2,7-Naphthalenedisulfonic Acid, 4-Amino-5-Hydroxy-3-(2-(4'-(2-(4-Hydroxy-2-((2-Methylphenyl)Amino)Phenyl)Diazenyl)(1,1'-Biphenyl)-4-Yl)Diazenyl)-6-(2-(4-Sulfophenyl)Diazenyl)-, Sodium Salt (1:3)Trisodium (3Z)-5-Amino-6-[(E)-{4'-[(2E)-2-{2-[(2-Methylphenyl

Lingxian Chemical

Specifications

HS Code	767125
Chemical Name	2,7 - Naphthalenedisulfonic Acid, 4 - Amino - 5 - Hydroxy - 3 - (2 - (4' - (2 - (4 - Hydroxy - 2 - ((2 - Methylphenyl)Amino)phenyl)Diazenyl)(1,1' - Biphenyl)-4 - Yl)Diazenyl)-6 - (2 - (4 - Sulfophenyl)Diazenyl)-, Sodium Salt (1:3)
Common Name	Trisodium (3Z)-5 - Amino - 6 - [(E)-{4' - [(2E)-2 - {2 - [(2 - Methylphenyl]}

Packing & Storage

Packing	Packaging for 500g of 3 - sodium salt of 2,7 - Naphthalenedisulfonic acid derivative chemical.
Storage	Store the trisodium salt of 2,7 - Naphthalenedisulfonic acid derivative in a cool, dry place away from heat, ignition sources, and moisture. Keep it in a tightly - sealed container to prevent exposure to air that could lead to oxidation or hydrolysis. Avoid storing near incompatible substances, such as strong oxidizers or bases.
Shipping	Shipping of 2,7 - Naphthalenedisulfonic Acid, a complex chemical with multiple substituents and as a trisodium salt, requires compliance with strict regulations. Packed in sealed containers to prevent spills, it is shipped by ground or sea with proper hazard labels.

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2,7-Naphthalenedisulfonic Acid, 4-Amino-5-Hydroxy-3-(2-(4'-(2-(4-Hydroxy-2-((2-Methylphenyl)Amino)Phenyl)Diazenyl)(1,1'-Biphenyl)-4-Yl)Diazenyl)-6-(2-(4-Sulfophenyl)Diazenyl)-, Sodium Salt (1:3)Trisodium (3Z)-5-Amino-6-[(E)-{4'-[(2E)-2-{2-[(2-Methylphenyl

General Information

Historical Development

There is now a thing called 2,7-naphthalene disulfonic acid, 4-amino-5-hydroxy-3 - (2 - (4 '- (2 - methylphenyl) amino) phenyl) diazo) (1,1' -biphenyl) - 4 - group) diazo) - 6 - (2 - (4 - sulfophenyl) diazo) -, sodium salt (1:3), i.e. trisodium (3Z) - 5 - amino - 6 - [ (E) - {4 '- [ (2E) - 2 - {2 - methylphenyl). The historical development of this substance is worth exploring. Tracing its origin, it was unknown at the beginning, but after various studies, it gradually became known to the academic community. Early knowledge of it was shallow, and only a little bit of its properties were known. However, with the passage of time, researchers have made unremitting efforts to study its structure, characteristics and uses. The cognition of its structure, characteristics and uses has become more and more detailed, and its application has become more and more extensive. It has emerged in many fields. It is an important product in the process of chemical research.

Product Overview

There is now a thing called 2,7-naphthalene disulfonic acid, 4-amino-5-hydroxy-3 - (2 - (4 '- (2 - methylphenyl) amino) phenyl) diazo) (1,1' -biphenyl) - 4 - yl) diazo) - 6 - (2 - (4 - sulfophenyl) diazo) -, sodium salt (1:3), also known as trisodium (3Z) - 5 - amino - 6 - [ (E) - {4 '- [ (2E) - 2 - {2 - [ (2 - methylphenyl). This substance has a complex structure and a variety of groups. The structure of its naphthalene disulfonic acid is connected with many functional groups such as amino, hydroxyl, and diazo groups. It exists in the form of sodium salts, or its properties are affected by ionic properties. This structure makes it unique in the fields of chemical industry and materials. It can be used for dye preparation and color development by diazo coupling reaction; or in drug research and development, exploring pharmacological activities with its diverse groups is a compound worthy of further investigation.

Physical & Chemical Properties

The compound is named 2,7-naphthalenedisulfonic acid, 4-amino-5-hydroxy-3- (2 - (4 - hydroxy-2 - ((2 - methylphenyl) amino) phenyl) diazo) (1,1 '-biphenyl) - 4 - yl) diazo) - 6- (2- (4 - sulfophenyl) diazo) -, sodium salt (1:3) trisodium (3Z) - 5 - amino - 6- [ (E) - {4' - [ (2E) - 2 - {2 - [ (2 - methylphenyl).
Today there is a product, which is a chemically synthesized product with unique physical and chemical properties. This 2,7 - naphthalene disulfonic acid derivative has a delicate structure and contains many groups such as diazo group and sulfonyl group. Its physical properties may be in the state of powder, and its color may be characterized. Chemically, due to the presence of amino groups, hydroxyl groups and other active groups, it has certain reactivity and can participate in coupling, substitution and other reactions. However, its specific properties need to be explored in detail by experiments to analyze its change laws in order to clarify its application potential in chemical, materials and other fields.

Technical Specifications & Labeling

Guanfu 2,7-naphthalene disulfonic acid, 4-amino-5-hydroxy-3- (2- (4-hydroxy-2- ((2-methylphenyl) amino) phenyl) diazo) (1,1 '-biphenyl) - 4-yl) diazo) - 6- (2- (4-sulfophenyl) diazo) -, sodium salt (1:3) trisodium (3Z) - 5-amino-6- [ (E) - {4' - [ (2E) The process specification and identification (product parameters) of - 2 - {2 - [ (2 - methylphenyl) compounds are really the key to chemical research.
The process specification needs to clarify the method of synthesis, and the ratio of raw materials and reaction conditions must be accurate. Such as temperature control geometry, pressure, and reaction duration are all related to product quality. The identification makes the product characteristics clear, from chemical structure to physical properties, from use to storage method, all parameters should be clear and clear. In this way, the product is excellent, used in industry, accurate, and adds to the progress of chemical industry.

Preparation Method

Now to describe 2,7-naphthalene disulfonic acid, 4-amino-5-hydroxy-3- (2 - (4-hydroxy-2 - ((2-methylphenyl) amino) phenyl) azo) (1,1 '-biphenyl) -4-yl) azo) -6- (2- (4-sulfophenyl) azo) -, sodium salt (1:3) trisodium (3Z) -5-amino-6- [ (E) - {4' - [ ( 2E) - 2 - {2 - [ (2 - methylphenyl) product preparation method.
The selection of raw materials needs to be carefully selected, and the ratio of raw materials for this compound is related to success or failure. In the synthesis process, the reaction steps need to be strictly controlled, and the reaction conditions such as temperature, duration, and catalyst dosage at each step are all exquisite. For example, after the starting materials are mixed, the reaction is carried out at a specific temperature for several hours, and the reaction is moderate, and then the subsequent reactions are carried out in sequence. The conversion mechanism cannot be ignored. The interaction between each group needs to be clarified, so as to ensure the smooth reaction, improve the purity and yield of the product, and prepare qualified products.

Chemical Reactions & Modifications

A chemical substance, name 2,7-naphthalene disulfonic acid, 4-amino-5-hydroxy-3- (2- (4-hydroxy-2- ((2-methylphenyl) amino) phenyl) azo) (1,1 '-biphenyl) -4-yl) azo) -6- (2- (4-sulfophenyl) azo) -, sodium salt (1:3) trisodium (3Z) -5-amino-6- [ (E) - {4' - [ (2E) - 2 - {2 - [ (2 - methylphenyl)... Its chemical reaction and modification are quite critical.
Looking at this substance, the chemical reaction is like the change of ancient alchemy, where the components touch, like the intersection of yin and yang, producing a wonderful transformation. The modification is like a skilled craftsman carving beautiful jade and giving it new quality. The wonders of chemistry can be seen in this case. With the power of reaction, the nature of matter can be changed, just like the ancient alchemy, using the law as a guide to obtain new treasures, hoping to explore its mysteries, using its energy, for the needs of the world.

Synonyms & Product Names

In the past, there were a group of craftsmen who focused on the study of a wonder. This substance is called 2,7-naphthalene disulfonic acid, 4-amino-5-hydroxy-3- (2- (4-hydroxy-2- ((2-methylphenyl) amino) phenyl) azo) (1,1 '-biphenyl) -4-yl) azo) -6- (2- (4-sulfophenyl) azo) -, sodium salt (1:3) trisodium (3Z) -5-amino-6- [ (E) - {4' - [ (2E) - 2 - {2 - [ (2 - methylphenyl), its nickname and trade name are also important in the industry.
The craftsmen study carefully, with exquisite techniques, they want to discover all its characteristics. Or find the beauty of its color, or explore its stability. In that workshop, the lights are always on, and everyone works tirelessly. This research object is either used for coloring, to make the fabric brilliant; or for other purposes, to add new things to all industries. The heart of a craftsman is tied to quality, and strives to present it in the world in the best state, so as to make a good story and pass it on to future generations.

Safety & Operational Standards

"About 2,7-naphthalene disulfonic acid, 4-amino-5-hydroxy-3- (2- (4-hydroxy-2- ((2-methylphenyl) amino) phenyl) diazo) (1,1 '-biphenyl) - 4-yl) diazo) - 6- (2- (4-sulfophenyl) diazo) -, sodium salt (1:3) trisodium (3Z) - 5-amino-6- [ (E) - {4' - [ (2E) - 2 - {2 - [ (2 - methylphenyl) product safety and operating specifications "
Chemical substances are related to safety, and they can only be obtained if they are operated in a regular manner. Today, when discussing this genus of 2,7 - naphthalene disulfonic acid, its name is complicated, but it is related to safe operation, which must not be ignored.
When hiding, you must choose a dry and cool place to avoid water and fire, and prevent its deterioration and danger. When taking it, you need to hold a clean device and measure it according to the prescribed method. Don't act rashly. If the skin touches it, wash it with water as soon as possible, and even seek medical treatment. If it enters the eye, you should also rinse it with water urgently, and do not delay it.
Apply to the reaction to predict its nature, control the temperature and speed, and proceed according to the program. Where the reaction is, the air should be cleared, and the foul gas should be removed to prevent the accumulation of
When discarded, dispose of it in accordance with the law, and do not dump it indiscriminately, for fear of sewage and soil.
In short, in the chemical industry, caution is essential. For such things, abide by the rules of safe operation, so as to be safe and promote karma.

Application Area

A chemical called 2,7 - Naphthalenedisulfonic Acid, 4 - Amino - 5 - Hydroxy - 3 - (2 - (4 '- (2 - (4 - Hydroxy - 2 - ((2 - Methylphenyl) Amino) Phenyl) Diazenyl) (1,1' - Biphenyl) - 4 - Yl) Diazenyl) - 6 - (2 - (4 - Sulfophenyl) Diazenyl) -, Sodium Salt (1:3) Trisodium (3Z) - 5 - Amino - 6 - [ (E) - {4 '- [ (2E) ) - 2 - {2 - [ (2 - Methylphenyl. This material has a wide range of application fields. In the dyeing and weaving industry, it can be used as a dye to give fabrics a gorgeous color, bright and lasting, and the dyed product is radiant. In the field of scientific research, it can be an experimental reagent to help explore the mechanism of chemical reactions and gain insight into the mysteries of material changes. Although its name is long and complicated, its effectiveness is extraordinary. It plays a pivotal role in many industries and is a chemical substance that cannot be underestimated.

Research & Development

There is now a product named 2,7-naphthalene disulfonic acid, 4-amino-5-hydroxy-3- (2 - (4 '- (2 - methylphenyl) amino) phenyl) diazo) (1,1' -biphenyl) - 4 - yl) diazo) - 6 - (2 - (4 - sulfophenyl) diazo) -, sodium salt (1:3) trisodium (3Z) - 5 - amino - 6 - [ (E ) - {4 '- [ (2E) - 2 - {2 - [ (2 - methylphenyl). I am a chemical researcher. To observe this compound, its structure is complex and contains many special groups.
To explore this substance in depth, it is necessary to borrow sophisticated instruments and conduct various experiments. First study its physical properties, such as color, morphology, melting point, etc. Then analyze its chemical properties, observe its reaction with various substances, in order to clarify its activity and stability. In the process of exploration, rigorous operation is required and detailed data are recorded.
If the research is successful, it may be of great use in the fields of materials science and medicine. New materials can be developed to improve their properties; or special drugs can be developed to benefit the world. However, rigorous research and unremitting exploration are required to reveal the potential value of compounds and promote the progress and development of science.

Toxicity Research

There is now a thing called 2,7-naphthalene disulfonic acid, 4-amino-5-hydroxy-3 - (2 - (4 '- (2 - methylphenyl) amino) phenyl) diazo) (1,1' -biphenyl) - 4 - yl) diazo) - 6 - (2 - (4 - sulfophenyl) diazo) -, sodium salt (1:3) trisodium (3Z) - 5 - amino - 6 - [ (E) - {4 '- [ (2E) - 2 - {2 - [ (2 - methylphenyl). As a chemical property researcher, I focus on the exploration of its toxicity.
The study of toxicity concerns all living beings. The structure of this substance is complex, and the combination of groups or the secret of hidden toxicity. I scrutinize its molecular structure carefully, compare similar things, and examine its changes in different environments to deduce the strength of its toxicity. Although it is difficult, I dare not slack off. Hope to get the truth and understand the impact of this substance on living things and the environment, so that when the world uses this substance, it will add a safety guarantee, prevent problems before they occur, and protect the safety of all things.

Future Prospects

Fu Jin has a product named 2,7-naphthalene disulfonic acid, 4-amino-5-hydroxy-3- (2- (4- (2- (4-hydroxy-2- ((2-methylphenyl) amino) phenyl) azo) (1,1 '-biphenyl) -4-yl) azo) -6- (2- (4-sulfophenyl) azo) -, sodium salt (1:3) trisodium (3Z) -5-amino-6- [ (E) - {4' - [ (2E) - 2 - {2 - [ (2 - methylphenyl. The future development of this substance is really what we look forward to. It may open up new avenues in the field of chemical industry. Although it is only known by its name now, it is expected that in the future, it will be able to use our research power to emerge in various fields such as medicine and materials, and be used by the world to solve many problems, make great achievements, and develop infinite possibilities. This is the wish of our chemical researchers. We hope that it will make great achievements and shine in the future.

Frequently Asked Questions

The chemical name of this product is so complex, what is its main purpose?

The chemical name of this substance is so complex, what is its main use? I try to answer it in the style of "Tiangong Kaiwu".
The names of all things in the world may be simple or complex, and the names of chemistry are complex. Such complex names are not born for no reason, but to accurately describe their essential characteristics.
As for uses, everything has its own uses, either in daily use or hidden in industrial areas. Taking various chemical products as an example, they are used for people's livelihood, fabric dyeing, clothing making to keep warm, and chemical products can help with bright color and good texture. They are used for people's homes and the improvement of building materials to make them durable, fireproof and moisture-proof. All rely on the preparation and synthesis of complex chemical products.
In industrial production, such complex chemical products are even more indispensable. Machinery manufacturing requires its help to improve metal properties and make them tough and wear-resistant; in the electronic field, it can be used to manufacture various types of precision chips and circuit boards to ensure the stable operation of electronic equipment.
In addition, in the process of medicine, many complex chemical substances have been refined and synthesized to become a good medicine for treating diseases and saving people, overcoming difficult and complicated diseases, and protecting the health of all beings.
In agriculture, the drugs that increase production and the prescriptions for deworming and disease resistance are mostly derived from this complex chemical product.
Therefore, this chemical name is complex and has a wide range of uses. It is related to people's livelihood, industry, medicine, agriculture and many other fields. It plays a pivotal role in the development of the world. Although its name is difficult, its use should not be underestimated.

This product (2,7-naphthalenedisulfonic acid, 4-amino-5-hydroxy-3- (2 - (4-hydroxy-2- ((2-methylphenyl) amino) phenyl) diazo) (1,1 '-biphenyl) -4-yl) diazo) -6- (2- (4-sulfophenyl) diazo) -, sodium salt (1:3) trisodium (3Z) - 5-amino-6- [ (E What are the physicochemical properties of - {4 '- [ (2E) - 2 - {2 - methylphenyl) ]})?

Looking at the thing described here, it is a complex compound whose name is made up of a list of many groups, just like a string of exquisitely woven character codes. To investigate the physical and chemical properties of this compound, its structure needs to be analyzed in detail.
In terms of its structure, many groups are connected to each other, or affect its spatial configuration and electron cloud distribution. For the part of 2,7-naphthalene dicarboxylic acid, the naphthalene ring has a conjugated system, which endows the molecule with certain stability and rigidity, and the presence of carboxyl groups makes the compound acidic and can neutralize with bases. 4 - Hydroxy - 5 - methoxy - 3 - (2 - (4 '- (2 - (4 - methoxy - 2 - (2 - methylbenzyl) hydroxy) benzyl) diazo) (1,1' -bibenzyl) - 4 - group) diazo) - 6 - (2 - (4 - oxy benzyl) diazo) -, this long chain part contains a variety of substituents, the electron supply effect of methoxy group or changes the electron cloud density of benzene ring, which affects the reactivity; the diazo group is active, or the compound has special reactivity , such as participating in coupling reactions, etc.
Re-examine its physical properties, given that the molecule contains more polar groups and larger conjugated systems, or has a certain melting point and boiling point, and may have a certain solubility in polar solvents. Chemically, carboxyl groups can undergo esterification and salt formation reactions; hydroxyl groups can participate in substitution, dehydration and other reactions; the reactivity of diazo groups makes compounds or key intermediates for the synthesis of new substances.
As for mercury salts (1:3) tri-mercury (3Z) - 5 -hydroxy-6- [ (E) - {4 '- [ (2E) - 2 - {2 - methylbenzyl) ]}]}, the existence of this part of mercury salts may significantly affect the overall properties of the compound, and the special chemical properties of mercury may make the compound have unique reaction pathways and applications. However, the specific physical and chemical properties of this compound still need to be precisely determined and studied experimentally.

What is the effect of the structure of the product's trisodium (3Z) - 5 - amino - 6 - [ (E) - {4 '- [ (2E) - 2 - {2 - methylphenyl) ]}] on its performance?

Looking at the structure of this utensil, it is composed of "the three nails of the product (3Z) - 5 - hydroxy - 6 - [ (E) - {4 '- [ (2E) - 2 - {2 - [ (2 - methyl benzyl) ]}]". This unique structure has many key effects on its performance.
First, the stability. The existence of methyl benzyl is like building a barrier for molecules due to its steric barrier effect. When external factors want to disturb the molecular structure, this spatial barrier makes it difficult for other molecules or groups to approach, thus effectively improving the overall stability of the product. Just like the barrier of the ancient city, it resists foreign invasion, so that the product can maintain its own structural integrity in a complex environment and does not easily decompose or deteriorate.
Then look at the reactivity. As an active group, the hydroxyl group gives the product a certain hydrophilicity and reactivity. In a specific chemical reaction scene, the hydroxyl group is like a key, which can open the door to react with other hydrophilic substances or specific reagents, promoting the smooth progress of the reaction. The structure of the (E) configuration part further regulates the direction and rate of the reaction. Just like the command of a general during a march and war, it determines the reaction to advance in a specific direction, so that the product shows unique chemical properties during synthesis and application.
In addition, from the perspective of intermolecular interactions, the overall structure affects the intermolecular forces. The non-polar part of methyl benzyl promotes the generation of van der Waals forces between molecules, which affects the aggregate state and solubility of the product. If it is in a solution system, its solubility performance is closely related to the structure, or it dissolves well, or forms a specific aggregate form, which plays a crucial role in the performance of the product in practical applications, such as drug delivery, material processing, etc.

How complex is the process for synthesizing this 2,7-naphthalene disulfonic acid-related sodium salt product in industrial production?

In the process of production, the synthesis of this 2,7-naphthalene dicarboxylic acid phase is difficult to achieve. The cost of its synthesis, due to the high quality of naphthalene dicarboxylic acid, requires many delicate steps.
First and foremost, the precision of the raw materials is of paramount importance. The starting materials used must be high quality, and the raw materials must be high quality. In addition, the control of the reaction parts, such as the degree of resistance, force, catalytic consumption, etc., are all refined to the millimeter. If the degree is slightly higher, the reaction or inducing degree will generate unnecessary by-products; if the degree is slightly lower, the reaction will be low, so that the ideal reduction rate can be achieved.
In the synthesis process, multiple steps are connected to each other, such as the interlocking of the two, and there is a loss in the first step, and the whole process is lost. The processing of each step is also very difficult, involving the migration of the child cloud and the generation of the cracking of the chemical. It is necessary to make the deep and exquisite of the chemical, in order to cleverly lead the reverse to the direction of the long-term.
The process of lifting the chemical is also not easy. Naphthalene dicarboxylic acid has similar properties, and in order to improve its performance, it is necessary to use high-efficiency separation techniques, such as fine, crystalline, and color separation. Each technology has its own limitations. How to use it together to achieve the best improvement effect is a test of the wisdom of the worker. In terms of

, the synthesis of 2,7-naphthalene dicarboxylic acid phase is difficult to produce, and it requires a lot of attention to raw materials, reaction, lifting, etc. If you are not careful, you will be able to complete the work.

What are the competitive advantages and disadvantages of this product in the market?

Nowadays, there are all kinds of things in the city, and the advantages and disadvantages of their competition are different.
When it comes to the advantages of its competition, the first thing to consider is its quality. This product has excellent texture, high-quality material selection, and skillful production. It can be durable over time and will not be easily destroyed. Looking at it, the texture is delicate, the color is warm, and it is like heaven. This is the proof of quality, which makes it difficult for the same kind to compare.
Furthermore, it is widely used. It can be applied to all kinds of situations, or for daily needs, or in special situations. If you travel, it can help; when you are at home, it can also add convenience. This versatility makes it unique in the city, and it is favored by everyone.
Again, its reputation is quite high. Those who used it in the past praised it more and praised it better, and the reputation was far and wide. Everyone told and believed it, so more people wanted to use it. Such a reputation is actually accumulated, not overnight, and it is also a great help for its competition for the best.
However, there are also those who compete for the worst. First, the price is high. Because of its high quality, wide use, and good reputation, its price is higher than that of other things. This makes many who want to buy, because of financial limitations, discouraged. Although it is valued for money, there is no shortage of those who seek cheap prices in the market, and this high price becomes a hindrance.
Second, it is difficult to pass on. Although there are many good things about it, the way of publicity is not good. Among many of its kind, it is not widely known. If there are precious trees hidden in the forest, few people will find it. This makes many potential customers unaware of its beauty, and many business opportunities will be lost.
Third, newcomers compete for it. The market changes, and new things come out frequently. Although this product has advantages, new things may have different ingenuity, which can attract the attention of everyone. If you don't keep pace with the times, research and seek changes, you will gradually be afraid of being eliminated by the market.
Therefore, this product is in the city, competing for quality, use, and reputation, while competing for inferiority in price, biography, and competition for new things. If you want to grow and prosper in the city, you should promote your strengths and make up for your weaknesses in order to be invincible.