6-Amino-5-[3-(Ethyl-Phenyl-Sulfamoyl)-4-Methyl-Phenyl]Azo-4-Hydroxy-Naphthalene-2-Sulfonic Acid

Lingxian Chemical

Specifications

HS Code	153444
Chemical Formula	C27H27N3O7S2
Molecular Weight	571.65 g/mol
Appearance	Typically a solid (color may vary depending on purity and form)
Solubility	Solubility characteristics can vary; may be sparingly soluble in some common solvents
Melting Point	Specific melting point data would require experimental determination
Boiling Point	Boiling point data would likely need to be experimentally measured
Ph	The pH of its solutions would depend on its dissociation and the medium
Stability	Stability may be influenced by factors like light, heat, and presence of reactive substances
Odor	Likely odorless or with a very faint, characteristic odor
Reactivity	Can potentially react with strong oxidizing or reducing agents

Packing & Storage

Packing	Packaged in 500 - gram containers: 6 - Amino - 5 - [3 - (Ethyl - Phenyl - Sulfamoyl)-4 - Methyl - Phenyl]Azo - 4 - Hydroxy - Naphthalene - 2 - Sulfonic Acid.
Storage	Store "6 - Amino - 5 - [3 - (Ethyl - Phenyl - Sulfamoyl)-4 - Methyl - Phenyl]Azo - 4 - Hydroxy - Naphthalene - 2 - Sulfonic Acid" in a cool, dry place away from heat sources and ignition sources. Keep the chemical in a tightly - sealed container to prevent moisture absorption and contamination. Avoid storage near oxidizing agents or incompatible substances.
Shipping	6 - Amino - 5 - [3 - (Ethyl - Phenyl - Sulfamoyl)-4 - Methyl - Phenyl] Azo - 4 - Hydroxy - Naphthalene - 2 - Sulfonic Acid will be shipped in sealed, corrosion - resistant containers. Ensured safe transit with proper cushioning and adherence to all hazardous chemical shipping regulations.

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6-Amino-5-[3-(Ethyl-Phenyl-Sulfamoyl)-4-Methyl-Phenyl]Azo-4-Hydroxy-Naphthalene-2-Sulfonic Acid

General Information

Historical Development

6-Amino-5- [3- (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid has undergone changes over time in the study of chemical products. In the past, the chemical technology was not mature, and the road to explore this compound was full of thorns. At that time, many scholars did their best to analyze its structure and study its characteristics. With the passage of time, science and technology have advanced, experimental methods have become more abundant, and their understanding has become more and more profound. The development of this compound is a microcosm of the evolution of chemical research. Countless days and nights of research in the past have laid the foundation for today's achievements, and its historical evolution has witnessed the unremitting progress and brilliant achievements in the field of chemistry.

Product Overview

Today, there is a substance called 6 - Amino - 5 - [3 - (Ethyl - Phenyl - Sulfamoyl) -4 - Methyl - Phenyl] Azo - 4 - Hydroxy - Naphthalene - 2 - Sulfonic Acid. This substance is the focus of chemical research. Its color, state, and properties are all important for research. Observe its color, whether bright or dull; observe its state, whether solid or liquid, depending on the environment. Its properties, with specific chemical activity, in the reaction, or as the cause of initiation, or as the medium of transformation.
This substance has potential uses in industrial and scientific research fields. In industry, it can be used to add color and improve texture; in scientific research, it can be used as the basis for exploring new paths. However, the road to research is not without difficulties. To understand its precision, it is necessary to undergo multiple tests to analyze its components and explore its reaction mechanism. Only in this way can we make the best use of it and add bricks and tiles to the progress of chemical industry, so as to achieve the state where things are as good as they can be.

Physical & Chemical Properties

The physicochemical properties of 6-amino-5- [3- (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid are of great importance to our research. Looking at its properties, or showing a specific color state, this is a sign of physical appearance. As for chemical properties, the groups contained in its molecular structure, such as amino groups, sulfonic acid groups, etc., must affect its reactivity. Amino groups are alkaline to a certain extent, or can be neutralized with acids; the presence of sulfonic acid groups makes them soluble and ionization in water. The stability of the azo structure also affects the chemical behavior of this substance in different environments. Studying its physical and chemical properties is like exploring the unknown, which can pave the way for many application fields. Whether it is material creation or chemical production, it depends on the precise grasp of the characteristics of this substance.

Technical Specifications & Labeling

6-Amino-5- [3- (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid technical specifications and identification (product parameters), related to this product, the technical specifications need to specify the operation standard, from the selection of raw materials, it is necessary to be pure and free of impurities, and to the reaction conditions, such as temperature, duration, and ratio, must be precisely controlled, not the difference between the millimeter. In terms of identification, the name of the product should be clear and accurate, and the parameters must be labeled in detail. From the proportion of ingredients to the performance indicators, it should be clear to the user at a glance, without any doubts, in order to ensure that the product can fully demonstrate its effectiveness in various uses, achieve the expected goal, and live up to expectations.

Preparation Method

Preparation of 6-amino-5- [3- (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid (raw materials and production process, reaction steps, catalytic mechanism)
To prepare this 6-amino-5- [3- (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid The selection of raw materials is crucial. Related compounds of a specific purity need to be selected to ensure a smooth reaction. In the production process, a specific proportion of starting materials is first mixed to initiate the reaction at a suitable temperature. The reaction steps are rigorous, and the first step requires precise control of the reaction time and temperature to enable the initial conversion of raw materials. The second step adjusts the reaction conditions to promote further reaction of intermediate products. In terms of catalytic mechanism, a specific catalyst is selected, which can effectively reduce the activation energy of the reaction, accelerate the reaction process, and improve the yield of the product. After a series of operations, the target product can be obtained, and the precise control of each step is paid attention to, in order to ensure the quality and yield of the product.

Chemical Reactions & Modifications

The change of taste and smell is related to chemical theory. Today there are 6 - Amino - 5 - [3 - (Ethyl - Phenyl - Sulfamoyl) -4 - Methyl - Phenyl] Azo - 4 - Hydroxy - Naphthalene - 2 - Sulfonic Acid. This material has the wonders of its transformation, which attracts people to explore.
The observation of its chemical reaction, or there are ordinary rules, but there are also special signs. If you want to change its nature, you need to understand its essence. The structure of this compound is exquisite, and the parts are interconnected, which affects the direction of chemical reaction.
In order to seek the change of chemical response and the change of physical properties, when observing the environment in which it is located, temperature, pressure and medium are all important factors. Such as temperature regulation, or to promote its speed, or to change its direction; change the medium, or to help it combine, or to divide its body.
After various research, we hope to be able to understand the mystery of its chemical response, control the change of its physical properties, so that this compound can develop its growth in various domains and be used by the world, so as to promote the wonders of chemical theory and the work of creation.

Synonyms & Product Names

I am committed to the research of this product of 6 - Amino - 5 - [3 - (Ethyl - Phenyl - Sulfamoyl) -4 - Methyl - Phenyl] Azo - 4 - Hydroxy - Naphthalene - 2 - Sulfonic Acid. During the investigation, pay attention to the relationship between its synonyms and trade names. This compound may have various aliases, and there are also various trade names. Due to the development of the chemical industry, the title may vary by region, use, and manufacturer. However, its essence refers to this specific chemical product. Knowing its synonyms, such as some aliases, can help us more fully understand the characteristics and related research of this substance. Only by studying synonyms and trade names in detail can we accurately grasp this product in chemical research and practical applications, and contribute to the development of the industry.

Safety & Operational Standards

6 - Amino - 5 - [3 - (Ethyl - Phenyl - Sulfamoyl) -4 - Methyl - Phenyl] Azo - 4 - Hydroxy - Naphthalene - 2 - Sulfonic Acid Safety and Operation Specifications
Fu 6 - Amino - 5 - [3 - (Ethyl - Phenyl - Sulfamoyl) -4 - Methyl - Phenyl] Azo - 4 - Hydroxy - Naphthalene - 2 - Sulfonic Acid, also a chemical research object. Its safety and operation practices are of paramount importance.
When operating, the first thing to do is to ensure that the environment is well ventilated. If this substance or gaseous component containing adverse effects is well ventilated, it can reduce its concentration in the air and protect the health of the operator. If it is in a secret room, the turbid gas will accumulate but not dissipate, which is easy to cause discomfort or even life-threatening.
Furthermore, the operator must wear suitable protective equipment. Protective clothing, gloves, goggles, etc., are indispensable. Protective clothing can be separated from contact with the body, gloves are protected from touching hands and staining, and goggles protect the eyes from splashing. If it is operated with bare hands, the substance may hurt the skin, and it will harm the eyesight when entering the eyes.
When storing, it should be placed in a cool and dry place to avoid heat and moisture. Heat may cause changes in the properties of substances, while moisture may cause chemical reactions, which may damage their quality and increase the risk of danger. If left in a humid place, it may cause deterioration and cause accidents.
During operation, follow the established procedures and do not make it easier at will. Every step is determined by careful research, which is related to safety and effectiveness. If you act without authorization, change the order or dosage, and you may be unpredictable.
The disposal of waste should not be ignored. According to relevant regulations, it should not be discarded at will. To avoid polluting the environment and harming the ecology.
In short, in the research and operation of 6 - Amino - 5 - [3 - (Ethyl - Phenyl - Sulfamoyl) -4 - Methyl - Phenyl] Azo - 4 - Hydroxy - Naphthalene - 2 - Sulfonic Acid, when safety is the most important, strictly abide by the operating norms, in order to ensure that everything goes smoothly, personnel are safe, and the environment is not damaged.

Application Area

6-Amino-5- [3- (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxynaphthalene-2-sulfonic acid, this compound is widely used in the field of printing and dyeing. It can be used as a dye for fabric dyeing, with bright colors and good fastness, which can make the fabric not easy to fade over time. For paper dyeing, it can also increase the beauty of its color. In ink manufacturing, it is a key raw material, which can ensure pure ink color and clear printing. In the field of leather dyeing, it can give leather its unique color and texture and improve its quality. In scientific research and industrial production, it is often an important research object, assisting researchers in exploring new applications and improving processes, so as to expand the utility of the compound in more fields and add luster to production and life.

Research & Development

I have been focusing on the study of chemical substances for a long time. Recently, I have studied 6 - Amino - 5 - [3 - (Ethyl - Phenyl - Sulfamoyl) -4 - Methyl - Phenyl] Azo - 4 - Hydroxy - Naphthalene - 2 - Sulfonic Acid. This substance is of great research value.
In order to investigate its properties and expand its uses, I study it day and night. Observe its structure, explore its law of reaction, and strive to clarify its essence. After repeated experiments, observe its changes under different conditions, and make initial gains.
However, the research of this substance still has a long way to go. I will make unremitting efforts to seek innovative breakthroughs through scientific methods, so that this material can shine in various fields such as industry and medicine, and contribute to the development of academia and society.

Toxicity Research

The industry of chemical industry is related to the people's livelihood. Today there is a product called 6-Amino-5 - [3 - (Ethyl - Phenyl - Sulfamoyl) -4 - Methyl - Phenyl] Azo - 4 - Hydroxy - Naphthalene - 2 - Sulfonic Acid, and the toxicity study of this compound is of great importance.
Look at this product, its molecular structure is unique, or it contains potentially toxic groups. However, the study of toxicity should not be rushed. It must be tested with animals in accordance with scientific methods to observe the changes in their feeding, activities, and organs. Observe whether it shows signs of drowsiness and anorexia, and whether the organs are damaged.
And it is necessary to explore whether the decomposed substances in the environment are also toxic. If it decomposes harmful substances in water and soil, it may endanger the surrounding ecology. And considering its impact on the human body, although it cannot be tested directly on humans, it can be deduced from the results of animal experiments. Only in this way can we know its toxicity, provide evidence for chemical applications and environmental safety, ensure people's well-being, and protect ecological harmony.

Future Prospects

I have tried to research 6 - Amino - 5 - [3 - (Ethyl - Phenyl - Sulfamoyl) -4 - Methyl - Phenyl] Azo - 4 - Hydroxy - Naphthalene - 2 - Sulfonic Acid. In this world, the technology of chemistry is improving day by day, and the properties and uses of this substance have yet to be dug in. Although I have limited knowledge at present, I am looking forward to the future development, hoping to make a major breakthrough in the field of its characteristics and applications.
In the future, due to the deep analysis of its structure, it can find new opportunities in the road of medicine to cure various diseases; or it can be used for the creation of exquisite materials to make utensils extraordinary. Or in the protection of the environment and the pursuit of energy, it will emerge and contribute to the progress of the world. I am convinced that with time and diligent research, this material will bloom, create a new situation for our generation, develop an unprecedented grand scene, and become an extraordinary career.

Frequently Asked Questions

What are the chemical properties of 6-Amino-5- [3- (Ethyl-Phenyl-Sulfamoyl) -4-Methyl-Phenyl] Azo-4-Hydroxy-Naphthalene-2-Sulfonic Acid

6-Amino-5- [3- (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid, this is an organic compound. It has specific chemical structures and properties.
Looking at its structure, it contains amino, sulfonic acid, hydroxy and other functional groups. Amino groups (-NH2O) have certain alkalinity, can participate in acid-base reactions, and can also react with many electrophilic reagents, such as acylation, alkylation, etc., and are often used as reaction check points in organic synthesis to form new chemical bonds.
Sulfonic acid groups (-SO < H) are highly acidic, making the compound have good water solubility. Because it can ionize hydrogen ions in water, it is acidic, and can neutralize with bases to generate corresponding sulfonates. Such salts are partially surface-active and may have applications in some fields.
Hydroxy (-OH) is both acidic and can participate in hydrogen bond formation. Acidic species can react with active metals such as sodium to replace hydrogen; hydrogen bonding has a significant impact on the physical properties of the compound, such as raising the melting point and boiling point, and enhancing the solubility in polar solvents.
Azo group (-N = N -) is an important structural part of the compound, with cis-trans isomerism. The cis and trans structures may have differences in physical and chemical properties. And the azo gene contains nitrogen and nitrogen double bonds, which have certain chemical activity. Under specific conditions, reactions such as reduction can occur, breaking the nitrogen and nitrogen double bonds.
In addition, the compound contains benzene ring and naphthalene ring structures, and the benzene ring and naphthalene ring are conjugated systems, which make the molecule have certain stability. At the same time, the substituents on the benzene ring and naphthalene ring will affect the electron cloud distribution of the compound, which in turn affects its chemical activity and reaction selectivity. Aromatic rings can undergo electrophilic substitution reactions, such as halogenation, nitrification, sulfonation, etc. The properties and positions of the substituents will affect the reaction difficulty and product distribution.
This compound has potential application value in dyes, drug synthesis and other fields due to its functional groups and structural characteristics. In the field of dyes, its complex structure and functional groups may endow the compound with specific color and dyeing properties; in drug synthesis, each functional group can be used as a modification check point to optimize the pharmacological activity and pharmacokinetic properties of the compound.

What are the main uses of 6-Amino-5- [3- (Ethyl-Phenyl-Sulfamoyl) -4-Methyl-Phenyl] Azo-4-Hydroxy-Naphthalene-2-Sulfonic Acid

6-Amino-5- [3- (ethyl-phenyl-aminosulfonyl) - 4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid, this is an organic compound. Its main uses are complex, and in the past, it has been involved in many fields.
In the field of dyeing and weaving, it is often used as a dye. Because of its unique chemical structure, it can make fabrics show colorful colors. By combining with fabric fibers, it can be firmly colored with a specific process, and the color is lasting and bright, so it is very important in the textile printing and dyeing industry.
In the process of scientific research, it is also an important research object. By analyzing its structure and characteristics, researchers can gain insight into basic chemical problems such as the reaction mechanism and intermolecular interactions of organic compounds. The complex structure of this compound, in-depth exploration of it will help to expand the theory of organic chemistry and pave the way for the development of new compounds.
Furthermore, in some specific industrial production processes, or as an intermediate. With its special chemical properties, it can be transformed into other compounds with more specific functions through a series of chemical reactions, playing a key role in the manufacture of fine chemical products. In conclusion, 6-amino-5- [3 - (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid has important uses in many fields such as dyeing and weaving, scientific research and industrial production.

What is the production process of 6-Amino-5- [3- (Ethyl-Phenyl-Sulfamoyl) -4-Methyl-Phenyl] Azo-4-Hydroxy-Naphthalene-2-Sulfonic Acid

The production process of 6-amino-5- [3- (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid is a matter of chemical preparation. At the beginning of this process, all the required raw materials should be carefully prepared. Aromatic amines with specific structures, such as aniline derivatives with specific substituents, and naphthol sulfonic acids are required, which are the basis of the reaction.
The key to its preparation is the diazotization reaction. Using aromatic amines as substrates, under low temperature and strong acid environment, it interacts with sodium nitrite and other reagents to form diazonium salts. This process requires strict control of temperature and pH. Due to the active nature of diazonium salts, slightly higher temperature or improper acid and base can cause their decomposition and damage this reaction.
After the diazotization is completed, the coupling reaction will be carried out. The resulting diazonium salt is mixed with a hydroxy-containing naphthalene sulfonic acid compound. This reaction needs to be carried out under appropriate pH conditions, or alkaline, so that the two can be coupled smoothly to form a product with a specific azo structure. During the reaction process, it is advisable to monitor the progress of the reaction by means such as thin layer chromatography to determine whether the reaction is complete.
When the reaction is over, the separation and purification of the product should not be ignored. The extraction method can be used first, and the product can be extracted from the reaction system with a suitable organic solvent, and then the crystallization method can be carried out. Select a suitable solvent, control the cooling rate, make the product crystallize and precipitate, and then remove impurities to obtain a pure 6-amino-5- [3- (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid. In this way, a complete production process can be obtained to prepare this specific compound.

6-Amino-5- [3- (Ethyl-Phenyl-Sulfamoyl) -4-Methyl-Phenyl] Azo-4-Hydroxy-Naphthalene-2-Sulfonic Acid in the use of what are the precautions

6-Amino-5- [3- (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid, this is a rather complex chemical substance. During use, many matters need to be paid attention to.
Bear the brunt of it, and safety protection should not be ignored. Because it has certain chemical activity, or it may be harmful to the human body. When coming into contact, wear appropriate protective equipment, such as protective clothing, gloves and goggles, to avoid direct contact with the substance with the skin and eyes. In case of accidental contact, rinse with plenty of water immediately and seek medical assistance according to the specific situation.
In addition, the storage of this substance is also exquisite. It should be stored in a dry, cool and well-ventilated place, away from fire, heat and oxidants. Due to its chemical properties, improper storage or deterioration can even cause dangerous chemical reactions.
During use, the operation must be precise and standardized. Strictly follow the established operating procedures, do not change the dosage and use method at will. When configuring the solution, precisely control the concentration and stir evenly to ensure the accuracy and stability of the experiment or production.
In addition, the substance may affect the environment. After use, the disposal of waste must follow relevant environmental regulations. Do not dump at will, and should be treated harmlessly in an appropriate manner to prevent pollution to environmental factors such as soil and water sources.
At the same time, the user should have a full understanding of the chemical properties, hazard characteristics and emergency treatment methods of the substance. In this way, in the event of an emergency, it can respond quickly and correctly to minimize losses and hazards. In summary, the use of 6-amino-5- [3- (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid cannot be ignored, so as to ensure the safety and effectiveness of the use process.

6-Amino-5- [3- (Ethyl-Phenyl-Sulfamoyl) -4-Methyl-Phenyl] Azo-4-Hydroxy-Naphthalene-2-Sulfonic Acid

Nowadays, there are 6-amino-5- [3- (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid, which has attracted much attention in the market prospect.
In the field of Guanfu chemical dyes, this compound may be very useful. Its unique structure contains groups such as azo and sulfonic acid, or it can be used as an excellent dye raw material. In the textile printing and dyeing industry, there is a growing demand for dyes with bright color and good fastness. If this material can have good dyeing properties, such as high coloring rate, washable and light resistance, it will definitely be favored by textile enterprises and occupy a place in the market.
Furthermore, in the path of scientific research and exploration, such compounds containing complex groups may be the key to the study of new reactions and new synthesis paths. Chemists can develop better derivatives by exploring their structural modification and properties, expand their application scope, such as in emerging fields such as optoelectronic materials, or emerge, injecting new vitality into the market.
However, its market prospects are not smooth. The complexity of the synthesis process and the level of production cost are all factors restricting its large-scale promotion. If the synthesis process is cumbersome and costly, it may be difficult to compete with existing mature dye products. And environmental protection regulations are becoming increasingly stringent, this compound and its production process need to meet environmental protection requirements, otherwise it will also face market difficulties.
In summary, 6-amino-5 - [3 - (ethyl-phenyl-aminosulfonyl) -4-methyl-phenyl] azo-4-hydroxy-naphthalene-2-sulfonic acid has potential application value and market opportunities, but it also needs to overcome many challenges in order to bloom in the market.