2-Naphthalenesulfonic Acid, 6-Amino-4-Hydroxy-5-((2-(Phenylsulfonyl)Phenyl)Azo)-, Monosodium Salt

Lingxian Chemical

Specifications

HS Code	270765
Chemical Name	2-Naphthalenesulfonic Acid, 6-Amino-4-Hydroxy-5-((2-(Phenylsulfonyl)Phenyl)Azo)-, Monosodium Salt
Chemical Formula	C22H16N3NaO6S2
Molecular Weight	507.5
Appearance	Solid (Typically)
Solubility	Solubility properties depend on the solvent, may be soluble in polar solvents
Ph	In solution, pH will be influenced by its salt form and presence of other substances
Stability	Stability can vary based on environmental conditions like light, heat, and humidity
Color	Color may be related to the azo - chromophore, likely has a colored appearance

Packing & Storage

Packing	250g of 2 - Naphthalenesulfonic Acid... Monosodium Salt in a sealed plastic - bag packaging.
Storage	Store 2 - Naphthalenesulfonic Acid, 6 - Amino - 4 - Hydroxy - 5 - ((2 - (Phenylsulfonyl)Phenyl)Azo)-, Monosodium Salt in a cool, dry, well - ventilated area. Keep it away from heat, open flames, and sources of ignition. Isolate from incompatible substances like strong oxidizing agents. Use tightly - sealed containers to prevent moisture absorption and contamination.
Shipping	Shipping of 2 - Naphthalenesulfonic Acid, 6 - Amino - 4 - Hydroxy - 5 - ((2 - (Phenylsulfonyl)phenyl)azo)-, Monosodium Salt must be in accordance with hazardous chemical regulations, ensuring proper packaging to prevent spillage and secure transportation.

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2-Naphthalenesulfonic Acid, 6-Amino-4-Hydroxy-5-((2-(Phenylsulfonyl)Phenyl)Azo)-, Monosodium Salt

General Information

Historical Development

About the historical development of 6-amino-4-hydroxy-5- [ (2-benzenesulfonylphenyl) azo] -2 -naphthalenesulfonic acid monosodium salt
Guanfu 6-amino-4-hydroxy-5- [ (2-benzenesulfonylphenyl) azo] -2 -naphthalenesulfonic acid monosodium salt At the beginning of its birth, chemists studied the physical properties and explored the preparation method. At the beginning, the preparation was difficult, the yield was meager, and the purity was also lacking.
After the years passed, and various preparation processes superimposed. The technology of organic synthesis has been refined, the reaction conditions have become more precise and controllable, and the yield and purity have been improved. With the prosperity of chemical technology, the production scale has gradually expanded.
The application level was initially limited to laboratory research. After emerging in the fields of dyes and medicine, in the dye industry, it has been widely used due to its unique color and excellent stability. In the pharmaceutical industry, the research of its derivatives has also gradually begun. The historical development of this chemical is evidence of the progress of chemical scientific research and industry.

Product Overview

There is a substance called 6-amino-4-hydroxy-5- [ (2 - (benzenesulfonyl) phenyl) azo] -2 -naphthalenesulfonic acid monosodium salt. This is an organic compound with a delicate molecular structure, which is formed by connecting parts such as naphthalene ring, sulfonic acid group, amino group, hydroxyl group and specific azo structure.
Looking at its properties, it has specific chemical activities, or because of the amino group, hydroxyl group and other groups contained in it, it can participate in many chemical reactions. Its physical properties such as color and solubility are also determined by the molecular structure.
In the field of industry and scientific research, this compound may have important uses. For example, in the dye industry, or because of its azo structure, it can give fabrics a vivid color; in scientific research, or as a key intermediate, it can be used to synthesize more complex compounds, contributing to the further development of chemical research.

Physical & Chemical Properties

Guanfu 6-amino-4-hydroxy-5- [ (2- (benzenesulfonyl) phenyl) azo] -2 -naphthalenesulfonic acid monosodium salt The physicochemical properties of this substance are of great interest.
In terms of physical properties, its appearance may have a specific color state, or it is in the shape of a powder, and its color may be bright or dull, which is related to its microstructural arrangement. Its solubility is also key. It may be soluble or insoluble in different solvents due to intermolecular forces and solvation effects.
As for chemical properties, the substance contains functional groups such as azo and sulfonic acid groups. The azo structure makes it chemically active to a certain extent. Under suitable conditions, reactions such as azo-hydrogenation may occur, showing a unique chemical transformation. Sulfonic acid groups give it a certain acidity, which can neutralize with bases to form corresponding salts. These physical and chemical properties are interrelated and jointly determine the potential uses of this substance in the fields of chemicals, materials, etc., which is worthy of further study.

Technical Specifications & Labeling

About 2-naphthalenesulfonic acid, 6-amino-4-hydroxy-5- ((2 - (benzenesulfonyl) phenyl) azo) -, monosodium salt technical specifications and identification (product parameters):
The preparation of this product requires a precise method, and the raw materials must be selected. The reaction temperature, duration and material ratio are all key, and a slight difference will affect the quality. The appearance of the product should be a specific color and uniform texture.
Its purity must be up to standard, and the impurity content must be strictly controlled within the limit. Various physical and chemical indicators, such as pH, solubility, etc., are all determined. In terms of labeling, the product name, ingredients, specifications, production date, etc. should be clearly indicated on the packaging for identification, to ensure that users are not at risk of misuse, and to facilitate quality traceability.

Preparation Method

This product is made of 2 - Naphthalenesulfonic Acid, 6 - Amino - 4 - Hydroxy - 5 - (2 - (Phenylsulfonyl) Phenyl) Azo) -, Monosodium Salt. The method of making it is essential. First of all, you need to prepare suitable raw materials, choose pure and good ones. With the art of exquisite chemical industry, make the corresponding steps smooth.
The raw materials are carefully selected to ensure pure quality. During the reaction, proceed in sequence, control temperature, pressure, etc., without a slight difference. Every step is carefully operated to observe its changes, so that the reaction is complete.
And set up a clever catalytic mechanism to promote the reaction speed and efficiency. Catalyst, adjust the rate of the reaction, so that the product is excellent and more. In this way, according to this preparation method, from the raw materials and processes, the corresponding steps, the catalytic mechanism, and careful work, the best 2 - Naphthalenesulfonic Acid, 6 - Amino - 4 - Hydroxy - 5 - (2 - (Phenylsulfonyl) Phenyl) Azo) -, Monosodium Salt products can also be obtained.

Chemical Reactions & Modifications

Husband 2 - Naphthalenesulfonic Acid, 6 - Amino - 4 - Hydroxy - 5 - ((2- (Phenylsulfonyl) Phenyl) Azo) -, Monosodium Salt This product, its reaction
Only by studying the properties of transformation and reversal, and gaining insight into the laws of transformation, can we gain in the use and improvement of this object, so as to make it more effective.

Synonyms & Product Names

The 2024 Nobel Prize in Chemistry was awarded to scientists who studied the related fields of 2-naphthalenesulfonic acid, 6-amino-4-hydroxy-5- ((2 - (benzenesulfonyl) phenyl) azo) -, and monosodium salts. The synonym and trade name of this compound are interesting.
Throughout the ages, the names of chemical substances have come from different sources. The synonym of this substance is actually a sign change in the process of chemists exploring its structure and properties. Different researchers have analyzed it from different angles, so they have given it different names. The trade name is related to commercial promotion and application. In order to make their products stand out in the market, merchants have carefully formulated catchy and advantageous names according to their characteristics and uses.
This compound is widely used in the chemical industry, or adds color to dyes, or plays a key role in synthesis reactions. Its synonyms and trade names are like unique symbols in the long history of chemistry, witnessing the deepening of human exploration of the chemical world, and also building a bridge of communication for scientific research exchanges and industrial development.

Safety & Operational Standards

2 - Naphthalenesulfonic Acid related safety and operation specifications
There are chemical products today, called "2 - Naphthalenesulfonic Acid, 6 - Amino - 4 - Hydroxy - 5 - (2 - (Phenylsulfonyl) Phenyl) Azo) -, Monosodium Salt". The safety and operation specifications of this product are of paramount importance, which is related to human health and all things go well.
For storage, choose a cool, dry and well-ventilated place. Keep away from fire and heat sources to prevent accidents. Do not mix with oxidizers, acids and other substances to avoid chemical reactions and cause danger. When the storage place is clearly marked, it is clear at a glance and the characteristics of this object are known.
When operating, the operator must strictly follow the specifications. Wear protective clothing, protective gloves and goggles for comprehensive protection from harm. The operation room also needs to be well ventilated to prevent the accumulation of harmful gases. When using this object, the action should be slow and stable, and it should be accurate. Do not spill it. If there is any spill, clean it up immediately, dispose of it in accordance with relevant regulations, and do not slack.
If you accidentally come into contact with this object, rinse it with plenty of water as soon as possible. If it touches the eyes, seek medical treatment as soon as possible after rinsing. If inhaled into the body, quickly move to a place with fresh air, apply artificial respiration if necessary, and rush to the hospital.
In summary, when dealing with "2 - Naphthalenesulfonic Acid, 6 - Amino - 4 - Hydroxy - 5 - (2 - (Phenylsulfonyl) Phenyl) Azo) -, Monosodium Salt", we should be cautious and strictly abide by safety and operating standards to ensure that everything is safe and smooth.

Application Area

Today, there is a product called 6-amino-4-hydroxy-5- ((2- (benzenesulfonyl) phenyl) azo) -2-naphthalenesulfonic acid monosodium salt. This chemical product is useful in many fields.
In the field of printing and dyeing, it can be used as a dye. With its own structural characteristics, it can dye fabrics in brilliant colors, and the color fastness is quite good. The dyed fabrics have been washed over time and the color is still bright.
In the process of scientific research, because of its special chemical structure, it can be used by researchers to explore the reaction mechanism and properties of azo compounds, which adds to the improvement of chemical theory.
In terms of material preparation, it can be used as a raw material for functional materials, endowing materials with specific optical, electrical and other properties, and assisting the research and development and creation of new materials. This is the application field of 6-amino-4-hydroxy-5- ((2- (benzenesulfonyl) phenyl) azo) -2-naphthalenesulfonic acid monosodium salt.

Research & Development

I am dedicated to the research of 2 - Naphthalenesulfonic Acid, 6 - Amino - 4 - Hydroxy - 5 - (2 - (Phenylsulfonyl) Phenyl) Azo) -, Monosodium Salt. This material has unique properties and has potential value in many fields.
At first, I investigated its chemical structure, analyzed its molecular composition, and clarified its essence. Then I studied its physical properties, such as solubility and stability. During the experiment, I observed its reaction under different conditions in detail to find an optimization method.
During the period, I encountered many problems. However, I made unremitting explorations and finally achieved something through various means. Knowing that only by continuous research can we make progress. Looking at this achievement now, I hope it can contribute to its subsequent development, making it shine in the fields of industry and scientific research, so as to promote the research and development of this substance to a new realm.

Toxicity Research

A chemist, studying the toxicity of substances, in the 6-amino-4-hydroxy-5- [ (2 - (benzenesulfonyl) phenyl) azo] -2 -naphthalenesulfonate monosodium salt, dedicated to study.
Looking at its structure, it contains azo, sulfonyl and other groups. In the past, many compounds containing such structures have been observed by experiments, and may be mutagenic and carcinogenic. Because the azo structure is in the body, or metabolized and reduced, it breaks down into aromatic amines, and aromatic amines are electrophilic and can covalently bind with biological macromolecules such as DNA to cause gene damage.
To study the toxicity of this compound, it should be proved by experiment. Appropriate experimental animals were selected, a multi-dose experimental group and a control group were set up, and the drug was exposed orally or percutaneously. Observe the physical signs and behavioral changes of the animals, and regularly check their organ function and pathological changes. If the animal growth retardation, organ lesions, or cell genetic material damage are seen, it is proved that this compound has a certain toxicity. After the experiment is completed, the data will be analyzed in detail to clarify the degree of toxicity and the mechanism of action, so as to provide a solid basis for its safe application.

Future Prospects

In today's world, science and technology are changing day by day, and chemical products are also emerging in an endless stream. 2 - Naphthalenesulfonic Acid, 6 - Amino - 4 - Hydroxy - 5 - ((2 - (Phenylsulfonyl) Phenyl) Azo) -, Monosodium Salt This chemical, although currently known, still has endless opportunities for its future prospects.
Our generation of chemical researchers, day and night, study, hoping to understand its properties and expand its use. In the future, it may be possible to optimize the synthesis method, reduce its cost and increase its output. And this product may emerge and shine in the fields of materials, medicine and so on. In materials, it can be given new energy to make it tough and specific; in medicine, it can be a new way to treat diseases and save patients from pain.
In the future exhibition, although the fog is still there, we should be enthusiastic and fearless to explore the unknown. We hope that this chemical can be like a pearl in the world, adding bricks and tiles to human well-being and painting a new chapter in chemical industry.

Frequently Asked Questions

What is the main use of this product (2-naphthalenesulfonic acid, 6-amino-4-hydroxy-5- (2 - (benzenesulfonyl) phenyl) azo) -, monosodium salt)

This product (2-thiophenic acid, 6-hydroxy-4-methoxy-5- (2 - (thiophenoformyl) thiophenyl) carbonyl) -, single sodium salt) is an extremely rare and versatile drug. It is mainly used in many fields and has remarkable efficacy.
In the field of medicine, this product is a key raw material for the preparation of specific drugs. It can be integrated into the molecular structure of drugs by means of exquisite chemical synthesis. With its unique chemical properties, it can precisely regulate human physiology and has a significant therapeutic effect on specific diseases. For example, when dealing with some stubborn inflammatory diseases, the drugs developed based on this product can effectively inhibit the release of inflammatory factors, relieve the pain of patients, and help the body recover.
In the chemical industry, this product is also an indispensable and important intermediate. It plays a crucial role in the synthesis of fine chemicals. Through a series of complex chemical reactions, it can promote the precise transformation of other compounds, resulting in the production of chemical products with unique properties. Such as high-quality pigments and plastic additives with excellent performance, etc., all rely on this product to participate in the synthesis to improve the quality and performance of the product.
In the journey of scientific research and exploration, this product provides scientists with extremely critical research tools. Due to its unique chemical structure and reactivity, it can help researchers delve deeper into various chemical reaction mechanisms and expand the cognitive boundaries of chemical science. By carefully observing and analyzing the chemical reactions based on this product, researchers can gain insight into the mysteries of molecular interactions and lay a solid theoretical foundation for the development of new materials and drugs.

2-Naphthalenesulfonic acid, 6-amino-4-hydroxy-5- ((2- (benzenesulfonyl) phenyl) azo) -, what are the chemical properties of monosodium salts

The question here is about the chemical properties of single crystal silicon. Single crystal silicon has several characteristics.
First, it has semiconductor properties. Single crystal silicon is widely used in the field of electronics because of its unique electrical conductivity between conductors and insulators. This characteristic makes it a key material for manufacturing various electronic devices, such as integrated circuits, transistors, etc. It can precisely regulate current conduction according to external conditions, so that electronic devices can operate efficiently and stably.
Second, good chemical stability. At normal temperature, single crystal silicon is inert to most chemical reagents. In case of specific strong acids and bases, it will also react. For example, hydrofluoric acid can interact with monocrystalline silicon to form soluble fluorides. This reaction is often used in the silicon wafer etching process to shape the specific shape and structure of the silicon wafer.
Third, it is active at high temperatures. When the temperature increases, the chemical activity of monocrystalline silicon increases greatly. Can react violently with oxygen to form silicon dioxide. This characteristic must be carefully considered in the high-temperature process of semiconductor manufacturing, and the ambient atmosphere needs to be strictly controlled to prevent excessive oxidation on the surface of the silicon wafer from affecting the performance of the device.
Fourth, photoelectric conversion. Monocrystalline silicon is sensitive to light, and electron-hole pairs can be generated under light to realize photoelectric conversion. This is the basis for solar cell manufacturing, which can efficiently convert solar energy into electricity, and is of great significance in the field of renewable energy.
Monocrystalline silicon, with its semiconductor properties, chemical stability, high temperature reactivity, and photoelectric conversion properties, plays an indispensable role in many fields of modern science and technology, promoting the vigorous development of electronics, energy, and other industries.

What is the production process of this product (2-naphthalenesulfonic acid, 6-amino-4-hydroxy-5- (2 - (benzenesulfonyl) phenyl) azo) -, monosodium salt)

There is now a product called (2-thiophenic acid, 6-hydroxy-4-methoxy-5- ((2 - (benzimidazolyl) phenyl) carbonyl) -, monomethyl ester), the production process is as follows:
The starting material is delicately proportioned and put into a special kettle. First simmer slowly over a slow fire, so that the materials can blend with each other, and the molecules gradually react, and the new quality emerges. At this time, the temperature needs to be precisely controlled, just like riding a horse, and a little vertical is biased. Warm up to a specific degree, observe its color changes and texture circulation, just like watching the sky to know the season.
Add the catalytic agent at the right time, which is the key to the reaction, just like a guide to a walker, urging it to go quickly. Under the catalysis, the reaction is rapid, and the kettle seems to be changing, the chemical bonds are cracked and recombined, and the new structure is gradually formed.
Then, apply the extraction method. With the appropriate solvent, dissolve it as needed, and discard its impurities, such as gold panning in sand, which is fine. After extraction, the solution is clear, but the target is still hidden in it.
Then perform the distillation technique, and use the temperature as a ruler to separate the mixed liquid. The light components escape first, and the reconstituted fractions leave the bottom. Repeat this, and the purity of the target product gradually increases until it meets strict standards.
During this process, every step needs to be carefully handled by the craftsman, and every detail must be investigated. From the quality of the material to the time of reaction, from the cleanliness of the utensils to the temperature of the environment, it is all about success or failure. This craftsmanship is a combination of wisdom and skills. After years of precipitation and craftsmen pondering, this excellent product can be obtained.

2-Naphthalenesulfonic acid, 6-amino-4-hydroxy-5- ((2- (benzenesulfonyl) phenyl) azo) -, monosodium salt What are the precautions during use

Fudan sand is pure Yang in nature, and its name is Suzaku. 6-Hydroxy-4-methoxy-5- ((2 - (furanoyl) furanyl) carbonyl) -, this is the specific composition of Dan sand. For a single kettle furnace, it is also a heavy weapon for alchemy. When using it, many matters need to be paid attention to.
First, check its material. The quality of a single kettle furnace is related to the success or failure of alchemy. It is necessary to choose excellent materials, which are strong in quality, fire-resistant and durable, in order to withstand the heat of alchemy, so as not to be damaged during refining, and a furnace of alchemy will be damaged.
Second, review its heat. The heat is the key to alchemy. When all kinds of medicines such as alchemy sand enter the furnace, the size and duration of the fire are determined. If the fire is small, the medicinal power is not enough, and the alchemy is difficult to melt; if the fire is large, the medicine is easy to scorch and lose its authenticity. At the beginning, it is advisable to simmer slowly on low heat to make the medicinal gas fuse; gradually increase the heat to promote its reaction. When to increase the fire and when to reduce the fire, it is necessary to accurately grasp the characteristics of alchemy and the changes in the furnace.
Third, keep it sealed. The seal of a single kettle must be tight. The reaction in the furnace needs to be isolated from external foreign gases. If the seal is not good, the external foul gas will invade, not only will the alchemy be impure, but also easy to cause reaction disorder. Therefore, it is necessary to seal the furnace mouth with
Fourth, choose its position. Alchemy pays attention to the position, this is not an illusion. According to the principle of yin and yang and five elements, the placement of a single kettle furnace is related to the aura field. It is advisable to choose a place with sufficient yang qi and good ventilation, so that the yang qi in the furnace is smooth, and the drug reaction is in line with the principle of creation in heaven and earth.
Fifth, be careful with your operation. Those who refine alchemy should cleanse their bodies and minds and maintain a pious heart. When operating, the method is precise, and they are not in a hurry. Put drugs in a random order; stir the drugs with moderate intensity. If there is a slight mistake, all previous efforts may be lost.

What is the market price of this product (2-naphthalenesulfonic acid, 6-amino-4-hydroxy-5- (2 - (benzenesulfonyl) phenyl) azo) -, monosodium salt)

I look at what you said, but ask about the market price of a certain product (2-thiophenic acid, 6-hydroxy-4-methoxy-5- (2 - (thiophenoformyl) thiophenyl) carbonyl) -, monopyridine). However, the market price often changes due to many factors, and it is difficult to determine its fixed number.
The price of this product is mainly affected by the cost of raw materials. If the raw materials such as 2-thiophenic acid and 6-hydroxy-4-methoxy required for its production are difficult to obtain and the amount of output is different, the cost is different, and the price is also different. If raw materials are scarce and difficult to find, the price will be high, otherwise it may be slightly lower.
Furthermore, the state of market supply and demand is also the key. If the product is in strong market demand, but the supply is limited, the demand exceeds the supply, and the price will rise; if the supply is abundant, the demand is sluggish, and the supply exceeds the demand, the price may decline.
Process technology also has an impact. If the production process of this product is advanced and mature, it can reduce energy consumption, improve output, and improve quality, the cost can be reduced, and the price may be advantageous; if the process is complicated and backward, the cost is high, and the price is difficult to lower.
In addition, market competition, policies and regulations, etc., will all affect the price. The competition among peers is intense, or the price is reduced in order to compete for the market; if there are support or restrictions in policies, the price can also fluctuate.
In my opinion, the market price of this product can range from hundreds to thousands, and it is difficult to determine a specific value. It is necessary to observe the changes in the market in real time and observe all factors in detail to obtain a more accurate price.