4-sulfoaniline is poor, by-products may be formed in the subsequent condensation reaction, which will greatly increase the difficulty of product separation and purification.
The reaction conditions must be controlled accurately. In terms of temperature, different reaction stages have strict temperature requirements. The diazotization reaction usually needs to be carried out at a low temperature, generally 0-5 ° C. If the temperature is too high, the diazonium salt will be unstable, easy to decompose, and reduce the reaction yield. The coupling reaction temperature may vary, and it needs to be debugged according to the specific reaction system. Too high or too low temperature may affect the coupling efficiency and product structure. The reaction pH value is also important. The diazotization reaction is mostly carried out in an acidic environment. The pH value of the coupling reaction varies depending on the nature of the reactants. Unsuitable pH value will affect the activity and reaction direction of the reactants.
Monitoring of the reaction process is indispensable. The reaction process can be monitored in real time by means of thin layer chromatography (TLC) and high performance liquid chromatography (HPLC) to understand the consumption of reactants and the formation of products. If it is found that the reaction does not proceed as expected, such as the reaction is too slow or abnormal by-products appear, the reaction conditions can be adjusted in time, such as changing the temperature, adding catalysts, etc.
The separation and purification of the product cannot be ignored. After the reaction is completed, the product contains impurities and needs to be purified by suitable methods. Common methods include crystallization, column chromatography, etc. When crystallizing, the right solvent should be selected, and the amount of solvent and crystallization temperature and time should be controlled to obtain high-purity crystals. Column chromatography needs to select suitable stationary and mobile phases to ensure effective separation of the product and impurities.
The safety of operation must be guaranteed. The synthesis process may involve toxic, harmful, flammable and explosive reagents, such as certain organic solvents, diaz Operators should strictly follow the operating procedures, wear protective equipment, operate in a well-ventilated environment, and take measures to prevent fire, explosion, and poisoning.

7-Benzothiazolesulfonic the stability of Acid, 2- (4- (((2-Methoxy-5-Methyl-4-Sulfophenyl) Amino) Carbonyl) -2-Oxopropyl) Azo) Phenyl) -6-Methyl-, Disodium Salt?

7-Benzothiazole sulfonic acid, 2- (4- ((1- ((2-methoxy-5-methyl-4-sulfophenyl) amino) carbonyl) -2-oxopropyl) azo) phenyl) -6-methyl-, disodium salt, the stability of this compound is related to its many properties, and its performance varies under different environments.
The structure of this compound contains benzothiazole, sulfonyl, azo and other groups, and the structure is quite complex. The interaction of these groups has a significant impact on its stability. The benzothiazole ring has a certain conjugate structure, which can enhance molecular stability; the sulfonyl group is a strong polar group, which is easy to interact with the surrounding environment or cause stability changes; the azo-N = N-bond has certain activity, or is a key factor affecting stability.
In the chemical environment, temperature, pH, light and other factors have a great impact on its stability. When the temperature increases, the thermal movement of the molecule intensifies, or the chemical bond can be weakened, resulting in a decrease in stability. In terms of pH, at different pH values, the polar groups in the compound may undergo protonation or deprotonation, which changes the molecular charge distribution and interaction, and then affects the stability. Under light conditions, azo groups can absorb specific wavelengths of light, causing photochemical reactions, resulting in structural changes and impaired stability.
In addition, the medium in which the compound is located also affects its stability. In aqueous solutions, water molecules and compound molecules may interact or change their stability by forming hydrogen bonds. In organic solvents, the solubility and interaction force between the solvent and the compound all affect the stability.
In summary, 7-benzothiazole sulfonic acid, 2 - (4 - (1 - (((2 - methoxy - 5 - methyl - 4 - sulfophenyl) amino) carbonyl) - 2 - oxopropyl) azo) phenyl) - 6 - methyl -, the stability of the disodium salt is affected by a variety of factors intertwined, in practical application and storage, these factors need to be fully considered to ensure the stability of its properties.

What are the environmental effects of 7-Benzothiazolesulfonic Acid, 2- (4- ((((2-Methoxy-5-Methyl-4-Sulfophenyl) Amino) Carbonyl) -2-Oxopropyl) Azo) Phenyl) -6-Methyl-, Disodium Salt?

7-Benzothiazole sulfonic acid, 2- (4- (1- (((2-methoxy-5-methyl-4-sulfophenyl) amino) carbonyl) -2-oxopropyl) azo) phenyl) -6-methyl-, disodium salt, this chemical substance has the following effects on the environment:
This compound contains a complex chemical structure, in which specific groups such as sulfonic acid group and azo group have a significant effect on the environment. Sulfonic acid groups make the substance water-soluble, and after entering the water body or changing the chemical properties of the water body, it affects the living environment of aquatic organisms. Because it can dissociate ions, or interfere with the normal ion balance of the water body, it affects the regulation of the osmotic pressure of aquatic organisms and the process of ion transport, and has adverse effects on the physiological functions of aquatic organisms such as fish and plankton.
The existence of azo groups is also a key factor. Some azo-containing structural compounds can undergo reduction reactions in the environment and decompose to produce aromatic amines. Aromatic amines are mostly toxic and potentially carcinogenic. Once they enter the soil or water body, they can remain for a long time and accumulate through the food chain, threatening the health of organisms and humans.
In addition, the form of disodium salt indicates that the compound can release sodium ions in the environment, which may affect the pH and salinity of soil and water. In soil, or change soil structure and fertility, affect plant root absorption of nutrients, hinder plant growth and development.
In summary, this compound may pose a latent risk to aquatic ecosystems, soil environment and biological health after entering the environment, and needs to be handled and used with caution to reduce its negative impact on the environment.