Disodium 8-(Phenylamino)-5-((4-(Phenylazo)-7-Sulphonato-1-Naphthyl)Azo)Naphthalenesulphonate

Lingxian Chemical

Specifications

HS Code	788724
Chemical Formula	C32H22N6Na2O6S2
Molecular Weight	696.68 g/mol
Appearance	Orange - red powder or granules
Solubility	Soluble in water
Ph Range	Typically used in neutral - slightly acidic media
Absorption Wavelength	Absorbs in the visible region, around 500 - 550 nm
Stability	Stable under normal conditions, but may decompose on exposure to strong oxidizing agents
Use	Used as a dye in textiles, leather, and paper industries
Toxicity	Relatively low acute toxicity, but may cause skin and eye irritation
Storage Conditions	Store in a cool, dry place away from direct sunlight

Packing & Storage

Packing	1 - kg pack of Disodium 8-(Phenylamino)-5-((4-(Phenylazo)-7-Sulphonato-1-Naphthyl)Azo)Naphthalenesulphonate.
Storage	Store "Disodium 8-(Phenylamino)-5-((4-(Phenylazo)-7-Sulphonato-1-Naphthyl)Azo)Naphthalenesulphonate" in a cool, dry place. Avoid exposure to direct sunlight and sources of heat, as light and high temperatures can degrade the chemical. Keep it in a tightly - sealed container to prevent moisture absorption, and store separately from incompatible substances like strong oxidizing agents or acids to ensure safety and chemical stability.
Shipping	Disodium 8-(Phenylamino)-5-((4-(Phenylazo)-7 -Sulphonato-1-Naphthyl)Azo)Naphthalenesulphonate is shipped in accordance with strict chemical transport regulations, likely in sealed containers to prevent exposure and ensure safe transit.

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Disodium 8-(Phenylamino)-5-((4-(Phenylazo)-7-Sulphonato-1-Naphthyl)Azo)Naphthalenesulphonate

General Information

Historical Development

To observe the chemical things of the world, there are Disodium 8- (Phenylamino) -5- ((4- (Phenylazo) -7-Sulphonato-1-Naphthyl) Azo) Naphthalenesulphonate. The rise of its things does not happen overnight. In the past, chemistry was not yet prosperous, and everyone was still shallow in the study of substances. However, those with lofty ideals studied the matter and made unremitting explorations.
It was the first time that ancestors paid attention to such synthesis methods. After years of study, they obtained the clue of the preparation of this substance. At the beginning, the preparation was difficult and the yield was meager, but everyone did not give up. With the passage of time and the advancement of technology, the deeper the understanding of this object, the more exquisite the preparation method. From the crude at the beginning to the refined in the future, the changes during this period all depend on the efforts of the sages. The historical evolution of this material is like a boat on a long river, although there are twists and turns, it will eventually reach the realm of light.

Product Overview

There is now a product named Disodium 8- (Phenylamino) -5- ((4- (Phenylazo) -7-Sulphonato-1-Naphthyl) Azo) Naphthalenesulphonate. This is a product of fine chemicals and is very useful in the chemical industry. Its appearance may show a specific color state, and the stability of its properties is related to practical application.
The method of synthesizing this product requires exquisite craftsmanship and precise steps to obtain it. From the selection of raw materials to the control of reactions, it is necessary to be rigorous. In terms of application, or for dyeing and weaving, it can give fabrics brilliant color; or for scientific research, it can provide a key agent for experiments.
Although this product is valuable in many ways, when using it, you should also pay attention to safety regulations and follow the operation procedures to avoid accidents and ensure that it can serve the required needs safely and effectively.

Physical & Chemical Properties

The physical and chemical properties of 8- (phenylamino) -5- ((4- (phenylazo) -7-sodium sulfonate-1-naphthyl) azo) naphthalene sulfonate sodium disodium salt are particularly important. Its color or distinct state is related to its application in many scenes. Looking at its solubility, it may be soluble or insoluble in specific solvents. This property affects its deployment and use.
When it comes to stability, under different temperature, humidity, light and other conditions, its structure may change. At high temperature, it may decompose, causing it to lose its original characteristics. When exposed to light, it may also cause luminescent chemical reactions to change its properties.
and the interaction of groups in its molecular structure determines its many properties. Groups such as benzenazo and sodium naphthalenesulfonate endow it with unique reactivity and play key roles in chemical reactions, affecting its reaction pathways and products with other substances.

Technical Specifications & Labeling

There is a product today, named Disodium 8- (Phenylamino) -5- ((4- (Phenylazo) -7-Sulphonato-1-Naphthyl) Azo) Naphthalenesulphonate. In Siwu, the process specification and identification (commodity parameters) are the key.
Looking at the process specification, it is necessary to clarify the preparation method, from the selection of raw materials, the precision of the ratio, to the reaction conditions, such as temperature, duration, pressure and other factors, must be precisely controlled to obtain its good products. And in the preparation process, the connection of each step and the details of operation must not be lost.
When it comes to the identification, the commodity parameters should be specified in detail. Its chemical structure, purity geometry, physical properties, such as color and shape, should be clearly marked. It is essential for the user to understand its applicability and suitability. In this way, the chemical can be made in accordance with the specifications, marked clearly, and used in all parties to fulfill its function.

Preparation Method

The method of preparing Disodium 8- (Phenylamino) -5- ((4- (Phenylazo) -7-Sulphonato-1-Naphthyl) Azo) Naphthalenesulphonate is related to the raw materials and production process, reaction steps and catalytic mechanism, which are described in detail as follows.
First take an appropriate amount of naphthalene-based sulfonic acid raw materials, place them in a special reactor, and add aniline derivatives in a specific ratio. The temperature is controlled at tens of degrees Celsius, and an appropriate amount of catalyst is added to catalyze the condensation reaction of the two first. During this period, the reaction process is closely monitored, and the temperature is fine-tuned according to its rate and degree.
After the condensation is completed, slowly inject the diazonium salt solution to carry out the coupling reaction. This step requires precise temperature control and speed control to make the reaction advance steadily in the desired direction. After several hours, the reaction came to an end, and the product appeared initially.
Later, through separation and purification steps, impurities were removed and a pure product was obtained. The whole process, raw material selection, proportional preparation, temperature control, and catalytic mechanism were all key, and it was difficult to produce this product without one.

Chemical Reactions & Modifications

There is now a substance called Disodium 8- (Phenylamino) -5- ((4- (Phenylazo) -7-Sulphonato-1-Naphthyl) Azo) Naphthalenesulphonate. In the field of chemistry, its reaction and modification are crucial.
Looking at the reaction of this substance, various conditions have a significant impact. Changes in temperature and pH can make the reaction direction and speed vary. If the temperature is increased, it can accelerate the reaction, but it may also cause side reactions.
As for modification, it is designed to make its performance better. Or change its structure to make it soluble; or increase its stability to suit various environments. Through ingenious methods, such as the introduction of specific groups, it can be made unique in terms of light, electricity, etc., and is widely used in dyeing, materials, and other industries, which is of great benefit.

Synonyms & Product Names

The rise of modern chemistry, the nature and change of research substances, there is a name Disodium 8- (Phenylamino) -5- (4- (Phenylazo) -7-Sulphonato-1-Naphthyl) Azo) Naphthalenesulphonate. The matter of the same thing and different names is related to theoretical inquiry and practicality.
The same thing but different names have been in ancient times. Chemical substances, because of the many researchers, different regions, the first name or complex or simple, from time to time different. And its name or according to the composition, or according to the characteristics, or from the person who discovered it, so the same and different names. Such as the drug, or according to its structure called a benzonaphthalenesulfonate sodium, or according to its use do not call one. This synonym is easy to be confused in the academic world, causing inconvenience in communication, but it can also see the twists and turns of exploration and the gradual progress of cognition.
The progress of chemistry requires an explanation of the synonym of synonyms. One can make the theory smooth, and the other can help the practicality and accuracy. Those who study this thing must carefully examine the change of its title and clarify what the names refer to, so as to achieve the state of knowledge and application.

Safety & Operational Standards

Today, there is a thing called Disodium 8- (Phenylamino) -5- ((4- (Phenylazo) -7-Sulphonato-1-Naphthyl) Azo) Naphthalenesulphonate, which is very important in chemical research. The safety and operating standards of this thing are of paramount importance and cannot be ignored.
When operating, the first thing to ensure is that the place is well ventilated. This substance may contain irritating or harmful ingredients. If the ventilation is not smooth, its volatile gas will gather in one place, which may harm the human body. Therefore, there should be good ventilation equipment in the operation room to keep the air fresh.
Furthermore, the operator must wear appropriate protective equipment. Protective clothing can protect your hands from direct contact with the body, gloves can protect your hands from touching the object, and protective glasses can protect your eyes from damage. Never discard protection for a moment.
There are also regulations for storing this substance. When placed in a cool, dry place away from fire sources. If the environment is humid, or its properties change; if it is close to the fire source, there is a risk of ignition and explosion, the consequences are unimaginable.
During use, be sure to follow the established operating procedures. Weighing, mixing and other steps should be done with caution, and the order or dosage should not be changed without authorization. A slight error, or abnormal reaction, endangers safety.
The safety and operation of this substance are related to the safety of the researcher and the smooth progress of the research. Only by strictly observing the norms can we ensure the safety of everything and the success of the research.

Application Area

In modern times, chemical refinement has made new things appear frequently. There is a name Disodium 8- (Phenylamino) -5- (4- (Phenylazo) -7-Sulphonato-1-Naphthyl) Azo) Naphthalenesulphonate. This substance is very effective in the field of printing and dyeing. It can be used as a dye, with bright color and good fastness. After dyeing the fabric, the color is not easy to fade, so it is commonly used in clothing and home textiles. In paper dyeing, it can also add color and color, making the paper attractive. And in the preparation of ink, it can optimize the quality, make the handwriting clear and bright. Its wide application helps all industries shine, and it is a good material for industry, making the finished product more attractive and valuable. It is really one of the great boosts for chemical applications.

Research & Development

There is a substance called Disodium 8- (Phenylamino) -5- ((4- (Phenylazo) -7-Sulphonato-1-Naphthyl) Azo) Naphthalenesulphonate. As a chemical researcher, I have worked hard on the research and development of this substance.
Looking at the structure of this substance, it is very delicate and complex. To study its characteristics and uses, many experiments are required. First, use various instruments to measure its physical properties, such as color, morphology, melting point, etc., and set up various reactions to explore its chemical activity.
After long-term research, it has been found that this substance may have unique functions in specific fields. If you want to develop and apply it, many problems need to be overcome. For example, the preparation method needs to be simpler and more efficient; the cost control must be low.
We should make unremitting efforts to explore this object in depth through scientific methods, with the hope that it can be widely used in industry, life, etc., for the well-being of mankind, and to promote the progress and development of the field of chemistry.

Toxicity Research

Today, there is a substance called Disodium 8- (Phenylamino) -5- ((4- (Phenylazo) -7-Sulphonato-1-Naphthyl) Azo) Naphthalenesulphonate, and I am a toxicologist to explore its toxicity. This substance has a complex structure and contains groups such as phenylamino and azo groups, which are often associated with toxicity.
Looking at past studies, objects with similar structures may pose a risk of carcinogenesis and teratogenesis. I would like to observe it experimentally, select suitable organisms as samples, and set up multiple groups of controls to observe its impact on biological growth, development and physiological functions.
If the experiment proves that it is toxic, please inform everyone that when producing and using it, strictly follow the regulations to prevent it from harming life and protect the environment and personal safety. I will do it diligently to find out the toxicity of this substance, and live up to my trust.

Future Prospects

Looking at this Disodium 8- (Phenylamino) -5- ((4- (Phenylazo) -7-Sulphonato-1-Naphthyl) Azo) Naphthalenesulphonate, it has an unlimited future prospect in the field of our chemical research. Although it is known at the moment, it is only its appearance, but if you carefully study its quality and observe its properties, it can be seen that this substance may be able to shine in the art of dyeing.
Think about the future, or it can be used in fabrics to make their color bright and lasting, not afraid of the passage of time. Or in the printing industry, add its unique beauty, make the pictures and texts vivid. And its structure is exquisite, or it can make a contribution to the creation of new materials and create a new situation.
Our scientific researchers should explore its endless potential with diligence and research. With unremitting efforts, we hope to see this thing bloom brightly in the future, bring innovation to various industries, and live up to our expectations for the future.

Frequently Asked Questions

What is the main use of this product 8- (phenylamino) -5- ((4- (phenylazo) -7-sulfonyl-1-naphthyl) azo) sodium naphthalene disulfonate

The name of this drug is 8- (benzyloxy) -5- ((4- (benzylamino) -7-hydroxy-1-naphthyl) amino) cobalt naphthalene diphenolic acid. Its main use may not be accurate in the era involved in "Tiangong Kaiwu", but it is viewed from the perspective of today.
In the field of medicine, it may have potential medicinal value. Because many compounds containing cobalt and complex organic structures have been studied to act on human physiological mechanisms. For example, some cobalt complexes can participate in the physiological processes related to vitamin B _ 2, regulate cell metabolism, nervous system function, etc. In this compound, naphthalene diphenolic acid, benzyl, naphthalene and other structures can be modified to bind to specific biological targets to exert antibacterial, anti-tumor, and immune-regulating effects.
In materials science, cobalt often imparts unique magnetic and electrical properties to materials. The complex structure of this compound may be prepared by special processes with specific properties. For example, it can be used as a photoelectric device material. Due to its structure of polycyclic aromatic hydrocarbons or good photoelectric conversion ability, it has potential in organic solar cells, Light Emitting Diode and other fields.
In the field of catalysis, cobalt-based catalysts are widely used. The structure of this compound may make it catalytically active in specific chemical reactions, such as organic synthesis reactions. Its unique structure can provide a specific activity check point, promote the adsorption, activation and transformation of reactant molecules, improve the reaction efficiency and selectivity, and is used in the synthesis of fine chemicals and drug intermediates.

What are the precautions for using 8- (phenylamino) -5- ((4- (phenylazo) -7-sulfonyl-1-naphthyl) azo) naphthalene disulfonate sodium?

8- (pyridine) -5- ((4- (pyrimidine) -7-indicative-1-urea) carbonyl) urea dioxy acid cobalt in the use process, should pay attention to the following points:
First, because of its special chemical structure, the reaction environment requirements are strict. In terms of temperature, too high is easy to decompose, and too low is slow to react. For example, it is like cooking a delicacy. If the temperature is not controlled, it will be difficult for the dish to achieve the desired taste. The pH of the reaction system cannot be ignored. Peracid or peralkali may interfere with the reaction process and affect the purity and yield of the product.
Second, this substance may be toxic and corrosive to a certain extent. When operating, be sure to take protective measures, wear protective clothing, goggles and gloves to prevent direct contact with the skin and eyes. If you come into contact accidentally, you should immediately rinse with plenty of water and seek medical attention according to the specific situation. This is like being in a dangerous place, and you must be fully armed to prevent accidents.
Third, storage conditions are crucial. It should be stored in a dry, cool and well-ventilated place, away from fire sources and oxidants. Due to its lively nature, it is easy to cause dangerous reactions when encountering specific substances or conditions. Like flammable and explosive materials, it needs to be properly placed away from fire sources to ensure safety.
Fourth, when weighing and transferring operations, the action should be precise and rapid. Because it is prone to moisture or reacts with components in the air, a little carelessness will affect the experimental results. Just like the precise preparation of a drug, the difference is very different, and the curative effect is very different.
Fifth, the waste generated during use cannot be discarded at will. It needs to be properly disposed of in accordance with relevant regulations to prevent pollution of the environment. This is a responsible act for the environment, just like maintaining a clean home, everyone is responsible.

What are the physicochemical properties of sodium 8- (phenylamino) -5- ((4- (phenylazo) -7-sulfonyl-1-naphthyl) azo) naphthalene disulfonate

This is about the physicochemical properties of cobalt 8- (pyridyl) -5 - ((4- (pyridyloxy) -7-pyridyl-1-naphthyl) oxy) naphthalene dioxate. This compound has the following physicochemical properties:
Looking at its properties, it is mostly in solid form under normal conditions. Due to factors such as intermolecular forces, the molecules are arranged in an orderly manner to cause the substance to condense into a solid state, which is easy to store and use under specific conditions.
In terms of solubility, it has certain solubility in common organic solvents such as ethanol and dichloromethane. Due to the fact that the molecular structure of the compound contains polar and non-polar parts, interactions such as van der Waals forces and hydrogen bonds can be formed between the molecules of the organic solvent, which is conducive to its dispersion in the solvent. However, the solubility in water is not good, and the edge water is a strong polar solvent, and the interaction with the compound molecules is weak, so it cannot effectively overcome the intermolecular forces to disperse the compound.
In terms of thermal stability, the compound exhibits a certain degree of stability. When heated, the chemical bonds in the molecule need to absorb enough energy to break, resulting in structural changes. Due to the existence of conjugated systems and metal-ligand coordination bonds in the molecule, the structural stability is enhanced, and the decomposition temperature is higher. However, at a certain high temperature, the chemical bond energy is sufficient to overcome the bond energy, and the molecular structure is destroyed.
Chemical stability is also an important property. Under general environmental conditions, such as room temperature and pressure, no strong oxidants or reducing agents, it can maintain structural stability. However, in case of specific chemical reagents such as strong acids and bases, the molecular structure may change. Because of its structure, groups such as pyridyl and naphthyl can react with acid and base, affecting the overall chemical stability.
In summary, 8- (pyridyl) -5 - ((4- (pyridyloxy) -7 -phenyl-1 -naphthyl) oxy) cobalt naphthalene dioxate has unique physical and chemical properties, which have far-reaching influence in materials science, chemical synthesis and other fields, providing a basis for its application.

What is the production process of sodium 8- (phenylamino) -5- ((4- (phenylazo) -7-sulfonyl-1-naphthyl) azo) naphthalene disulfonate?

To prepare 8- (benzoylamino) -5- ((4- (benzoxazolyl) -7-quinolinyl-1-naphthyl) carbonyl) naphthaleno [2,3-c] chromene-2-carboxylic acid cadmium, the production process is as follows:
Take an appropriate amount of benzoyl chloride first, and add it dropwise to the reaction vessel containing the amino compound in a low temperature environment. This process needs to be carried out slowly, and stirred at the same time to make the two fully react to generate 8- (benzoylamino). During the reaction, the temperature and dripping speed need to be strictly controlled to prevent side reactions from occurring.
Then 4- (benzoxazolyl) -7-quinolinyl-1-naphthyl related compounds are mixed with the above products in a certain proportion, and a specific organic solvent is added. Under the action of a suitable temperature and catalyst, the carbonylation reaction is promoted, and the 5- ((4- (benzoxazolyl) -7-quinolinyl-1-naphthyl) carbonyl) structure is constructed. This step of the reaction is critical to the control of temperature, catalyst dosage and reaction time, and precise operation is required to ensure the high efficiency of the reaction and the purity of the product.
Then, the product obtained above is further combined with naphthaleno [2,3 - c] chromene-2 - cadmium carboxylate precursor material, under alkaline conditions, heated in a specific solvent reaction, through a series of complex chemical transformation, the final formation of the target product 8- (benzoylamino) -5- (4- (benzoxazolyl) -7 - quinolinyl-1 - naphthalene) carbonyl) naphthaleno [2,3 - c] chromene-2 - cadmium carboxylate. After the reaction, the product is purified through post-processing steps such as filtration, washing, and recrystallization to obtain a high-purity product. The entire production process is closely linked to each step, and the requirements for reaction conditions are strict. Only by strictly following the operating specifications can the quality and yield of the product be guaranteed.

What are the advantages of sodium 8- (phenylamino) -5- (4- (phenylazo) -7-sulfonyl-1-naphthyl) azo) naphthalene disulfonate over other similar products?

The sulfhydryl ethanol is superior to other similar products.
First, it has excellent activity. The sulfhydryl group contained in sulfhydryl ethanol has extremely high chemical activity and can quickly participate in many chemical reactions, making the reaction process more smooth. For example, in the reduction reaction of disulfide bonds between protein polypeptide chains, it can efficiently disassemble disulfide bonds and change the protein structure. This property can be easily achieved by non-other substances. Compared with other reducing agents, its reaction rate is faster, and the predetermined reaction effect can be achieved in a shorter time, saving a lot of time for experimentation and production.
Second, the selectivity is quite good. In complex reaction systems, mercaptoethanol can precisely select specific groups to carry out their functions. Taking some biomolecular modification reactions as an example, it only affects the parts containing disulfide bonds, and has little interference with the rest of the molecule, thus greatly improving the purity and accuracy of the reaction. Compared with other products, which often cause frequent side reactions due to poor selectivity, mercaptoethanol has obvious advantages in this regard and can ensure the high purity of the target product.
Third, good stability. Under conventional storage and use conditions, mercaptoethanol is stable and not easy to decompose or deteriorate by itself. This property makes it extremely convenient for preservation and transportation, and researchers and producers do not need to worry about its storage conditions. On the other hand, some similar products have strict requirements on the storage environment, and it is easy to deactivate or deteriorate if the temperature and humidity change slightly. Mercaptoethanol has no such fear and can maintain its active ingredients and properties for a long time.
Fourth, it has a wide range of applications. Whether it is protein research in the field of biochemistry, nucleic acid modification in molecular biology, or synthetic reactions in pharmaceutical and chemical industries, mercaptoethanol can show its skills. Its wide applicability makes it popular in different industries and research directions, and it has become an indispensable key reagent in many experiments and production processes.