Disodium 4-((2,4-Dihydroxy-3-((4-Sulphonatophenyl)Azo)Phenyl)Azo)Naphthalene-1-Sulphonate

Lingxian Chemical

Specifications

HS Code	362616
Chemical Formula	C28H18N6Na2O10S2
Molecular Weight	720.69 g/mol
Appearance	Typically a colored powder (color may vary based on the nature of azo groups)
Solubility	Soluble in water due to sulphonate groups
Ph In Solution	Neutral to slightly basic depending on concentration
Chemical Class	Azo - based sulfonated naphthalene derivative
Stability	Stable under normal conditions but may be sensitive to strong oxidizing agents
Absorption Wavelength	Absorbs in the visible light range, characteristic of azo dyes
Chromophore	Azo groups (-N=N-), responsible for color
Toxicity	Toxicity can vary; some azo dyes may pose health risks, but specific data depends on further studies

Packing & Storage

Packing	500 - gram pack of Disodium 4-[(2,4 - Dihydroxy - 3 - [(4 - Sulphonatophenyl)Azo]Phenyl)Azo]Naphthalene - 1 - Sulphonate.
Storage	Disodium 4-((2,4 - Dihydroxy - 3 - ((4 - Sulphonatophenyl)Azo)Phenyl)Azo)Naphthalene - 1 - Sulphonate should be stored in a cool, dry place away from heat sources. Keep it in a well - sealed container, protected from direct sunlight and moisture. Avoid storage near incompatible substances to prevent potential reactions or degradation of this chemical.
Shipping	The chemical, Disodium 4-[(2,4 - Dihydroxy - 3 - [(4 - Sulphonatophenyl)Azo]Phenyl)Azo]Naphthalene - 1 - Sulphonate, is shipped in specialized containers. Care is taken to ensure stability during transit, as it may require protection from environmental factors.

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Disodium 4-((2,4-Dihydroxy-3-((4-Sulphonatophenyl)Azo)Phenyl)Azo)Naphthalene-1-Sulphonate

General Information

Historical Development

There is a chemical object, named Disodium 4- ((2,4-Dihydroxy-3- ((4-Sulphonatophenyl) Azo) Phenyl) Azo) Naphthalene-1-Sulphonate. The rise of its objects has gone through years. In the past, all chemists worked hard to explore the physical properties and methods of preparation. At the beginning, the cognition was still shallow, and they groped forward. On the road of experimentation, they suffered many setbacks. However, the ambition of scholars did not change, and they studied it repeatedly. With the gradual progress of science and technology, their understanding became deeper, and the methods of preparation became more and more exquisite. From the rough at the beginning to the sophisticated in the future, every step has condensed the efforts of scholars. Over the years, this chemical object has gradually developed its use in various fields such as industry and scientific research, affecting Rilong, witnessing the evolution of chemistry, and becoming a clear proof of scientific development.

Product Overview

Disodium 4- ((2,4-Dihydroxy-3- ((4-Sulphonatophenyl) Azo) Azo) Naphthalene-1-Sulphonate. This product is the result of organic synthesis. Its structure is exquisite, and it is connected by many groups such as naphthalene ring and benzene ring with azo bond, and contains sulfonic acid groups, which endows it with unique properties.
This substance is used in the chemical industry or can be used as a dye. Due to its complex conjugate structure, it can absorb light of specific wavelengths and show brilliant colors. Or in some chemical analysis processes, it is used as an indicator due to its special structure and properties to show the change of reaction.
Although it is a newly researched thing, its potential cannot be underestimated. It is necessary to explore in detail in the future to clarify its more characteristics and uses, so as to benefit industrial production and scientific research.

Physical & Chemical Properties

A chemical substance, named Disodium 4- ((2,4-Dihydroxy-3- ((4-Sulphonatophenyl) Azo) Phenyl) Azo) Naphthalene-1-Sulphonate, its physicochemical properties are crucial. The appearance of this substance may be unique, or in the shape of powder, or in the shape of crystal, and the color is also different.
In terms of solubility, it may behave differently in water, or be soluble, or slightly soluble, which is related to its dispersion characteristics in aqueous solution environment. Its stability is also important. Whether it can maintain the integrity of the chemical structure at room temperature and under specific conditions, and is protected from external factors such as light, temperature, and humidity, needs to be carefully examined. In addition, its chemical activity cannot be ignored. In a specific chemical reaction system, whether it can actively participate as a reactant or act as a catalyst to affect the reaction process is the direction of our chemical researchers to understand its role and value in various chemical processes.

Technical Specifications & Labeling

Today there is a product called Disodium 4- ((2,4-Dihydroxy-3- ((4-Sulphonatophenyl) Azo) Phenyl) Azo) Naphthalene-1-Sulphonate. Its process specifications and identification (product parameters) are the key.
To clarify the process specifications of this product, it is necessary to carefully observe the method of its synthesis. From the selection of raw materials to the reaction conditions of each step, there are rules. The raw materials must be carefully selected, and the reaction temperature, pressure, time and other parameters also need to be precisely controlled to obtain qualified products.
When it comes to the identification (product parameters), the appearance characteristics such as color, taste and shape, as well as internal indicators such as purity and content, are all key points. Measure with precision and judge according to strict standards to ensure that the product is correct. In this way, in chemical research, strict adherence to process specifications and identification (product parameters) can lead to excellent products.

Preparation Method

A compound called Disodium 4- ((2,4-Dihydroxy-3- ((4-Sulphonatophenyl) Azo) Phenyl) Azo) Naphthalene-1-Sulphonate has been prepared. The preparation method is crucial. The selection of raw materials needs to be carefully selected, and the raw materials used should be of high purity to ensure the quality of the product. The production process also needs to be carefully planned, and each step should not be lost.
In the reaction step, the reaction conditions at each stage must be precisely controlled. Such as temperature and pH are all important factors affecting the formation of the product. And it should be operated in sequence and step by step to make the reaction proceed smoothly.
Furthermore, the catalytic mechanism is also indispensable. Appropriate catalysts can speed up the reaction rate and improve the yield of the product. In practice, it is necessary to select the appropriate catalyst according to the reaction characteristics and strictly control its dosage, so that the compound can be efficiently prepared to meet the needs of scientific research or production.

Chemical Reactions & Modifications

Those who observe the study of chemical substances in the world, in "Disodium 4- ((2,4-Dihydroxy-3- ((4-Sulphonatophenyl) Azo) Phenyl) Azo) Naphthalene-1-Sulphonate" this compound, often study the chemical reaction and change.
The reaction is also affected by various factors, such as temperature and pH, which can change its process. The temperature is high, the molecular movement speed is easy to react; the acid-base is moderate, which also helps the reaction to be smooth.
As for the change, it is related to its structure and properties. Or chemically modified to optimize the properties for different purposes. Or seek its stability to increase, or adjust its activity. Researchers should study all aspects in detail to clarify the rules of their reactions and the principles of change, with the hope of making good use of this compound in the field of chemistry to obtain more gains and benefit the world.

Synonyms & Product Names

Today there is a thing named Disodium 4- ((2,4-Dihydroxy-3- ((4-Sulphonatophenyl) Azo) Phenyl) Azo) Naphthalene-1-Sulphonate. The thing also has various aliases and trade names in the industry. These aliases are all to show their characteristics and are convenient to call.
The aliases and trade names are set up for no reason. Or because of different places of origin and different terroirs, people call them by different names; or because of their special uses, they should be called by different names. Although the names are different, the quality is the same.
In the field of my chemical research, it is crucial to carefully investigate the aliases and trade names of this thing. Cover different names, or related to the differences in production methods, or the slight changes in related characteristics. Knowing this, the exploration of its properties and uses can be more in-depth, contributing to the progress of chemistry, hoping to make progress in related research and contribute to the academic community.

Safety & Operational Standards

About 4 - [ (2,4 - dihydroxy - 3- ((4 - sulfonylphenyl) azo) phenyl) azo] naphthalene-1 - sodium sulfonate disodium salt product safety and operating specifications
Fu 4- [ (2,4 - dihydroxy - 3- ((4 - sulfonylphenyl) azo) phenyl) azo] naphthalene-1 - sodium sulfonate disodium salt, the genus of chemical products. During its experiment and application, safety and operating standards are of paramount importance.
First word safety. This product may be potentially harmful and touch the skin. Rinse quickly with plenty of water. If there is any discomfort, seek medical attention. When entering the eyes, you must also rinse immediately with flowing water, and do not rub. If necessary, seek medical attention. If you inhale accidentally, you should quickly move to a fresh air place to keep breathing smooth; if swallowed, do not induce vomiting, and seek medical attention quickly. When storing, it should be placed in a cool, dry and well-ventilated place, away from fire and heat sources, and protected from direct sunlight. It must be stored separately from oxidants, acids, etc., and should not be stored in combination to prevent dangerous reactions.
Second Discussion on Operating Specifications. Before experimental operation, be sure to read the relevant information carefully and be familiar with its properties and characteristics. When operating, you must wear appropriate protective equipment, such as protective gloves, goggles, lab clothes, etc., to ensure your own safety. When using this product, use clean and dry equipment and operate it according to accurate measurement requirements to avoid waste and pollution. During the experiment, strictly follow the established procedures and methods and cannot be changed without authorization. In case of abnormal conditions, the operation should be stopped immediately and properly disposed of. After the experiment is completed, the remaining products should be properly disposed of according to regulations and cannot be discarded at will to protect the environment.
The husband follows this standard to ensure the smooth operation of the experiment, the safety of personnel, and the absence of damage to the environment.

Application Area

"Mengxi Bi Tan" is written in a simple and natural style, in ancient classical Chinese form, focusing on objective description and principle interpretation of things. The following is a passage about "Disodium 4- ((2,4-Dihydroxy-3- ((4-Sulphonatophenyl) Azo) Phenyl) Azo) Naphthalene-1-Sulphonate" application field written in a similar style:
Today there is a thing called Disodium 4- ((2,4-Dihydroxy-3- (4-Sulphonatophenyl) Azo) Naphthalene-1-Sulphonate. It has contributed to the field of printing and dyeing. It can give fabrics gorgeous colors, with bright colors and good fastness. It is not easy to fade after being rubbed and weathered by years. In the papermaking industry, it can add color to paper products and make their appearance pleasing to the eye. And in the preparation of ink, it makes the ink color accurate, and the printed objects are clear and bright. This is the manifestation of its application, and it is an indispensable material in all aspects of industry.

Research & Development

There is a substance called Disodium 4- ((2,4 - Dihydroxy - 3- ((4 - Sulphonatophenyl) Azo) Phenyl) Azo) Naphthalene - 1 - Sulphonate. As a chemical researcher, I have been focusing on this substance for a long time.
Looking at its structure, it contains special groups and chemical bonds, which may be the source of its characteristics. During the research process, I have carefully observed its physical and chemical properties, such as solubility, stability, etc.
After repeated experiments, we have investigated its reaction under different conditions. This substance may change wonderfully with other substances in a specific environment, or exhibit unique functions.
I hope that through in-depth research, its essence can be clarified and its potential can be tapped. I hope that in the future, with this research result, the application of this product in industry, scientific research and other fields will be expanded, which will contribute to the development of chemistry, promote the progress of related industries, and achieve the grand aspiration of benefiting society.

Toxicity Research

There is a substance named Disodium 4- ((2,4-Dihydroxy-3- ((4-Sulphonatophenyl) Azo) Phenyl) Azo) Naphthalene-1-Sulphonate. For my chemical research, toxicity research is essential.
This substance is also specific in its molecular structure, or involves complex reactions. To know its toxicity, multiple tests are required. First observe its effect on microorganisms, observe the change and growth of cells. Repeat animals as models, explore their entry into the body, and observe the differences in physiological functions.
Observe their chemical properties, measure their stability and activity, and deduce their changes in the environment and human body. The strength and severity of toxicity also need to clarify its metabolic path and know its accumulation and dispersion in the body. Such a thorough study can fully understand the toxicity of this substance, which is a solid foundation for the safety of application and the protection of the environment.

Future Prospects

In today's world, chemical substances are changing with each passing day. One of them is called Disodium 4- ((2,4-Dihydroxy-3- ((4-Sulphonatophenyl) Azo) Phenyl) Azo) Naphthalene-1-Sulphonate, which has attracted much attention in the field of chemical research.
As chemical researchers, our generation is full of longing for its future development. This object or material science can be the basis for creating new functional materials, making materials have extraordinary characteristics, and applied to high-tech. In the field of medicine, it may help to develop special drugs and save patients from suffering.
Looking at the current scientific research progress, although there have been small achievements, the road ahead is still far away. May we be unswerving, unremitting in our research, and hope that in the future, we can fully explore its potential, contribute to the well-being of mankind, and make this chemical thing bloom brightly and achieve extraordinary things.

Frequently Asked Questions

What is the main use of sodium 4- ((2,4-dihydroxy-3- ((4-sulfophenyl) azo) phenyl) azo) naphthalene-1-sulfonate?

The main use of 4- ((2,4-diamino-3- (4-hydroxybenzyl) formaldehyde) benzyl) formaldehyde) guanidine-1-hydroxyquinoline is a key component in the field of medicinal chemistry. This compound can play a significant role in the creation of new antibacterial drugs. Its structural characteristics give it unique antibacterial activity, which can effectively inhibit the growth and reproduction of many bacteria, and then provide a new strategy and way to fight bacterial infectious diseases.
Furthermore, in the field of anti-tumor drug research and development, 4- ((2,4-diamino-3- ((4-hydroxybenzyl) formaldehyde) benzyl) formaldehyde) guanidine-1-hydroxyquinoline also shows potential value. It may interfere with the physiological process of tumor cells through specific mechanisms of action, such as inhibiting the proliferation of tumor cells and inducing apoptosis of tumor cells, providing different ideas and directions for overcoming tumor problems.
In addition, in some biological activity studies, this compound may be used as an important tool molecule to help researchers delve deeper into specific physiological and biochemical processes in organisms, clarify relevant molecular mechanisms, and thus promote research progress in the field of life sciences.
In summary, 4- ((2,4-diamino-3- (4-hydroxybenzyl) formaldehyde) benzyl) formaldehyde) guanidine-1-hydroxyquinoline has important uses that cannot be ignored in the field of medicine and related scientific research, or can bring significant positive effects on the development of human health.

What are the physicochemical properties of sodium 4- ((2,4-dihydroxy-3- ((4-sulfophenyl) azo) phenyl) azo) naphthalene-1-sulfonate

The physicochemical properties of sodium 4- ((2,4-diamino-3- ((4-carboxybenzyl) carbonyl) benzyl) carbonyl) guanidine-1-carboxylate are as follows:
This compound has a certain solubility. In water, because it contains multiple polar groups, such as carboxyl groups, amino groups, etc., or has good solubility, it can form hydrogen bonds with water molecules to promote their dispersion in water; in organic solvents, the solubility may vary depending on the properties of the solvent, and the solubility in polar organic solvents may be better than that of non-polar ones.
Its melting point is closely related to the intermolecular forces. There are various forces in the molecule, such as hydrogen bonds, van der Waals forces, etc. Strong hydrogen bonds will make the molecules bond tightly, requiring high energy to break, so the melting point is relatively high.
In terms of stability, the carboxyl group, amino group and other functional groups in this compound are active. In an acidic environment, the amino group or protonation affects the overall structure and properties; in an alkaline environment, the carboxyl group may react. And if the temperature is too high, it may cause chemical bond breakage and molecular rearrangement, which affects the stability.
Its acidity and alkalinity are determined by the functional groups contained. Amino groups are alkaline and can accept protons; carboxyl groups are acidic and can give protons. The overall acidity and alkalinity depends on the relative strength of the two and the surrounding environment. In aqueous solution, or show a certain buffering ability to maintain acid-base balance.
In addition, this compound may have potential application value in the fields of medicine and biology because it contains multiple special functional groups or has certain biological activities. Its special structure may interact with specific targets in organisms and exert specific physiological functions.

What is the safety of sodium 4- ((2,4-dihydroxy-3- ((4-sulfophenyl) azo) phenyl) azo) naphthalene-1-sulfonate?

The safety of Ximing 4- ((2,4-difluorophenyl-3- ((4-chlorophenyl) carbonyl) phenyl) carbonyl) pyridine-1-cobalt carboxylate requires detailed investigation of the properties, reactions and related factors of this compound.
This compound has a complex structure and contains groups such as difluorophenyl, chlorophenyl and pyridine. From the perspective of chemical structure, different groups may have different chemical activities and toxic tendencies. The introduction of fluorine atoms often changes the physical and chemical properties and biological activities of compounds, and its electronegativity is high, or it affects the interaction between molecules and biological targets. The lipophilicity of difluorophenyl moieties or compounds affects their transmembrane transport and distribution in vivo.
The carbonyl moiety of chlorophenyl. The carbonyl group is reactive, or participates in reactions such as nucleophilic addition. It reacts with biological macromolecules such as proteins and nucleic acids in vivo or with nucleophilic check points, resulting in cell dysfunction. Pyridine rings are also commonly found in bioactive molecules, or participate in specific binding to biological targets.
After metal cobalt ions form complexes with organic ligands, their chemical behavior is different from that of individual ions. The stability, solubility and interaction mode of cobalt complexes with biomolecules all affect their safety. When the stability of the complexes is poor, cobalt ions may be released, which affects the balance of metal ions in the body and interferes with normal physiological processes.
In addition, the safety of compounds also involves the stability of impurities in the preparation process and storage conditions. Preparation of impurities or toxic, improper storage causes compound degradation and harmful products.
To sum up, the safety of 4- ((2,4-difluorophenyl-3- ((4-chlorophenyl) carbonyl) phenyl) carbonyl) pyridine-1-carboxylate cobalt is complex, and it is necessary to consider the comprehensive structure, chemical properties, biological activity, preparation and storage factors. Only through experimental studies, such as toxicological experiments and biological activity determination, can its safety details be determined.

What are the quality control points of sodium 4- ((2,4-dihydroxy-3- ((4-sulfophenyl) azo) phenyl) azo) naphthalene-1-sulfonate in the production process?

In the process of manufacturing lead sulfate described in "Tiangong Kaiwu", the key points of quality control are as follows:
The first is to control the raw materials. The purity of the 2,4-diamino raw materials used is crucial. If impurities exist, they will cause reaction errors and affect the quality of lead sulfate. It is necessary to check the source of the raw materials, check their purity, and ensure their purity without impurities in order to produce high-quality lead sulfate.
The second is the treatment of 4-hydroxyphenyl ethanol. The reduction reaction conditions must be accurate. Temperature, reaction time, and the proportion of reactants are all key. If the temperature is too high or too low, the duration is too short or too long, and the ratio is unbalanced, the reaction can be insufficient or excessive, and the product is impure. For example, if the temperature is too high, it may cause side reactions to occur, which affects the purity and yield of lead sulfate.
Furthermore, the operation process should not be underestimated. The reaction vessel must be clean and free of impurity interference. The stirring rate should be moderate, so that the reactants are fully contacted and the reaction is uniform. And the order of adding reactants is also particular, improper order or abnormal reaction.
At the same time, the reaction environment is also the main point. Factors such as humidity and air pressure may have a subtle impact on the reaction. Too high humidity may cause the raw materials and products to be damp and deteriorate; the air pressure is unstable, or it may interfere with the reaction process.
In addition, the detection process is indispensable. At all stages of the reaction, timely detection is required to indicate the progress of the reaction and the purity of the Through testing, the reaction conditions can be adjusted in time. If the purity is not as expected, the cause can be adjusted to ensure that the final lead sulfate product reaches the high-quality standard. In this way, high-quality lead sulfate can be obtained by controlling various aspects.

What is the market price range for sodium 4- ((2,4-dihydroxy-3- ((4-sulfophenyl) azo) phenyl) azo) naphthalene-1-sulfonate?

There is a question today: What is the market price range of 4- ((2,4-diamino-3- ((4-carboxybenzyl) formaldehyde) benzyl) formaldehyde) guanidine-1-sodium carboxylate? I will imitate the classical Chinese genre of "Tiangong Kaiwu" to answer this question.
In this world, the market price of this compound involves many factors, and it is difficult to determine the exact number. Looking at the various markets, the price of it often varies depending on the quality, supply and demand.
If the quality is high, and it meets the market demand, and the supply is small, the price will be high. At this point, the price per unit may reach a quite high level, or hover in the high price range.
On the contrary, if the quality is normal and the market is oversupplied, the price will tend to be flat, or in the category of relatively low prices.
Basically speaking, in today's market, the price range may range from a lower price to a rather considerable high price. However, to know the exact price range, it is necessary to carefully consider the market conditions in various places, the pricing of various merchants, and the changes in raw material costs and production processes. Therefore, it is difficult to determine the exact market price range based on the brief of the question. Only those who inquire can obtain the details by observing the market situation in person or consulting the industry.