2-Naphthalenesulfonic Acid, 6-(Acetylamino)-4-Hydroxy-3-(2-(3-((2-(Sulfooxy)Ethyl)Sulfonyl)Phenyl)Diazenyl)-, Sodium Salt (1:2)

Lingxian Chemical

Specifications

HS Code	924243
Chemical Name	2-Naphthalenesulfonic Acid, 6-(Acetylamino)-4-Hydroxy-3-(2-(3-((2-(Sulfooxy)Ethyl)Sulfonyl)Phenyl)Diazenyl)-, Sodium Salt (1:2)
Formula	C20H19N3Na2O10S3
Molecular Weight	609.56 g/mol
Appearance	Typically appears as a solid
Solubility	Solubility characteristics would depend on the nature of the solvent, but may have some solubility in polar solvents
Ph	The pH of its solution would be influenced by the sodium salt nature and could be basic
Stability	Stability can be affected by factors like temperature, light, and humidity
Reactivity	May react with strong oxidizing or reducing agents
Color	Color may vary but could potentially be colored due to the azo group
Hazard Classification	Potential hazards need to be determined through proper safety assessments

Packing & Storage

Packing	2 - Naphthalenesulfonic acid compound, 200g packaged as sodium salt (1:2)
Storage	Store 2 - Naphthalenesulfonic Acid, 6 - (Acetylamino)-4 - Hydroxy - 3 - (2 - (3 - ((2 - (Sulfooxy)ethyl)sulfonyl)phenyl)diazenyl)-, Sodium Salt (1:2) in a cool, dry place. Keep it away from heat sources, open flames, and incompatible substances, sealing the container well to prevent moisture absorption or degradation.
Shipping	Ship the 2 - Naphthalenesulfonic Acid, 6 - (Acetylamino)-4 - Hydroxy - 3 - (2 - (3 - ((2 - (Sulfooxy)ethyl)sulfonyl)phenyl)diazenyl)-, Sodium Salt (1:2) in sealed, corrosion - resistant containers, following hazardous chemical shipping regulations to ensure safety during transit.

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2-Naphthalenesulfonic Acid, 6-(Acetylamino)-4-Hydroxy-3-(2-(3-((2-(Sulfooxy)Ethyl)Sulfonyl)Phenyl)Diazenyl)-, Sodium Salt (1:2)

General Information

Historical Development

Guanfu 2-Naphthalenesulfonic Acid, 6- (Acetylamino) -4-Hydroxy-3- (2- (3- (2- (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2) The rise of this substance is a sign of chemical evolution. In the past, chemistry was first developed, studying the properties of substances and exploring the method of chemical synthesis. After all the sages and efforts, such compounds have appeared in the world.
In the early days, only the principle of basic chemical synthesis was recognized, and after the experiment, the technology was gradually refined, and the molecular structure and reaction mechanism were more and more deeply observed. Then it can be precisely modulated to make the proportion of ingredients appropriate and the properties are stable. Therefore, this compound has been used in various fields of industry and scientific research, contributing to human life and academic progress, and witnessing the glorious course of chemical development. It is still shining today, paving the way for future exploration.

Product Overview

Today there is a product called 2 - Naphthalenesulfonic Acid, 6 - (Acetylamino) -4 - Hydroxy - 3 - (2 - (3 - (2 - (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2). This is a fine chemical product with a wide range of uses. Its shape or powder, pure color and uniform texture. In industrial production, it can be used as a dye intermediate. Through delicate chemical reactions, it can be derived into colorful dyes, adding splendor to fabric printing and dyeing. Its chemical structure is unique, containing a variety of groups such as naphthalene ring, sulfonic acid group, acetamide group, etc. The interaction of each group gives this material special chemical properties and reactivity. With this unique property, it can accurately participate in various synthetic reactions under specific conditions, helping the chemical industry to prepare products with excellent performance, which is of great significance for the development of modern industry.

Physical & Chemical Properties

Today there is a substance called 2 - Naphthalenesulfonic Acid, 6- (Acetylamino) -4 - Hydroxy - 3- (2- (3- ((2- (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2). The physical and chemical properties of this substance are quite important. Its properties are acid and alkali, and it may be soluble in water. Looking at the structure of its molecules, it contains groups such as sulfonyl and acetamide, making it hydrophilic. And because it contains azo groups, or is colored, it can be used in the dyeing industry. Its stability also needs to be carefully observed, and it may change under high temperature and strong light. From its structure, its reactivity can be deduced, and it can react with other substances to form new compounds under specific conditions. This is the main point of exploring the physical and chemical properties of this substance, and it needs to be studied in detail with rigorous methods.

Technical Specifications & Labeling

Today there is a product named 2 - Naphthalenesulfonic Acid, 6 - (Acetylamino) -4 - Hydroxy - 3 - (2 - (3 - ((2 - (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2). In Siwu, process specifications and identification (commodity parameters) are the key.
Process specifications, from the selection of raw materials, must be pure and fine, suitable for specific standards. The synthesis method, the steps need to be rigorous and orderly, and the temperature control and speed regulation are fixed to ensure the quality of the product. The reaction time is also accurately measured, and there is no tolerance pool.
In terms of identification, the name should be accurate and not ambiguous. The product parameters are clearly listed, such as the proportion of ingredients and physical and chemical properties, so that everyone can know their properties at a glance. In this way, the main meaning of the product's process specifications and identification (product parameters) is also.

Preparation Method

This product of 2 - Naphthalenesulfonic Acid, 6 - (Acetylamino) -4 - Hydroxy - 3 - (2 - (3 - ((2 - (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2) should be made by the ancient method.
The selection of raw materials should be pure and good. Acetylamino, hydroxyl and other required materials must be carefully selected, so as not to disturb impurities.
The synthesis process first uses a specific method to make the raw materials polymerize in sequence. If the raw material containing benzene and those with sulfonyl groups are encountered, follow a certain rule, under appropriate temperature and pressure, to promote their phase sum. Then, introduce the genus of acetamide and hydroxyl groups, and follow appropriate steps to make them combine in one place.
The reaction process needs to be observed in detail. Observe the changes in its color, temperature and odor, and adjust it in a timely manner to ensure a smooth reaction. And the catalytic mechanism is also the key. Choose the appropriate catalyst, control its dosage, and make the reaction fast and good. To obtain this good product, you must follow this method of preparation before it can be successful.

Chemical Reactions & Modifications

Nowadays, there is a chemical substance called 2 - Naphthalenesulfonic Acid, 6 - (Acetylamino) -4 - Hydroxy - 3 - (2 - (3 - (2 - (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2). As a chemical researcher, I often study the chemical reactions and modifications of these substances.
This compound has a delicate reaction, and the modification method needs to be carefully investigated. To understand its reaction, it is first necessary to investigate its structure and know the characteristics of functional groups. It may undergo nucleophilic substitution with other substances, or be alienated due to the distribution of electron clouds. As for modification, new groups can be introduced to change their physical and chemical properties, such as their solubility and stability.
To achieve this goal, it is necessary to carefully design experiments and control the reaction conditions, such as temperature and pH. Looking at past studies, many scholars have been working on this, but there is still room for improvement. I should continue to explore the chemical reactions and modifications of this compound in depth, hoping to gain new gains and contribute to the advancement of chemistry.

Synonyms & Product Names

The name of this substance is complicated and difficult to remember, but the need for chemical industry cannot be ignored.
In the city, it also has an alias. Or because of its nature and use, craftsmen and merchants call it by the name of easy to remember, which is a trade name. And in the chemical industry, among colleagues, it is often matched by synonymous words, which is convenient for communication, and is also a habit of the industry.
Although the names are different, they all refer to this specific substance. It is important in industrial manufacturing and scientific research and exploration. Colleagues, when they carefully observe its nature and clarify its synonymous name and trade name, they can go unimpeded in the chemical industry and promote the prosperity of this industry.

Safety & Operational Standards

About "2-Naphthalenesulfonic Acid, 6- (Acetylamino) -4-Hydroxy-3- (2- (3- (2- (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2) " Product Safety and Operation Specifications
"2-Naphthalenesulfonic Acid, 6- (Acetylamino) -4-Hydroxy-3- (2- (2- (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2) ", chemical products are also. If you want to use it, you must clarify its safety and operation specifications.
Safety is the first thing to protect. If you touch this product, wear suitable protective clothing, such as chemical-resistant clothing, to protect your skin. Wear protective gloves to avoid direct contact with the skin. If you accidentally get it on your hands, rinse with plenty of water as soon as possible. Eye protection should not be ignored. Wear chemical safety glasses to prevent it from splashing into the eyes and causing eye injuries. If it enters the eyes, rinse with water urgently and seek medical treatment.
During operation, the environment must be well ventilated. This product may dissipate harmful gases. Good ventilation can reduce its concentration and ensure the health of the operator. Furthermore, the operation should be careful not to spill this product. If it spills, it should be disposed of according to the specifications. A small amount of spillage can be absorbed by inert materials such as sand and vermiculite, put into a closed container, and discard it according to regulations. If a large amount of spillage needs to be contained to prevent spread, and then ask professionals to deal with it.
When storing, this product should be placed in a cool, dry and ventilated place, away from fire and heat sources. Store separately from oxidants, acids, etc., and avoid mixed storage to prevent chemical reactions from causing danger.
The safety and operation specifications of this "2-Naphthalenesulfonic Acid, 6- (Acetylamino) -4-Hydroxy-3- (2- (3- (2- (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2) " are related to personal safety and environmental safety. The operator must observe it strictly and keep it safe.

Application Area

To appreciate the wonders of modern chemistry, there is a thing called "2 - Naphthalenesulfonic Acid, 6 - (Acetylamino) -4 - Hydroxy - 3 - (2 - (3 - (2 - (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2) ". This product has a wide range of uses. In the field of dyeing and weaving, it can be used as a coloring agent to make the fabric bright in color and not fade for a long time, increase its appearance, and also fix the color and keep it lasting. For medical use, it can participate in preparations to help the formation and stability of drugs, or have specific pharmacology to heal diseases. In chemical synthesis, as a key raw material, through exquisite synthesis, various useful things are derived, which helps the prosperity of industry and benefits people's livelihood. It is an indispensable material for chemical applications in this world.

Research & Development

The rise of modern chemistry is the most detailed review in the study of matter. Today there is a thing named 2 - Naphthalenesulfonic Acid, 6 - (Acetylamino) -4 - Hydroxy - 3 - (2 - (3 - (2 - (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2), our generation should investigate the truth.
This compound has an exquisite structure. If you want to understand its properties, you must first explore its molecular structure and analyze its atomic bonding formula. Looking at its composition, each atom is related to a specific law, which is the basis for research.
In the way of research and development, the first experiment. With different methods, observe its changes under various conditions, such as temperature, pressure, and solvent differences, and observe the traces of its reaction. Furthermore, think about its usefulness in various fields such as industry and medicine. If its properties can be understood, or it can be innovative drugs, or it can help industry improve, this is the research and development of the swan. Only with perseverance and scientific methods can we make progress in the research and development of this thing.

Toxicity Research

About 2-naphthalenesulfonic acid, 6- (acetylamino) -4-hydroxy-3- (2- (3- ((2- (sulfonyloxy) ethyl) sulfonyl) phenyl) diazo) -, sodium salt (1:2) toxicity study
There are chemical things today, called 2-naphthalenesulfonic acid, 6- (acetylamino) -4-hydroxy-3- (2- (sulfonyloxy) ethyl) sulfonyl) phenyl) diazo) -, sodium salt (1:2 ). As a chemical researcher, I have devoted myself to the study of the toxicity of this substance.
Observe the structure of its molecules, containing diazonium, sulfonyl and other groups, or have special properties. During the course of the experiment, measure its toxicity by various methods. Observe its shadow on the organism, observe the changes of the cell and the differences in physiology.
After many inquiries, the initial conclusion is reached. This substance may show a certain toxicity under specific conditions. Although it is not fully understood, it has already been revealed. In the future, we should explore it in a more careful way and in a wider field, hoping to understand the secret of its toxicity, and provide evidence for its use and prevention.

Future Prospects

Looking at this 2 - Naphthalenesulfonic Acid, 6 - (Acetylamino) - 4 - Hydroxy - 3 - (2 - (3 - (2 - (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2), it really contains endless future prospects. This compound has an exquisite structure and all parts cooperate with each other, which seems to hold the wonders of creation.
In the future, it may shine in many fields. Medicine, with its unique structure, may be able to precisely target lesions and become a good medicine for treating diseases and saving people; the field of materials, or with its characteristics, can optimize performance and produce extraordinary materials. Although the road ahead is long, I firmly believe that through unremitting research, we will be able to uncover more mysteries, contribute to human well-being, and paint a new picture of a better future.

Frequently Asked Questions

2-Naphthalenesulfonic Acid, 6- (Acetylamino) -4-Hydroxy-3- (2- (3- (2- (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, What is the main use of Sodium Salt (1:2)

2-Naphthalenesulfonic acid, 6- (acetamido) -4-hydroxy-3- (2- (2- (sulfonyloxy) ethyl) sulfonyl) phenyl) diazo) -, sodium salt (1:2) This substance, its main use is particularly critical. Looking at it, this compound has been involved in many fields of industry.
In the dyeing and weaving industry, it is often used as a dye intermediate. Due to its unique chemical structure, it can be converted into colorful and stable dyes through specific reactions, which can give long-lasting and bright color to fabrics. After the fabric is dyed with the dyes it participates in, it can resist the influence of external factors such as light and washing, and maintain a bright color for a long time.
In the field of chemical synthesis, it is also an important raw material. With its various reactive groups, it can undergo various chemical reactions with other compounds, thus synthesizing new materials with special properties. These new materials may have excellent solubility and stability, and play an important role in the manufacture of coatings, adhesives and other products, improving the quality and performance of products.
Furthermore, in some scientific research and exploration work, this substance can be used as a key substance to study the chemical reaction mechanism and explore new synthesis paths due to its special structure. By studying the reaction processes and products they participate in, researchers may be able to develop new chemical synthesis methods and theories, which will promote the continuous development of chemistry.

2-Naphthalenesulfonic Acid, 6- (Acetylamino) -4-Hydroxy-3- (2- (3- (2- (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2) in which industries

2-Naphthalenesulfonic acid, 6- (acetamido) -4-hydroxy-3- (2- (2- (sulfonyloxy) ethyl) sulfonyl) phenyl) diazo) -, sodium salt (1:2), this material is widely used in printing and dyeing, papermaking, leather and other industries.
In the printing and dyeing industry, it can be used as a reactive dye. By means of the diazo group in the structure and the hydroxyl group, amino group and other groups on the fiber through chemical reaction, the dyed fabric has good color fastness and bright color. It is commonly used for dyeing natural fiber fabrics such as cotton, linen and silk.
In the paper industry, it can be used as a paper reinforcer. The sulfonic acid groups in the molecule form hydrogen bonds or ionic bonds with cellulose hydroxyl groups to enhance the bonding force between fibers, improve the strength and stiffness of paper, and is used in the production of high-grade writing paper, packaging paper, etc.
In the leather industry, it can be used as a leather tanning agent or retanning agent. The groups it contains interact with leather collagen fibers to increase the shrinkage temperature of leather, improve the fullness and softness, and can also assist in the uniform penetration of dyes, making leather dyeing more uniform.
In addition, in the synthesis of some fine chemical products, it may also serve as an intermediate, providing a structural basis for the preparation of more complex compounds. Its application in various industries is based on the reactivity and performance characteristics imparted by its unique chemical structure.

2-Naphthalenesulfonic Acid, 6- (Acetylamino) -4-Hydroxy-3- (2- (3- (2- (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2) What are the chemical properties

This is a chemical substance called 2-naphthalenesulfonic acid, 6- (acetamido) -4-hydroxy-3- (2- ((2- (sulfonyloxy) ethyl) sulfonyl) phenyl) diazo) -, sodium salt (1:2).
Its chemical properties are quite complex. From a structural perspective, the naphthalene ring acts as a core skeleton, giving the substance a certain rigidity and stability. The sulfonic acid group attached to the naphthalene ring makes this substance have good water solubility. Because the sulfonic acid group is easily ionized in water, it forms ionic compounds and enhances the interaction with water molecules. The presence of
acetamide groups not only affects the electron cloud distribution of molecules, but also may participate in the formation of hydrogen bonds, which affects the intermolecular forces and physical properties. Hydroxyl groups can also participate in hydrogen bonding, enhancing the solubility of substances in some polar solvents, and hydroxyl groups have certain reactivity and can participate in many chemical reactions, such as esterification and etherification.
Diazo groups are extremely active functional groups. The nitrogen-nitrogen double bonds in diazo groups have high reactivity and are often used as a check point for coupling reactions. They can react with other compounds with active hydrogen to form compounds with special structures and functions.
The sodium salt form makes the substance more susceptible to ionization in aqueous solution, increasing its degree of ionization, and affecting its chemical and physical behaviors, such as stability and conductivity in solution. These characteristics are intertwined, which determines that this substance may have unique applications in chemical synthesis, printing and dyeing, medicine, etc. It can be used to prepare dyes with specific structures, and can be coupled with the reactivity of its diazo group to generate colorful and excellent performance dyes. In the field of medicine, its structural properties may be used as a lead compound to further derive bioactive drug molecules.

2-Naphthalenesulfonic Acid, 6- (Acetylamino) -4-Hydroxy-3- (2- (3- (2- (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2) What is the production process?

This is 2-naphthalenesulfonic acid, 6- (acetamido) -4-hydroxy-3- (2- (3- ((2- (sulfonyloxy) ethyl) sulfonyl) phenyl) diazo) -, sodium salt (1:2).
To make this product, it is first necessary to prepare raw materials, such as 2-naphthalenesulfonic acid, compounds containing acetamido and hydroxyl groups, and phenyl diazo compounds containing specific sulfonyl structures, and sodium salts are also indispensable.
At the beginning of the reaction, it is necessary to create a suitable reaction environment and control the temperature, pH and other conditions. First, some key raw materials are mixed in a certain proportion and stirred at a specific rate to make them initially blend. During the reaction process, the regulation of temperature is extremely critical, and it may be necessary to slowly heat up or cool down to prevent side reactions from breeding.
The maintenance of pH is also the focus, or auxiliary means such as buffers can be used to keep the pH of the reaction system constant within the required range. As the reaction progresses, the timing and amount of sodium salt addition also need to be precisely controlled. Too much or too little can affect the purity and yield of the product.
When the reaction is completed, the separation and purification of the product are crucial. Or use filtration, extraction and other means to remove impurities. Then recrystallization and other means to further improve the purity of the product.
The whole preparation process requires rigorous operation at each step, and the product does not meet expectations due to a slight difference. Only by carefully controlling each link can high-purity 2-naphthalenesulfonic acid, 6- (acetamido) -4-hydroxy-3- (2- (sulfonyloxy) ethyl) sulfonyl) phenyl) diazo) -, sodium salt (1:2).

2-Naphthalenesulfonic Acid, 6- (Acetylamino) -4-Hydroxy-3- (2- (3- (2- (Sulfooxy) Ethyl) Sulfonyl) Phenyl) Diazenyl) -, Sodium Salt (1:2) What is the environmental impact

2-Naphthalenesulfonic acid, 6- (acetamido) -4-hydroxy-3- (2- (2- (sulfoxy) ethyl) sulfonyl) phenyl) diazo) -, sodium salt (1:2), the impact of this chemical substance on the environment is quite complex.
All kinds of chemical substances in the past have various effects on the environment. If this 2-naphthalenesulfonic acid sodium salt is scattered in nature, the first one to bear the brunt is the water environment. It may dissolve into rivers, lakes and seas. If the content is slightly higher, it may cause changes in water quality. Aquatic organisms, from planktonic microalgae to fish and shrimp, are all affected by it. Microalgae are the foundation of aquatic ecology. If their growth is inhibited, the bottom layer of the food chain is shaken, and the upper organisms are not spared, it may cause changes in population numbers and imbalance in ecological balance.
In the soil, if this sodium salt penetrates, it will also affect. Soil microorganisms depend on a suitable environment for survival and reproduction, which may change the chemical properties of the soil, such as pH, nutrient balance, etc., and then disturb the metabolic activities of microorganisms. Microorganisms are essential for the decomposition of soil organic matter and nutrient circulation. If they are disturbed, the soil fertility and structure may change, affecting plant growth.
In the atmospheric environment, although its volatilization possibility is low, if the production and transportation process is not handled properly, tiny particles will escape or enter the atmosphere. Although the amount may not be huge, it will accumulate for a long time, and it should not be underestimated in the air ecology.
And the chemical structure of this sodium salt contains many complex groups, or it is difficult to degrade in the environment. Long-term residues and accumulation continue, and its potential harm may become more significant over time. Therefore, its production, use and disposal all aspects need to be cautious to reduce the negative impact on the environment and ensure ecological safety.