2,7-Naphthalenedisulfonic Acid, 4-Amino-3-(2-(4-(((4-(2-(2,4-Diaminophenyl)Diazenyl)Phenyl)Amino)Carbonyl)Phenyl)Diazenyl)-5-Hydroxy-6-(2-Phenyldiazenyl)-, Sodium Salt (1:2)

Lingxian Chemical

Specifications

HS Code	500681
Chemical Name	2,7 - Naphthalenedisulfonic Acid, 4 - Amino - 3 - (2 - (4 - (((4 - (2 - (2,4 - Diaminophenyl)Diazenyl)Phenyl)Amino)Carbonyl)Phenyl)Diazenyl)-5 - Hydroxy - 6 - (2 - Phenyldiazenyl)-, Sodium Salt (1:2)
Formula	C42H33N11Na2O9S2
Molar Mass	955.89 g/mol (approximate, calculated from formula)
Appearance	Likely a solid (due to being a sodium salt, common for organic sulfonic acid salts), color may be influenced by azo groups (possibly colored)
Solubility	Soluble in polar solvents like water to some extent as it is a sodium salt, may have limited solubility in non - polar solvents
Ph Solution	Aqueous solutions may be slightly basic or neutral depending on the hydrolysis of the sulfonate and other functional groups
Stability	Can be sensitive to light and heat due to the presence of azo groups which can undergo decomposition or isomerization
Reactivity	Can react with strong acids to liberate the free sulfonic acid, can participate in azo - related reactions such as coupling reactions

Packing & Storage

Packing	Package contains 100g of 2,7 - Naphthalenedisulfonic acid etc. sodium salt as described.
Storage	2,7 - Naphthalenedisulfonic acid, 4 - amino - 3 - [2 - (4 - {[4 - (2 - (2,4 - diaminophenyl)diazenyl)phenyl]amino}carbonyl)phenyl]diazenyl - 5 - hydroxy - 6 - (2 - phenyldiazenyl)-, sodium salt (1:2) should be stored in a cool, dry place away from heat and ignition sources. Keep it in a tightly - sealed container to prevent moisture absorption and contamination, as its chemical properties may be affected by environmental factors.
Shipping	2,7 - Naphthalenedisulfonic acid sodium salt compound should be shipped in tightly - sealed containers, compliant with hazardous chemical shipping regulations, ensuring temperature - controlled transport to prevent degradation and utmost safety.

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2,7-Naphthalenedisulfonic Acid, 4-Amino-3-(2-(4-(((4-(2-(2,4-Diaminophenyl)Diazenyl)Phenyl)Amino)Carbonyl)Phenyl)Diazenyl)-5-Hydroxy-6-(2-Phenyldiazenyl)-, Sodium Salt (1:2)

General Information

Historical Development

It was found that 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- ((4- (2- (2,4-diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) - 5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2) is a dye-related compound.
Looking at the evolution of this dye, in the past, the dye shop wanted a dye that was fresh in color and would not fade for a long time, so he devoted himself to research. At first, it was only based on natural things. Although it was effective, the variety of colors was limited. After chemistry flourished, chemists worked hard to analyze the properties of substances and explore the method of synthesis. After repeated experiments, this dye with ingenious combination of 2,7-naphthalene disulfonic acid and other ingredients was obtained. Its birth made the art of dyeing look brand new, adding color to fabrics, with outstanding effect, and also paved the foundation for the development of dyes in later generations, creating a new path.

Product Overview

There is now a substance called 2,7-naphthalene disulfonic acid, 4-amino-3- (2 - (4 - (2 - (2,4-diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) - 5-hydroxy-6 - (2-phenylazo) -, sodium salt (1:2). This substance is unique in the field of chemical research. Its molecular structure is delicate and complex, derived from the structure of naphthalene, connected with various functional groups, such as sulfonic acid group, amino group, azo group, etc. Sulfonic acid groups give it water solubility, which is conducive to function in aqueous systems; amino groups can participate in many chemical reactions, providing opportunities for chemical modification; azo groups are often associated with the color of the substance, or cause the substance to have a specific color. The form of sodium salt affects its solubility and chemical activity. Studying this substance can provide insight into the relationship between chemical structure and properties, and may have potential uses in dyes, medicine and other fields. It is an important object of chemical investigation.

Physical & Chemical Properties

Guanfu 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- ((4- (2- (2,4-diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) -5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2) This substance. Its physical and chemical properties are related to many things.
From the perspective of physical properties, there may be a specific color or state, its color or distinct, and the state may be powdery or crystalline, depending on its particle arrangement and structure. It is different in solubility, or in water and organic solvents, due to the interaction between molecular polarity and solvents.
Discussing chemical properties, it contains amino groups, hydroxyl groups, azo groups and other groups. Amino groups are basic and can form salts with acids; azo groups are easily affected by light and heat, resulting in structural changes. And its sodium salt form is different from neutral substances in terms of chemical reactivity due to ionic properties. These are all important in their physicochemical properties, related to their preparation and application.

Technical Specifications & Labeling

There is now a product called 2,7-naphthalene disulfonic acid, 4-amino-3- (2 - (4 - (2 - (2 - (2, 4 - diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) - 5 -hydroxy-6 - (2 - phenylazo) -, sodium salt (1:2). For this product, process specifications and identification (product parameters) are the key.
To clarify its process specifications, it is necessary to carefully examine the fine sieving of raw materials, the accuracy of the ratio, and the temperature, time, and pressure of the reaction. Each step of the process follows strict regulations, such as the fineness of raw material grinding, the rate of reaction and stirring, all of which are related to the quality of the product.
Regarding its logo, it should contain a clear name, an accurate chemical formula, and detailed physical and chemical properties. The product parameters should clearly indicate the purity, impurity geometry, solubility, stability, etc., so that the user can see at a glance and be suitable for its use. In this way, the main meaning of this product's process specifications and labeling is also obtained.

Preparation Method

The method of preparing 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- ((4- (2- (2,4-diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) -5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2) is related to raw materials and production processes, reaction steps, and catalytic mechanisms.
First take an appropriate amount of 2,7-naphthalene disulfonic acid raw material, supplemented with a specific ratio of 4-amino-3-related reactants, in a suitable reactor, adjust to a precise temperature, add the catalyst in sequence, and control the reaction time. During this time, closely monitor the reaction process to ensure that each step of the reaction is completed in sequence. After the reaction is completed, the product is finally obtained through purification, crystallization and other processes. The catalytic mechanism uses a precisely prepared catalyst to promote the efficient reaction, improve the purity and yield of the product, and follow this process to prepare this compound stably.

Chemical Reactions & Modifications

Guanfu 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- ((4- (2- (2,4-diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) -5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2) This compound, its chemical reaction and modification are related to many subtleties.
The chemical change of the husband is like the symmetry of yin and yang. The reaction of this compound, or under specific conditions, the interaction of functional groups, occurs coupling and substitution. Many amino groups, azo groups, etc. in its structure are active in the reaction. To change its properties, or to adjust the temperature and solvent of the reaction, or to add specific catalysts.
In this way, it is expected to make the reaction according to human intentions, or to optimize the purity of the product, or to change the physical and chemical properties of the compound, such as solubility and stability. Looking at past chemical studies, many compounds have been reacted and modified by exquisite reactions, resulting in extraordinary effects. This compound also has this potential. It is for our chemists to explore in depth, so that its characteristics can be developed and add luster to the field of chemistry.

Synonyms & Product Names

There is now a thing called 2,7-naphthalene disulfonic acid, 4-amino-3- (2 - (4 - (2 - (2 - (2, 4 - diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) - 5 -hydroxy-6- (2 - phenylazo) -, sodium salt (1:2). Its congeners, among various chemical products, have different names and trade names. This compound has a complex structure and is also an important material in the field of chemical research.
The name of the same kind may be called according to the different production methods and uses. The name of the product also depends on the needs of the market and the obvious characteristics. This related variant of 2,7-naphthalene disulfonic acid is used in dyeing, weaving, pigment and other industries. Its name of the same kind and the name of the product may help the industry and researchers to better understand its nature, make good use of its ability, and add bricks and tiles to the progress of the chemical industry, so as to make the best use of the material.

Safety & Operational Standards

In the field of chemistry, 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- (2- (2,4-diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) - 5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2) This chemical is discussed today. Its safety and operating standards are of great importance and should not be ignored.
Where this substance is involved, the operator must first understand its properties. This product may have special chemical activity, and it may have different reactions under different conditions. Therefore, when taking it, it must be measured accurately and not slightly deviated. And the place of handling should be well ventilated to avoid gas accumulation and accidents.
As for storage, it is advisable to choose a dry and cool place, avoid miscellaneous places with other things, and especially avoid sharing a room with chemicals that repel each other. Cover the two in contact, or cause violent changes, endangering safety.
Furthermore, the operator must wear protective equipment, such as gloves, eyepieces, protective clothing, etc., to prevent this object from coming into contact with the body, skin, eyes and eyes. If you accidentally touch it, you should apply corresponding rescue methods immediately. If it touches the skin, rinse quickly with plenty of water; if it enters the eye, it needs to be rinsed immediately and seek medical treatment.
In short, the handling of 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- (2- (2,4-diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) -5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2) is guaranteed by following safety and operating practices.

Application Area

There is now a substance called 2,7-naphthalene disulfonic acid, 4-amino-3- (2 - (4 - (2 - (2, 4 - diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) - 5 -hydroxy-6 - (2 - phenylazo) -, sodium salt (1:2). This substance is useful in many fields.
In the dyeing and weaving industry, it can be used as a dye to give fabrics a brilliant color, or bright and moving, or simple and elegant, making fabrics rich and lasting. In the process of scientific research, it is also an important reagent that helps researchers explore chemical mysteries and analyze the structure and properties of matter. In industrial production, or participating in certain chemical reactions, it adds to the manufacture of products and affects the quality and performance of products. This is the scope of its application and plays an important role in various fields.

Research & Development

Yu Su is familiar with chemistry and has been studying in the chemical industry for many years. The recent research of a product is called 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- (2- (2,4-diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) -5 -hydroxy-6- (2-phenylazo) -, sodium salt (1:2).
The research of this product is related to many things. To understand its properties, we must explore its structural composition and observe the wonderful structure of its molecules before we can understand its physical and chemical properties. Furthermore, the method of its preparation is also the key. It is necessary to find an efficient and green way, control the conditions of its reaction, and seek the purity of the product and the high yield.
As for the field of application, we should explore it widely. Or in the dyeing and weaving industry, it is a color-enhancing agent; or in the way of medicine, it is an active material. I will exhaust my mind and study its research and development in depth, hoping to make progress and contribute to the development of chemical industry.

Toxicity Research

Taste the chemical industry, new products emerge one after another, but the study of its toxicity is related to the health of people's livelihood and cannot be ignored. Today there is a thing called "2,7 - Naphthalenedisulfonic Acid, 4 - Amino - 3 - (2 - (4 - (2 - (2,4 - Diaminophenyl) Diazenyl) Amino) Carbonyl) Phenyl) Diazenyl) -5 - Hydroxy - 6 - (2 - Phenyldiazenyl) -, Sodium Salt (1:2) ".
My generation is a chemical toxicity researcher, and we should explore the toxicity of this product with caution. Looking at its chemical structure, the functional groups are complex, or contain potentially toxic groups. In the way of experiments, multiple methods are needed to simultaneously explore its impact on biological cells through cell experiments to see if it causes cell aberration and apoptosis. Repeat with animal experiments to observe its oral and percutaneous toxicity in detail, and observe its damage to organs.
The study of toxicity cannot be done overnight, and it must be persevered in order to accurately understand the toxicity of this product, provide a solid basis for chemical production and public protection, and ensure peace.

Future Prospects

Today, there is a product named 2,7-naphthalene disulfonic acid, 4-amino-3- (2 - ((4 - (2 - (2,4-diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) - 5 -hydroxy-6- (2 -phenylazo) -, sodium salt (1:2). As a chemical researcher, I often think about the future prospects of this product.
This material has a delicate structure, and its unique structure may be in the field of materials. Or it can become a new type of dye, with excellent color fastness and color, shining brightly in fabric printing and dyeing. Or it can make achievements in biomedicine, with its characteristics to help drug delivery be accurate.
Although it is only an idea at present, but the technology is new, with time, it will be able to explore its potential, contribute to human well-being, and open up new prospects in the future, so we will wait and see.

Frequently Asked Questions

2, 7-Naphthalenedisulfonic Acid, 4-Amino-3- (2- (4- ((4- (2- (2,4-Diaminophenyl) Diazenyl) Phenyl) Amino) Carbonyl) Phenyl) Diazenyl) -5-Hydroxy-6- (2-Phenyldiazenyl) -, What is the main use of Sodium Salt (1:2)

This is a rather complex organic compound, the full name is "2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- ((4- (2- (2,4-diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) - 5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2) ". Looking at its chemical structure, this compound contains many special functional groups and complex connection methods.
Such compounds have been used in the field of dyes in the past. Because the azo group and other structures in it can give the material a bright color, it is often used in dyeing processes such as fabrics and leather to obtain rich and diverse color effects.
Furthermore, in some specific chemical studies, due to its complex molecular structure, it can be used as a model compound to help researchers explore chemical basic theoretical issues such as intermolecular interactions, electron cloud distribution, and reactivity. Through the study of its properties and reactions, it can deepen the understanding of many basic principles in the field of organic chemistry, and provide theoretical support for the design and synthesis of subsequent new compounds.
In addition, in the embryonic stage of medicinal chemistry, some compounds with similar complex structures have also been explored for drug development, trying to find substances with potential biological activities, hoping to develop new therapeutic drugs. However, this application is still in the early stages of exploration and has limited success.

7-Naphthalenedisulfonic Acid, 4-Amino-3- (2- (4- ((4- (2- (2,4-Diaminophenyl) Diazenyl) Phenyl) Amino) Carbonyl) Phenyl) Diazenyl) -5-Hydroxy-6- (2-Phenyldiazenyl) -, What are the chemical properties of Sodium Salt (1:2)

This is a sodium salt of 2,7-naphthalene disulfonic acids, and its chemical structure is extremely complex. Looking at its molecular structure, it contains naphthalene rings, sulfonic acid groups, amino groups, hydroxyl groups, azo groups and other functional groups.
In terms of physical properties, this compound is in the form of sodium salts, and sodium salts have good water solubility. Because sodium ions can form hydrated ions with water molecules, it helps the compound to disperse and dissolve in water.
From the analysis of chemical properties, amino groups are basic and can react with acids to form salts; hydroxyl groups can participate in esterification, substitution and other reactions; azo-N = N- is a chromogenic group, giving the compound a specific color. Under the action of light or heat, azo groups may undergo cis-trans isomerization, or participate in some redox reactions, causing color or structural changes in the compound. Sulfonic acid groups are strongly acidic groups with high stability in the form of sodium salts. However, in a strong acid environment, they may be converted into free sulfonic acids.
The benzene ring part in its structure is relatively stable due to the conjugated system of the benzene ring, which makes the chemical properties of the compound relatively stable and can participate in electrophilic substitution reactions, such as halogenation, nitrification, sulfonation, etc. Due to its complex structure or unique physical and chemical properties such as optics and electricity, this compound may have potential applications in dyes, pigments, biomedicine and other fields.

2% 2C7-naphthalene disulfonic acid, 4-amino-3- (2- (4- ((4- (2- (2,4-diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) - 5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2) This substance has important physical properties.
Looking at its shape, under room temperature, it is either a solid state, or due to molecular structure and ionic characteristics, it shows the shape of a powder, which is delicate and uniform, and its fine particles can be observed by the eye. Its color is either dark or light due to the interaction of many complex functional groups, or a specific color, or a bright color, or due to chromogenic groups such as azo groups, to highlight the unique visual characteristics.
On solubility, because it contains sulfonic acid groups, the form of sodium salts is ionic, and it may have a certain solubility in water, or can be dissolved into a clear solution, or because of the large organic structure, the solubility may be limited. As for other solvents, organic solvents such as ethanol and acetone, or according to the principle of similar miscibility, depending on molecular polarity and group characteristics, may have different solubility behaviors, or slightly soluble, or insoluble.
Then again, its stability, the chemical bonds in the molecule, under normal conditions, may remain relatively stable. In case of high temperature, strong light, specific chemical reagents, etc., the structure of azo groups may change, causing reactions such as molecular rearrangement and decomposition, resulting in damage to its stability. Its melting point is also due to the combined action of intermolecular forces, ionic bonds and covalent bonds. At a specific temperature range, it may undergo a phase transition and melt from a solid state to a liquid state.
The physical properties of this object are due to its complex structure, and it exhibits various manifestations under different environmental conditions. It is an interesting object that can be explored in chemical research.

2% 2C7-naphthalene disulfonic acid, 4-amino-3- (2- (4- ((4- (2- (2,4-diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) - 5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2) This substance is in the production process, many matters need to be paid attention to.
The first to bear the brunt is related to the selection and control of raw materials. All kinds of raw materials used must be of extremely high purity. If there are too many impurities, the quality of the product will deteriorate. Like 2,4-diaminophenyl related raw materials, they must be strictly tested to ensure that their purity and content are correct before they can be put into production. Otherwise, side reactions will easily occur, affecting the structure and properties of the product.
Precise control of the reaction conditions is also crucial. A slight deviation in temperature and pH value may change the reaction process and product characteristics. This reaction temperature should be constant in a specific range, and the fluctuation should not be too large, otherwise the reaction rate may be out of control and the product will be impure. The pH value also needs to be carefully adjusted to create the best acid-base environment for the reaction to facilitate product formation.
Furthermore, the monitoring of the reaction process should not be underestimated. With the help of advanced analytical methods, such as high-performance liquid chromatography, mass spectrometry, etc., the reaction progress can be monitored in real time to gain insight into the formation of intermediates and products. Once an abnormality is found, the reaction parameters can be adjusted in time to avoid the generation of a large number of unqualified products, which only increases the cost and the difficulty of subsequent treatment.
The separation and purification of the product is also a key link. Due to its complex structure, separation and purification are not easy. Appropriate methods, such as crystallization, chromatography, etc., need to be used to remove impurities and improve the purity of the product. And in the process of separation and purification, beware of product denaturation or loss.
The safety and environmental protection of the production site cannot be ignored. Some raw materials and intermediates may be toxic and corrosive, so protective measures must be taken to ensure the safety of operators. At the same time, the waste generated by production needs to be properly disposed of in accordance with regulations to avoid polluting the environment. In this way, the smooth production process of this substance can be ensured and high-quality products can be obtained.

This chemical is called 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- ((4- (2- (2,4-diaminophenyl) azo) phenyl) amino) carbonyl) phenyl) azo) - 5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2). Its environmental impact is as follows:
This compound contains many complex organic groups and azo structures. Azo compounds may be partially toxic and bioaccumulative. In the natural environment, if released into water, it may affect aquatic organisms. Due to its complex structure, microbial degradation is quite difficult, or it persists in the water body for a long time. The polar groups such as amino and hydroxyl groups it contains may change the chemical properties of the water body, affect the pH and dissolved oxygen content of the water body, and then interfere with the survival and reproduction of aquatic organisms.
If it enters the soil environment, its molecular weight is large and the structure is complex, or it is adsorbed on the surface of soil particles, which affects the soil pore structure and aeration, and hinders the growth of plant roots and nutrient absorption. At the same time, the chemical elements it contains are leached in the soil or seep into the groundwater, polluting groundwater resources and threatening the safety of human drinking water.
Furthermore, this substance may undergo reactions such as photolysis and hydrolysis in the environment, and the generated degradation products may also pose environmental risks. After some azo structures decompose, aromatic amines may be produced, some of which have been proven to be carcinogenic and pose a potential threat to ecosystems and human health.