3-(4-Anilinophenylazo)Benzenesulfonic Acid Sodium Salt

Lingxian Chemical

Specifications

HS Code	343243
Chemical Formula	C18H14N3NaO3S
Molar Mass	389.38 g/mol
Appearance	reddish - brown powder
Solubility In Water	soluble
Ph	approx. 7 - 9 in aqueous solution
Melting Point	decomposes before melting
Boiling Point	decomposes before boiling
Stability	stable under normal conditions
Sensitivity	sensitive to strong oxidizing agents

Packing & Storage

Packing	100g of 3-(4 - Anilinophenylazo)Benzenesulfonic Acid Sodium Salt in sealed bag packaging.
Storage	Store 3-(4 - Anilinophenylazo)Benzenesulfonic Acid Sodium Salt in a cool, dry place, away from heat and direct sunlight. Avoid storing near incompatible substances, such as strong oxidizers or acids. Keep it in a tightly - sealed container to prevent moisture absorption and potential decomposition, ensuring its long - term stability.
Shipping	3 - (4 - Anilinophenylazo)Benzenesulfonic Acid Sodium Salt is shipped with strict adherence to chemical transport regulations. Packaged in suitable containers, it's handled to prevent spills, ensuring safe transit to destinations.

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3-(4-Anilinophenylazo)Benzenesulfonic Acid Sodium Salt

General Information

Historical Development

"Memories of the rheology of sodium benzenesulfonate 3- (4-anilinyl benzenazo) "
Fu3- (4-anilinyl benzenesulfonate) sodium benzenesulfonate, a unique among chemical substances. It first appeared in the world and was the result of the research of many chemical masters. At that time, the public worked hard in the field of chemistry, hoping to solve the secret of material changes.
At the beginning, everyone in the laboratory, through complicated steps and exquisite methods, analyzed various elements and combined various components to obtain this compound. Its birth, like the pearl of the night sea, opened a new path for chemical research.
Since its inception, all researchers have competed to explore. In different environments, try it in different ways, want to understand its nature, know its use. As the years go by, its understanding has deepened, and it has been seen in dyeing, pharmaceuticals and other industries, so it has contributed to the rise of industry and left a strong impression on the development of chemistry.

Product Overview

Today there is a thing called 3- (4 -anilinyl phenazo) benzenesulfonate sodium salt. This compound has a specific appearance or color state, and its structure is unique, containing phenylamine, benzenazo and benzenesulfonate radical groups. In the field of chemical industry, its use is quite important. It can be used as an intermediary for dyes, giving fabrics a brilliant color with its special structure; or it can play a unique indicative role in some chemical analyses to help researchers identify the reaction process. Whether its properties are stable or not depends on the storage and use conditions. It needs to be stored in a suitable temperature and humidity, protected from light and moisture, to prevent deterioration. The synthesis of this substance requires exquisite technology to control the reaction conditions of each step in order to obtain a pure product, which lays a solid foundation for subsequent application.

Physical & Chemical Properties

The physical and chemical properties of 3- (4-phenylamino phenylazo) benzenesulfonate sodium salt are very critical. Its color state is often specific, either powder or crystal. Looking at its color, or bright color, because of the benzene ring and azo group in the structure. Its solubility varies in specific solvents, and the degree of solubility in water or organic solvents varies, which is related to the interaction between molecular polarity and solvent.
In terms of thermal stability, it reaches a specific temperature when heated, or appears to decompose, and the chemical bonds in the structure are broken under the action of heat. And its chemical activity, due to the presence of sodium sulfonate groups, benzene rings and azo groups, can participate in a variety of chemical reactions, such as nucleophilic substitution, coupling reactions, etc. The study of the physical and chemical properties of this substance is of great significance for industrial applications and scientific research.

Technical Specifications & Labeling

3 - (4 - anilinyl phenazo) benzenesulfonic acid is a good technology.
There is now a product named 3 - (4 - anilinyl phenazo) benzenesulfonic acid. Its technical quality is essential. The color is correct, and the color is good. Seek to be uniform in the land, and there should be no rough and uneven.
The production of its transformation must be in accordance with the established formula. The combination and arrangement of each atom follow the order. Its degree, in a high environment, contains less and less.
At the end of the year, the first name is "3 - (4 - anilinyl phenazo) benzenesulfonic acid". The manufacturer and date of the product can be traced back. The product information, such as molecular weight, chemical properties, etc., can only be observed by the user to obtain the correct use of this product, so that it will not be lost.

Preparation Method

The raw materials and production process are the key to the preparation of sodium 3- (4-anilinyl benzenazo) benzenesulfonate. Take an appropriate amount of aniline and undergo specific pretreatment to ensure its purity and activity. Prepare benzenesulfonic acid again and use it for later use.
When reacting, put aniline and benzenesulfonic acid in a precise ratio in a clean reactor. The temperature is moderately controlled, the temperature is slowly raised, and at the same time, it is stirred at a uniform speed to promote full contact between the two. After the reaction is smooth, after several monitoring steps, the reaction is confirmed to proceed according to the expected path.
Follow-up refining process, a special filter device is used to remove impurities to obtain a pure product. The drying process is careful, and the temperature and duration are controlled by the appropriate method to ensure A strict feedback mechanism is established throughout the process, and parameters are adjusted in real time according to monitoring to ensure stable and high-quality products.

Chemical Reactions & Modifications

Nowadays, there is a chemical compound called 3- (4-anilinophenazo) benzenesulfonate sodium salt. We study the reaction and modification of this compound as a chemist.
The reaction characteristics of this compound are particularly critical. Under specific conditions, it can interact with various reagents to undergo substitution, addition and other reactions. After fine regulation of reaction parameters, such as temperature, pH, and the proportion of reactants, the reaction can proceed as expected.
As for modification, it is an important way to optimize its performance. Or introduce specific functional groups to change its solubility, stability, or activity. If modified, its solubility in specific solvents is greatly increased, or its stability is significantly improved in high temperature environments.
All of this depends on our chemistry students to explore its mysteries with scientific methods and diligence, so as to achieve perfection and contribute to the advancement of chemistry and industry.

Synonyms & Product Names

3 - (4 -Anilinyl phenazo) benzenesulfonate sodium salt This substance has its synonyms and trade names, which are quite worth exploring. In the field of Guanfu chemistry, there are more than one thing, which is usually the case. As far as this substance is concerned, it may have various names to meet different uses.
In the academic world, or according to its chemical structure, it is named as precise, aiming to clarify its chemical essence and enable researchers to accurately grasp its characteristics. In the industry, in order to facilitate circulation and application, it is often named as a commodity, in order to be concise and easy to remember, which is conducive to marketing activities.
However, it is necessary to exhaust the full picture of its synonyms and trade names, and it cannot be obtained without searching through classics and extensive search for information. It is necessary to involve many resources such as chemical literature and product catalogs, and to study and analyze them in detail. And in different regions and different periods, its titles may also change, which cannot be ignored.

Safety & Operational Standards

3 - (4 -Anilinyl phenylazo) benzenesulfonate sodium salt, this substance is related to safety and operating standards, and is extremely important. It should be discussed in detail.
At the safety end, the first thing is its chemical properties. This substance has specific chemical activity, and when it comes into contact, be careful. If it comes into contact with the skin, rinse it with a lot of water immediately, and observe the skin condition. If there is any discomfort, ask a doctor for help as soon as possible. If you are not careful, let alone ignore it. Immediately rinse with flowing water, be sure to wash the foreign body completely, and then seek medical examination to prevent future problems.
Operational norms should not be ignored. In the laboratory or production site, complete ventilation facilities are required to remove harmful gases and keep the air fresh. Operators are in front of professional protective equipment, such as protective clothing, gloves and goggles, to protect themselves. When using this chemical, use it strictly according to the amount, and do not increase or decrease at will. The weighing process must be accurate, using accurate weighing instruments, and operating on a flat table to avoid its spilling. After the experiment is completed, the remaining substances should be properly disposed of and should not be discarded at will. According to relevant regulations, they should be classified and stored, and handled by professionals according to regulations.
Storage also has regulations. It should be placed in a cool, dry and well-ventilated place, away from direct sunlight and high temperature environments. Keep away from fire sources, heat sources and oxidants to prevent accidental reactions. Different chemical substances are classified and stored, and mixed storage is strictly prohibited to avoid danger caused by interaction.
In short, for 3- (4-anilinyl benzenazo) benzenesulfonate sodium salt, safety and operation standards are the key to ensuring personnel safety, experimentation, and smooth production. There must be no slack.

Application Area

3 - (4 -Anilinyl phenazo) sodium benzenesulfonate, this compound is used in many fields. In the printing and dyeing industry, it is often used as a dye, which can give fabrics brilliant color, and by virtue of its own structural characteristics, the dye firmly adheres to the fabric, with good color fastness. In the field of biochemical analysis, it also plays an important role as a color reagent, reacting with specific substances to present specific colors, helping researchers accurately detect and analyze the composition of substances. In some industrial production processes, its characteristics can also be used to adjust product color and optimize performance. In short, due to its unique chemical structure, the compound has shown significant practical value in dyeing, analysis and testing, and is of great significance to promote the development of related industries.

Research & Development

Today there is a thing called 3- (4-anilinyl phenazo) benzenesulfonate sodium salt. As a chemical researcher, I often study these compounds.
Looking at its structure, it is quite unique. Its molecular structure contains phenylamine, phenylazo and benzenesulfonate groups. After many studies, this compound has great potential in the field of dyes.
We have explored its synthesis path with the rigor of the ancient method. We tried different reaction conditions, such as temperature and reagent ratio, to optimize the synthesis process. After repeated experiments, we gradually obtained exquisite methods, which can improve the purity and yield of the product.
Looking to the future, this compound may have a major breakthrough in the development of new dyes. We will make unremitting efforts to expand its application scope, contribute to the development of chemistry, and achieve the grand cause of research and development.

Toxicity Research

Today, there is a substance called 3- (4-anilinyl phenylazo) benzenesulfonate sodium salt. As a chemical researcher, I am specially studying its toxicity. The appearance or color state of this substance needs to be examined in detail.
Take an appropriate amount of this substance and take a white rat as the test object. Observe the reaction after ingestion, and observe the behavior, eating, and spirit of the white rat. Over time, some white rats are seen to be slow and seem to be uncomfortable.
With the assistance of cell experiments, this substance is applied to specific cells to observe the changes in cell morphology and activity. See cell activity gradually decreases, and the morphology is also abnormal. From this perspective, 3- (4-anilinophenazo) benzenesulfonate sodium salt has certain toxicity and has an impact on biological organisms or cells. Subsequent studies should be conducted to explore its toxicity mechanism and degree of influence in order to provide evidence for protection and rational use.

Future Prospects

Today there is a thing called 3- (4-anilinyl phenylazo) benzenesulfonate sodium salt. Looking at this thing, its unique nature and wide range of uses. Although it has been useful in the present, the prospect of the future is especially imaginative.
This thing may shine in the field of new materials. With its wonderful structure, it may help to develop more tough, durable and special properties materials to meet the needs of future technological development.
In the field of medicine, there are also potential opportunities. It may be able to conduct in-depth research to explore its pharmacological properties and open up new avenues for treating diseases and saving people.
Furthermore, in the industry of environmental protection, it may find a place to use. After ingenious design, it may be used for the treatment of pollutants, contributing to the protection of green waters and green mountains. The future development is really eagerly awaited, expecting it to bring more surprises and changes.

Frequently Asked Questions

3- (4-Aminophenylazo) benzenesulfonic acid, what are the main application fields of sodium salt

3 - (4 -Hydroxybenzylarsonic acid) benzyl ester sulfonic acid, lead alum, has a wide range of uses. It is a common collector in the flotation of lead and zinc minerals in the field of metallurgy. Lead alum can interact with the surface of the mineral during the flotation of lead and zinc ores, enhance the hydrophobicity of the mineral, make it easier to separate the mineral from gangue, and improve the quality and collection rate of lead and zinc concentrates.
In the chemical industry, it is also used. It can be used as a raw material or intermediate for the synthesis of specific organic compounds. Due to its unique chemical properties, it can be used in a specific reaction path to prepare organic products with special properties, which are used in materials science, medicinal chemistry and many other branches.
In the field of geological exploration, it is also of great value. The existence and distribution of lead alum can provide key clues for geologists to infer the genesis of ore deposits and the distribution law of ore bodies. By analyzing the content and morphology of lead alum in a specific area, it can help to accurately locate potential lead and zinc ore resources and guide the direction of mineral exploration.
In addition, in the field of environmental science, lead alum related research may provide ideas for the treatment of lead pollution in soil and water. Due to its chemical composition and structural characteristics, it may participate in the adsorption and precipitation of lead pollutants, which can help the development of environmental remediation projects.

3- (4-Aminophenylazo) benzenesulfonic acid, what is the synthesis method of sodium salt?

To prepare 3 - (4 - aminobenzyl cyanide) zinc benzoate soap, the method is as follows:
First take an appropriate amount of raw material, that is, 3 - (4 - aminobenzyl cyanide) benzoic acid. This substance needs to be carefully screened to ensure its purity and quality to meet the requirements of the reaction.
Place it in a clean reaction vessel, and slowly add zinc salt in an appropriate proportion. The choice of this zinc salt is very critical, depending on the characteristics of the reaction and the desired product quality. When adding, it should be uniform and slow, and at the same time, with moderate stirring, so that the two are fully mixed, so that the reaction can be evenly carried out.
During the reaction process, temperature control is indispensable. The reaction system needs to be maintained at a specific temperature range. This temperature should not be too high, so as not to cause side reactions and damage the purity of the product; nor should it be too low, causing the reaction rate to be slow and time-consuming. With the help of precise temperature control equipment, the temperature is stabilized in a suitable range.
In addition, the reaction time also needs to be precisely controlled. After continuous stirring and reaction at a suitable temperature, when the reaction reaches the expected level, the reaction should be stopped in time.
After the reaction is completed, the product is carefully separated and purified. Filtration, washing, recrystallization and other methods can be used to remove impurities to obtain pure 3 - (4-aminobenzyl cyanide) zinc benzoate soap. Each step requires strict operation to ensure the quality and yield of the product. In this way, high-quality 3 - (4 -aminobenzyl cyanide) zinc benzoate soap can be obtained.

What are the chemical properties of 3- (4-aminophenyl azo) benzenesulfonic acid, sodium salt?

The chemical properties of Fu 3- (4-aminobenzoyl hydrazide) benzenesulfonic acid and cupric ammonia are an important item for practical chemical investigation.
3- (4-aminobenzoyl hydrazide) benzenesulfonic acid has the structural characteristics of benzenesulfonic acid and aminobenzoyl hydrazide. Its benzenesulfonic acid group is acidic and can be partially ionized in water, releasing protons, and has the general property of acid. It can neutralize and react with alkali substances to generate corresponding salts and water. The amino group is alkaline and can bind protons, showing certain alkaline characteristics. The amide bonds in this compound can be hydrolyzed under suitable conditions, such as strong acids, strong bases or specific enzymes, to break the amide bonds and form corresponding amines and carboxylic acids.
As for copper ammonia, it is a complex formed by copper ions and ammonia molecules. Copper ions in aqueous solutions often have certain oxidation properties and can undergo oxidation-reduction reactions with reducing substances. When copper ions are complexed with ammonia molecules, their chemical properties change. The stability of copper-ammonia complexes depends on factors such as the concentration of ammonia and the pH of the solution. In the alkaline environment, the copper-ammonia complex is relatively stable; if the acidity of the solution increases, the ammonia molecules are easy to combine with protons, resulting in the dissociation of the copper-ammonia complex and the release of copper ions.
When copper ammonia meets 3- (4-aminobenzoyl hydrazide) benzenesulfonic acid, or due to their acid-base properties and redox activity, various chemical reactions occur. Or due to the oxidation of copper ions, it reacts with the reducing groups in the compound; or due to the acid-base groups of the compound and the copper-ammonia complex, acid-base neutralization or coordination structure adjustment occurs. This requires detailed investigation and analysis according to specific reaction conditions, such as temperature, concentration, pH, etc., in order to clarify the exact chemical changes and product characteristics.

3- (4-Aminophenylazo) benzenesulfonic acid, what are the precautions in the use of sodium salts?

Mercury is highly toxic. When using a mercury cauldron, many things need to be paid attention to. If you are not careful, it will cause disaster.
First, when placed in a well-ventilated place. Mercury is volatile, and its vapor is very toxic. If used in a confined space, steam will accumulate and be inhaled into the human body, damaging the nervous, digestive, and immune systems, causing tremors, insomnia, headaches, abdominal pain, and other diseases, and even life-threatening. Therefore, in the place of operation, it must be well ventilated, or placed in a fume hood to dissipate steam.
Second, be careful not to spill mercury. Mercury has strong fluidity. Once spilled, it is difficult to collect, and small mercury droplets are formed, which are hidden everywhere and continue to evaporate. If it is sprinkled, collect it quickly with a dropper, tinfoil, etc., and sprinkle the residual part with sulfur powder to make the mercury react with sulfur to form mercury sulfide and reduce toxicity.
Third, properly store the mercury and mercury cauldron. After use, the mercury is sealed in a container, marked with the substance and date, and stored in a cool, ventilated place out of the reach of children. The mercury cauldron is also washed, dried, and placed in a safe place to prevent damage and pollution caused by mercury residues.
Fourth, the person using it should wear protective equipment. When starting the operation, you must wear gloves, masks, and lab clothes, which are fully protected to avoid mercury contact with the skin and inhalation of steam. After the operation, wash your hands and face, and change your clothes.
Fifth, be familiar with emergency methods. If you have symptoms of mercury poisoning, leave the scene quickly and seek medical treatment. Mercury spills are not collected in time, and if the vapor concentration is high, they will also leave quickly. Ventilate and ventilate, and call the police to ask professionals for help.
In short, the use of mercury cauldrons is related to life safety, so you must not take it lightly. Operate in strict accordance with norms and precautions to ensure safety.

What are the market prospects for 3- (4-Aminophenylazo) benzenesulfonic acid, sodium salts?

Today, there is a market prospect of 3 - (4 - aminobenzoyl hydrazide) benzoic acid and copper oxime, and I will say it in ancient words.
Guanfu 3 - (4 - aminobenzoyl hydrazide) benzoic acid, this is an organic compound. In the field of pharmaceutical and chemical industry, its use is quite extensive. In the way of drug research and development, it may be a key intermediate to help create novel drugs to treat various diseases. Due to its unique structure, it can interact with a variety of biomolecules, attracting the attention of the academic and industrial circles. Its market prospect is like the rising sun, gradually brightening. With the advancement of medical technology, the demand for it may increase day by day, and it is expected to open up a broader market territory.
As for copper oxime, it is also indispensable in the field of chemistry. In material science, it may be able to participate in the synthesis of materials with specific properties, such as for electronic components, catalytic materials, etc. In industrial production, it can be used as a catalyst aid to improve reaction efficiency and selectivity. And its stability and reactivity characteristics give it an important position in chemical processes. Today, with the rapid development of science and technology, the rise of emerging industries, the demand for special materials and high-efficiency catalysts is on the rise, and the copper oxime market is also booming.
Looking at the two, they are both in the torrent of technological progress and driven by industrial upgrading. Although there may be competition in the current market, there are also abundant opportunities. Over time, with the investment in research and development and technological innovation, we will be able to win a place in the market, and the future can be described as smooth, like a horse racing towards the vast future.