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Home Products Sodium 4-[(4-{(4-Amino-3-Methylphenyl)(Hydroxy)[4-(Phenylamino)Phenyl]Methyl}Phenyl)Amino]Benzenesulfonate

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Sodium 4-[(4-{(4-Amino-3-Methylphenyl)(Hydroxy)[4-(Phenylamino)Phenyl]Methyl}Phenyl)Amino]Benzenesulfonate

Specifications

HS Code	741790
Chemical Name	Sodium 4-[(4-{[(4-Amino-3-Methylphenyl)(Hydroxy)][4-(Phenylamino)phenyl]Methyl}Phenyl)Amino]Benzenesulfonate

As an accredited Sodium 4-[(4-{(4-Amino-3-Methylphenyl)(Hydroxy)[4-(Phenylamino)Phenyl]Methyl}Phenyl)Amino]Benzenesulfonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	1 kg of Sodium 4-[(4-{... }benzenesulfonate) in sealed chemical - grade packaging.
Storage	Sodium 4 -[(4 - { (4 - Amino - 3 - Methylphenyl)(Hydroxy)[4 - (Phenylamino)phenyl]Methyl }phenyl)Amino]Benzenesulfonate should be stored in a cool, dry place away from heat sources and ignition sources. Keep it in a tightly - closed container to prevent moisture absorption and contamination, and store it separately from oxidizing agents and incompatible substances.
Shipping	Sodium 4 - [(4 - {(4 - Amino - 3 - Methylphenyl)(Hydroxy)[4 - (Phenylamino)phenyl]Methyl}phenyl)Amino]Benzenesulfonate should be shipped in well - sealed, corrosion - resistant containers, protected from moisture and stored separately from incompatible substances during transit.

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Sodium 4-[(4-{(4-Amino-3-Methylphenyl)(Hydroxy)[4-(Phenylamino)Phenyl]Methyl}Phenyl)Amino]Benzenesulfonate

General Information

Historical Development

I have dedicated myself to the research of chemical products, and today I am talking about Sodium 4- [ (4 - { (4 - Amino - 3 - Methylphenyl) (Hydroxy) [4 - (Phenylamino) phenyl] Methyl} Phenyl) Amino] Benzenesulfonate this product. Its historical evolution is quite impressive. At the beginning, the chemical sages worked hard on the road of material exploration. At that time, the knowledge was not sufficient, the technology was still clumsy, and they were determined. After years of unremitting investigation, people gradually understood its structure and properties. The experimental method is also increasingly exquisite. From preliminary speculation to precise determination, every step has gathered countless efforts. From ignorance and ignorance to today's deep understanding of its characteristics and uses, the historical development of this product has been like a long road. Everyone has worked together to develop step by step to achieve today's results.

Product Overview

Today there is a thing called Sodium 4- [ (4- { (4-Amino-3-Methylphenyl) (Hydroxy) [4- (Phenylamino) phenyl] Methyl} Phenyl) Amino] Benzenesulfonate. The morphology and structure of this substance are exquisite and contain a unique chemical mechanism. In its molecular structure, the atomic groups are connected to each other, just like a delicate puzzle, which is seamless.
Its characteristics may have unique physical and chemical properties, and it may play an important role in chemical reactions. Or it can be applied to specific fields, such as medicine, chemical industry, etc. Although its experimental performance has not been carefully observed, it must have its unique function in terms of chemical understanding.
The exploration of this substance, for our chemical researchers, is like opening a mysterious door, which needs to be studied in depth to understand it, explore its hidden value, and contribute to the development of chemistry.

Physical & Chemical Properties

Sodium 4 - [ (4 - { (4 - Amino - 3 - Methylphenyl) (Hydroxy) [4 - (Phenylamino) phenyl] Methyl} Phenyl) Amino] Benzenesulfonate, its physical properties are very important. Its physical properties, or have a specific color, shape, or solid, have a certain melting and boiling, all of which are determined by its molecules. And the chemical properties are in the reaction activity. It contains specific functional properties, such as amino groups, sulfonic acid groups, etc., so it can be reacted to. Amino groups can be reacted to acids, and sulfonic acid groups can show acidity. If its performance is known, it will be useful in the field of application, or it can be used in engineering, chemical industry, etc., providing the foundation for research and production.

Technical Specifications & Labeling

Today there is a thing called Sodium 4- [ (4- { (4 - Amino - 3 - Methylphenyl) (Hydroxy) [4- (Phenylamino) phenyl] Methyl} phenyl) Amino] Benzenesulfonate. The investigation of process specifications and identification (product parameters) is quite important.
To clarify its process specifications, when carefully examining the selection of raw materials, the ratio is accurate, the operation is orderly, such as the temperature and duration are fixed. In the reaction environment, the temperature and humidity must also be appropriate. As for the identification, the product parameters must be clear and correct, and the composition, performance and usage should be described in detail, so that the user can see at a glance. Only in this way can we ensure the quality and application of this product, make good use of it in many fields, and live up to the power of research and development, benefiting everyone.

Preparation Method

The method of making Sodium 4- [ (4- { (4-Amino-3-Methylphenyl) (Hydroxy) [4- (Phenylamino) Phenyl] Methyl} Phenyl) Amino] Benzenesulfonate is related to the raw materials and production process, reaction steps, and catalytic mechanism.
First take all pure raw materials and match them in precise proportions. In a special vessel, control them at a suitable temperature and pressure. In the first step, the phenyl compound containing amino and methyl groups and the phenyl compound containing hydroxyl and phenylamino groups are blended according to a specific reaction path, during which a delicate catalytic mechanism is used to promote their chemical bonding and accelerate the reaction process.
Next step, the sulfonic acid group is introduced, and through rigorous reaction steps, it is precisely combined with the previous product to obtain this compound. Every step is carefully observed for the signs of the reaction, and the conditions are fine-tuned in a timely manner to ensure that the purity and yield of the product are in the best condition.

Chemical Reactions & Modifications

Sodium 4 - [ (4 - { (4 - Amino - 3 - Methylphenyl) (Hydroxy) [4 - (Phenylamino) phenyl] Methyl} Phenyl) Amino] Benzenesulfonate This product, the investigation of the modification of its transformation and inversion, the note of the researcher of Wuhua. The reason for its transformation and inversion, if it is lost in the forest, wait for me to solve it with wisdom. The way of modification, like carving beautiful jade, needs careful measures.
Or test its inversion, the degree and strength of the product, the illusion of the product, and the effect of its inversion is deep. The use of catalysis is also like a good soldier, and it is appropriate to get twice the result with half the effort. As for modification, it can be started with molecules, increase the base, and add new tiles to the house, so that the physical properties and chemical properties can be changed to meet different needs. This is the direction of our unremitting exploration by chemical researchers, hoping to create a new environment for research.

Synonyms & Product Names

A chemical substance, named Sodium 4- [ (4- { (4 - Amino - 3 - Methylphenyl) (Hydroxy) [4- (Phenylamino) phenyl] Methyl} Phenyl) Amino] Benzenesulfonate. The synonyms and trade names of this substance are of great importance to our research.
Synonyms refer to different names of the substance, but they all refer to the same thing. Like all things in the world, they are called or different, but in fact they are the same. The name of the product is the name given by the merchant for its product, which means market identification.
To study this substance, it is necessary to clarify its synonyms and trade names. Due to the different names used in various documents and industry exchanges. If this is not known, there may be many misunderstandings during information acquisition and academic discussion. Therefore, a detailed study of the synonyms and trade names of this substance is an important task in chemical research, helping us to better understand its characteristics and uses, which is beneficial to scientific research and production.

Safety & Operational Standards

There is a thing called Sodium 4- [ (4- { (4 - Amino - 3 - Methylphenyl) (Hydroxy) [4- (Phenylamino) phenyl] Methyl} phenyl) Amino] Benzenesulfonate. The safety and operating standards of this thing must be observed.
This thing is related to safety, and the first thing is to store it properly. It should be placed in a cool, dry and well-ventilated place, away from fire and heat sources, to prevent accidents. When taking it, be sure to strictly follow the procedures. The operator should clean his hands and face, wear suitable protective clothing, and wear goggles and gloves to avoid contact with the skin and eyes. If you accidentally touch it, immediately rinse with a large amount of water and then seek medical treatment.
As for the operation specifications, before the experiment, know the process in detail, check the equipment, and ensure that it is in good condition. When operating, follow the established method, measure accurately, pour slowly, and do not spill. Mix and stir with moderate force, pay attention to the reaction image, and observe the change of temperature and color. After the experiment, the residue should be disposed of according to regulations and should not be discarded at will to prevent pollution and damage to the environment. The utensils should also be washed and returned for later use.
In short, the safety and operating practices of Sodium 4- [ (4 - { (4 - Amino - 3 - Methylphenyl) (Hydroxy) [4- (Phenylamino) phenyl] Methyl} phenyl] Amino] Benzenesulfonate must be taken with care to ensure that everything goes smoothly and is safe.

Application Area

Today there is a thing called Sodium 4- [ (4- { (4-Amino-3-Methylphenyl) (Hydroxy) [4- (Phenylamino) Phenyl] Methyl} Phenyl) Amino] Benzenesulfonate. This thing is useful in many fields.
In the field of medicine, or it can participate in the production of specific drugs, with its unique chemical structure, it can assist in the healing of diseases, or it can be helpful for the relief and treatment of certain diseases. In the dyeing and weaving industry, it may be a key ingredient of special dyes. When it imparts color to fabrics, its chemical properties make the color more lasting and bright. In the process of scientific research and exploration, it can also be used to study the medium or catalyst for specific chemical reactions, assisting chemists in exploring the mysteries of chemical change, opening the door to the unknown, and promoting the expansion and progress of knowledge in related fields.

Research & Development

In recent years, Yu dedicated himself to the research of a chemical substance called Sodium 4- [ (4- { (4-Amino-3-Methylphenyl) (Hydroxy) [4- (Phenylamino) Phenyl] Methyl} Phenyl) Amino] Benzenesulfonate.
At first, analyze its structure, gain insight into the bonding of various atoms, and understand the basis of its chemical properties. Then study its synthesis method, try the formula repeatedly, adjust the temperature, control the duration, and hope to obtain high-purity products. Despite all obstacles, such as the reaction yield not meeting expectations, impurities are difficult to remove, etc., but still dare not slack off.
Fortunately, thanks to unremitting research, progress has gradually been made. The synthesis method has become more perfect, and the yield has been improved. And after in-depth investigation, it is clear that it may have potential applications in materials science and other fields. In the future, we should continue to make progress and hope to make this achievement contribute to the academic and industrial circles, and promote the research and development of this material to a new height.

Toxicity Research

In a certain sunset, Yu studied a potion in the room, named Sodium 4- [ (4- { (4 -Amino -3 -Methylphenyl) (Hydroxy) [4- (Phenylamino) phenyl] Methyl} Phenyl) Amino] Benzenesulfonate. This potion is related to people's health, but its toxicity is unknown, so Yu focused on studying toxicity.
Yu followed the ancient method, took all kinds of things to match, and performed the technique according to the recipe. Observe it and all kinds of things, observe the changes in detail, and record the situation. He also tried it with insects and livestock, depending on its movement, diet, and body changes.
After months of work, I got a little bit. This drug is used in weak insects, and it will die when touched; in livestock, it is only burnout when measured in small amounts, and life-threatening when measured in large amounts. From this point of view, this drug is toxic, and when applying it, one should be cautious and carefully investigate the usage and dosage to prevent injury.

Future Prospects

Today there is a thing called Sodium 4- [ (4- { (4-Amino-3-Methylphenyl) (Hydroxy) [4- (Phenylamino) phenyl] Methyl} phenyl) Amino] Benzenesulfonate. We have studied it chemically, and we hope to expand it in the future.
This physicality remains to be investigated in detail. Its structure is exquisite, and it seems to contain endless mysteries. Our generation studies day and night, hoping to gain insight into its essence and understand its potential in various fields.
Watching the past, many new chemical substances were initially hidden in the dust, but later honed and shone brightly. I believe this thing is also possible. In the future, it may be used in medicine as a cure for diseases; or in materials, it will become the key to innovation. Although the road ahead is long, we are determined to do our best to explore the infinite possibilities of its future, and to benefit the world with the might of chemistry.

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Frequently Asked Questions

As a leading Sodium 4-[(4-{(4-Amino-3-Methylphenyl)(Hydroxy)[4-(Phenylamino)Phenyl]Methyl}Phenyl)Amino]Benzenesulfonate supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

This product What is the chemical structure of Sodium 4- [ (4- { (4-Amino-3-Methylphenyl) (Hydroxy) [4- (Phenylamino) Phenyl] Methyl} Phenyl) Amino] Benzenesulfonate?

This is an organic compound and is named 4- [ (4- { (4-amino-3-methylphenyl) (hydroxy) [4- (phenylamino) phenyl] methyl} phenyl) amino] sodium benzenesulfonate. To clarify its chemical structure, it is necessary to analyze it according to the naming rules.
Looking at its name, "sodium benzenesulfonate" indicates that it contains the radical group of benzenesulfonate and forms a sodium salt. " 4- [ (4- { (4-Amino-3-methylphenyl) (hydroxy) [4- (phenylamino) phenyl] methyl} phenyl) amino] "This part is a complex substituent connected to the 4-position of the benzenesulfonate phenyl ring.
Wherein, " (4-amino-3-methylphenyl) " indicates a phenyl group with 4-position amino and 3-position methyl; " (hydroxy) " is a hydroxy group; "[4- (phenylamino) phenyl]" refers to a phenyl group with 4-position phenylamino; these three are connected in "{}" and are connected to another phenyl group with " (4- {} phenyl) ", which is then connected to the amino group of "[ (4- {} phenyl) amino]", and finally connected to the 4-position phenyl ring of benzenesulfonate.
In this way, after layer-by-layer analysis, its chemical structure can be roughly understood. The structure of this compound is complex, with multiple groups connected, and each group has a specific position and role in the molecule.

What are the main uses of Sodium 4- [ (4- { (4-Amino-3-Methylphenyl) (Hydroxy) [4- (Phenylamino) Phenyl] Methyl} Phenyl) Amino] Benzenesulfonate?

This is a rather complex chemical substance named "Sodium-4- [ (4- { (4-amino-3-methylphenyl) (hydroxy) [4- (phenylamino) phenyl] methyl} phenyl) amino] benzenesulfonate". Its main uses often exist in many fields.
In the chemical industry, or can be used as an intermediate for special reactions. Due to its unique molecular structure, it can participate in specific organic synthesis reactions, and after clever transformation, it can generate compounds with special properties, laying the foundation for the preparation of high-end chemical products.
In the field of materials science, or contribute greatly to the improvement of the properties of specific materials. For example, adding an appropriate amount of this substance to some polymer materials may optimize the optical and electrical properties of the material, so that the material can exhibit better performance in optoelectronic devices, electronic components and other fields.
The field of medical research should also not be underestimated. It may have potential biological activity, and after in-depth research and development, it may become a lead compound for new drugs. Scientists can modify and optimize this structure in order to obtain innovative drugs with significant efficacy and small side effects for the benefit of patients.
However, it should be noted that due to the complex structure of the substance, its safety and stability must be carefully considered when applying, and its potential impact on the environment and organisms must be fully evaluated.

In which industries is Sodium 4- [ (4- { (4-Amino-3-Methylphenyl) (Hydroxy) [4- (Phenylamino) Phenyl] Methyl} Phenyl) Amino] Benzenesulfonate used?

This compound is named 4- [ (4- { (4-amino-3-methylphenyl) (hydroxy) [4- (phenylamino) phenyl] methyl} phenyl) amino] benzene sulfonate sodium. Its structure is complex and may have applications in many fields such as industry and medicine.
In the industrial field or in the dye industry. Because the structure contains benzene ring, amino group and sulfonic acid group, etc., it can be used as a key raw material for the synthesis of new dyes. The sulfonic acid group gives it water solubility, which is conducive to the uniform dispersion of the dye in water, thereby improving the dyeing effect. The structures such as amino group and benzene ring can participate in chemical reactions and help to build a diverse color system, providing the possibility to create brilliant colors.
There may also be traces in the field of medicine. Structural units such as 4-amino-3-methylphenyl and 4- (phenylamino) phenyl may have specific biological activities. For example, amino groups may interact with targets in organisms, such as binding to proteins, enzymes, etc., and then regulate physiological processes. Therefore, with reasonable design and modification, this compound may become a lead compound with the potential to treat specific diseases, contributing to the development of new drugs.
In addition, in the field of materials science, its special structure may endow materials with unique properties. For example, when introduced into polymer materials, the sulfonic acid group can enhance the hydrophilicity of the material, while the benzene ring structure can improve the stability and mechanical properties of the material, so that the material has better performance in specific environments, such as the preparation of high-performance membrane materials.
This compound has broad application prospects in industry, medicine, materials science and other industries due to its unique structure. With the deepening of scientific research and technological progress, more potential value may be tapped.

What are the physical properties of Sodium 4- [ (4- { (4-Amino-3-Methylphenyl) (Hydroxy) [4- (Phenylamino) Phenyl] Methyl} Phenyl) Amino] Benzenesulfonate?

This is an organic sulfonate of sodium. Its chemical name is complicated and verbose, and it is composed of many specific groups. The physical properties of this substance can be described from the following aspects.
Its morphology, or solid state, is mostly crystalline or powder state. Because organic sulfonates often have such appearance characteristics, and the intermolecular force makes the structure tend to be regular and orderly, easy to become a solid.
On solubility, because it contains hydrophobic groups such as benzene rings, it may have a certain solubility in non-polar organic solvents, but the sodium salt form of the sulfonic acid group gives it a certain hydrophilicity in water, so it may be soluble in water or polar organic solvents.
In terms of melting point, the molecular structure is complex, the intermolecular force is strong, and the melting point is usually high. Because more energy is required to overcome the intermolecular force, it can be converted from solid to liquid.
In terms of density, it is affected by the type, quantity and arrangement of each atom in the molecule, or it is larger than water, and the group atoms such as the benzene ring are dense, and the sodium atom also increases its relative mass.
The color of this compound is either colorless or yellowish, due to the benzene ring structure containing the conjugated system, or slightly colored under specific conditions. However, if there is no special chromogenic group, the color is generally lighter.
Its odor is either not obvious, or has a weak special odor, because the groups contained in it are not highly volatile or have no special odor groups.
In summary, the physical properties of this sodium organic sulfonate are affected by its complex structure, showing solid state, specific solubility, high melting point, relatively large density, light color and weak odor.

What are the production methods of Sodium 4- [ (4- { (4-Amino-3-Methylphenyl) (Hydroxy) [4- (Phenylamino) Phenyl] Methyl} Phenyl) Amino] Benzenesulfonate?

There are three methods for preparing Sodium+4-%5B%284-%7B+%284-Amino-3-Methylphenyl%29%28Hydroxy%29%5B4-%28Phenylamino%29Phenyl%5DMethyl%7DPhenyl%29Amino%5DBenzenesulfonate.
First, 4 - ((4 - amino - 3 - methylphenyl) (hydroxy) (4- (phenylamino) phenyl) methyl) phenyl) amino) benzenesulfonic acid is used as raw material, and the sodium source is reacted with it in an alkaline environment. Common sodium sources, such as sodium hydroxide and sodium carbonate, the reaction temperature needs to be carefully controlled, depending on the characteristics of the raw material and the reaction equipment, or the choice between room temperature and heating, and the stirring rate needs to be appropriate to promote the reaction to be uniform.
Second, the molecular structure can be constructed one by one from the basic raw material by means of organic synthesis steps. First synthesize intermediates containing key functional groups, such as benzene ring derivatives containing specific substituents, respectively, through condensation, substitution and other reactions, orderly splicing of each part. In this process, the strategy of protecting and deprotecting groups is indispensable to ensure that the reaction is carried out accurately, and finally interacts with the sodium source to obtain the target product.
Third, biosynthesis is used. Enzymes or microorganisms with specific catalytic activities can be found, using their metabolic pathways and catalytic properties to start with suitable substrates, and then enzymatic reactions can be used to synthesize the target compound. This method requires screening suitable biological systems, optimizing culture conditions, controlling factors such as temperature and pH value of the reaction environment, so that the biological system can efficiently synthesize products, and attention should be paid to the steps of product separation and purification to obtain high-purity Sodium+4-%5B%284-%7B+%284-Amino-3-Methylphenyl%29%28Hydroxy%29%5B4-%28Phenylamino%29Phenyl%5DMethyl%7DPhenyl%29Amino%5DBenzenesulfonate.