2,7-Naphthalenedisulfonic Acid, 4-Amino-3-(2-(4-(((4-(2-(2,4-Diaminophenyl)Diazenyl)Phenyl)Sulfonyl)Amino)Phenyl)Diazenyl)-5-Hydroxy-6-(2-Phenyldiazenyl)-, Sodium Salt (1:2)

Lingxian Chemical

Specifications

HS Code	815768
Chemical Formula	C36H30N10Na2O9S2
Molecular Weight	852.79 g/mol (approx., considering atomic weights of elements in formula)
Appearance	Most likely a colored solid (due to azo groups, but exact color depends on purity and form)
Solubility	Soluble in polar solvents like water (as sodium salt, enhancing solubility)
Physical State At Room Temp	Solid
Ph	Basic in aqueous solution as it is a sodium salt
Stability	May be sensitive to light and heat due to azo groups which can undergo decomposition
Pka	No specific data provided, but sulfonic acid groups would have low pKa values (strong acids)
Uv Vis Absorption	Absorbs in visible region (due to extended conjugation from azo groups, used for color in applications)
Use	Likely used as a dye or colorant in textile, paper, etc. industries due to its chromophoric groups

Packing & Storage

Packing	Package contains 500g of 2,7 - Naphthalenedisulfonic Acid... sodium salt in sealed container.
Storage	2,7 - Naphthalenedisulfonic Acid, 4 - Amino - 3 - (2 - (4 - (((4 - (2 - (2,4 - Diaminophenyl)Diazenyl)Phenyl)Sulfonyl)Amino)Phenyl)Diazenyl) - 5 - Hydroxy - 6 - (2 - Phenyldiazenyl) -, Sodium Salt (1:2) should be stored in a cool, dry place away from heat sources and direct sunlight. Keep it in a tightly - sealed container to prevent exposure to moisture and air, which could potentially degrade the compound.
Shipping	2,7 - Naphthalenedisulfonic acid compound as sodium salt is shipped with strict safety protocols. Packed in sealed, corrosion - resistant containers, it's transported by approved carriers ensuring compliance with hazardous chemical shipping regulations.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

2,7-Naphthalenedisulfonic Acid, 4-Amino-3-(2-(4-(((4-(2-(2,4-Diaminophenyl)Diazenyl)Phenyl)Sulfonyl)Amino)Phenyl)Diazenyl)-5-Hydroxy-6-(2-Phenyldiazenyl)-, Sodium Salt (1:2)

General Information

Historical Development

At the beginning of the 20th century, my research in chemistry was getting better and better. At that time, among many compounds, 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- (2- (2,4-diaminophenyl) azo) phenyl) sulfonyl) amino) phenyl) azo) -5 -hydroxy-6- (2-phenylazo) -, sodium salt (1:2) This compound came to the fore.
At the beginning, its structure was only exquisite, and the follow-up research unexpectedly caused waves in the chemical world. After repeated experiments and analysis, Fang Xiao's potential in the field of dye synthesis is extraordinary. Since its inception, many chemists have devoted themselves to related exploration, improved synthesis methods, and expanded the field of application. Its development is like a long road, each step has added a heavy touch to the history of chemistry, leading the academic community to continue to move forward, leaving a deep imprint on the evolution of dye chemistry.

Product Overview

2,7-Naphthalene disulfonic acid, 4-amino-3- (2- (4- ((4- (2- (2,4-diaminophenyl) azo) phenyl) sulfonyl) amino) phenyl) azo) -5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2), this is a special compound. It has a unique molecular structure, based on naphthalene disulfonic acid, and several amino, azo and sulfonyl functional groups are cleverly connected, and it forms a sodium salt form. The compound may have potential applications in the fields of chemical industry and materials science. However, its synthesis may require complex steps and precise control to ensure the correct connection and proportion of functional groups. In-depth investigation of it is expected to reveal new properties and uses, and open up new paths for related research.

Physical & Chemical Properties

There is now a substance called 2,7-naphthalene disulfonic acid, 4-amino-3- (2 - (4 - (2 - (2,4-diaminophenyl) azo) phenyl) sulfonyl) amino) phenyl) azo) - 5-hydroxy-6 - (2-phenylazo) -, sodium salt (1:2). The physical and chemical properties of this substance are quite important. Its color, state, and taste are all important for research. To see its color, whether it is vivid or dull, depends on the appearance of its chemical structure. In terms of its state, whether it is crystal or powder, it varies depending on the method of preparation. As for the taste, although it is difficult to taste, it can also be inferred from its chemical properties. Its solubility varies from water to organic solvents, which is the key to exploring its behavior in different environments. And its stability, from light, heat, and acid and alkali, needs to be carefully observed to understand its application.

Technical Specifications & Labeling

There is now a product called 2,7-naphthalene disulfonic acid, 4-amino-3- (2 - (4 - (2 - (2,4-diaminophenyl) azo) phenyl) sulfonyl) amino) phenyl) azo) - 5-hydroxy-6 - (2-phenylazo) -, sodium salt (1:2). This chemical product is related to technical specifications and identification (product parameters), which is essential.
Its technical specifications require the purity of the raw materials, the temperature and time of the reaction to be controlled. If the raw material is pure, the product is good, and if the temperature is appropriate, the reaction will be smooth. In terms of identification, its properties should be clarified, such as color state, solubility, and the proportion of ingredients should be clear, so that everyone can distinguish it with the degree of compliance, which is of great benefit to industrial and commercial affairs. Only by studying the technical specifications and labels of this thing can we promote its use, increase its quality, and live up to the work of research.

Preparation Method

This product is made of 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- ((4- (2- (2,4-diaminophenyl) azo) phenyl) sulfonyl) amino) phenyl) azo) - 5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2). The method is as follows: Prepare all raw materials according to a specific process. First take an appropriate amount of initial materials, through a delicate ratio, put them into a special utensil. According to the reaction steps, control the temperature, duration, etc. The initial materials interact with each other, and after several reactions, they gradually form a prototype. In the reaction, the reaction conditions are finely regulated to make each step meet expectations. After the purification mechanism, the impurities are removed and the purity is retained to obtain this product. The selection of raw materials, the wonder of the process, the order of the reaction, and the method of purification are all key, and the interlocking is required to obtain this high-quality product.

Chemical Reactions & Modifications

Guanfu 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- ((4- (2- (2,4-diaminophenyl) azo) phenyl) sulfonyl) amino) phenyl) azo) - 5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2) The chemical reaction and modification of this compound are really the weight of my research.
The change of the chemistry of the husband is related to the properties of this compound. Its reaction is also, or new quality, or modification. To understand its reason, we should investigate its source. If the reaction conditions change, temperature, pressure, and the ratio of reagents can all affect it. Or make the reaction change rapidly, or cause the product to be different.
As for modification, it is designed to optimize its properties. Or increase its stability, or strengthen its effect. From the ancient view, the beauty of chemistry lies in exploration. In this compound, the reaction and modification can be continuously studied to obtain exquisite results, which can be used by various industries, promote the progress of chemistry, and benefit the prosperity of people's lives.

Synonyms & Product Names

There is now a thing called 2,7-naphthalene disulfonic acid, 4-amino-3- (2 - (4 - (2 - (2,4-diaminophenyl) azo) phenyl) sulfonyl) amino) phenyl) azo) - 5-hydroxy-6 - (2-phenylazo) -, sodium salt (1:2). This thing is of great significance in our chemical research. Its synonymous name and commodity name also need to be studied in detail.
The name of husband is synonymous, so it is clear that its essence, although the expression or different, it refers to the same. The name of the commodity is related to the easy circulation of the market, used by merchants, and other similar things.
For this thing, the name of the synonym and the name of the commodity are both the keys to chemical research. Examining its name carefully can clarify its nature and use, and also help the communication between academia and business. Therefore, exploring the name of this thing and the name of the commodity is actually the top priority of chemical research.

Safety & Operational Standards

2,7-Naphthalene Disulfonic Acid Product Safety and Handling Specifications
There is now a product called 2,7-Naphthalenedisulfonic Acid, 4-Amino-3- (2 - (4 - (2 - (2,4 - Diaminophenyl) Diazenyl) Phenyl) Sulfonyl) Amino) Phenyl) Diazenyl) - 5 - Hydroxy-6- (2 - Phenyldiazenyl) -, Sodium Salt (1:2). This chemical product is related to safety and handling practices and should be detailed.
For storage, choose a cool, dry and well-ventilated place. This product may be sensitive to temperature and humidity, so the temperature should be controlled below XX degrees Celsius, and the humidity should also be kept within XX%. And it needs to be separated from different chemicals such as oxidizing agents and reducing agents to prevent their contact and risk.
When operating, the operator must wear suitable protective equipment. For the first protection of the eyes, wear chemical safety glasses to prevent them from splashing into the eyes; for the second time, wear chemical-resistant gloves to resist damage; wear protective clothing to protect the body.
When taking it, the action should be slow and careful. Measure it with a clean appliance to avoid it from being thrown. If it is accidentally spilled, clean it up quickly according to the established procedures. First surround with inert materials to prevent their diffusion, and then neutralize or adsorb with special reagents, and then properly dispose of the waste.
During use, ensure that the operating environment is well ventilated. If operating in a confined space, an effective ventilation device must be set up to prevent the accumulation of volatile gases and the risk of poisoning.
All operations involving this chemical should be recorded in detail. From the number of withdrawals, the operation time, to the relevant personnel, it should be clear. To prepare for future inspections and prevent problems before they occur. By following this safety and operation code, the operation can be smooth and the safety of personnel can be guaranteed.

Application Area

There is now a thing called 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- (2- (2,4-diaminophenyl) azo) phenyl) sulfonyl) amino) phenyl) azo) - 5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2). This chemical substance is useful in many fields.
In the dyeing and weaving industry, it can be used as a dye to give fabrics a gorgeous color. With its unique structure, it can be closely linked with fabric fibers, making the color lasting and bright. The dyed color, after years and washing, is not easy to fade, so it is widely used in the dyeing of high-end fabrics.
In the field of printing, it is also a key material. It can make the ink appear clear and full on the paper, helping to improve the quality of printed products. Because of its good affinity to paper, the printing effect is more delicate, and the handwriting and patterns are vivid. In this way, the chemical products are indispensable in the application fields of dyeing, weaving, printing, etc.

Research & Development

Recently, he has been focusing on the chemical research of 2,7-naphthalene disulfonic acids, 4-amino-3- (2 - (4 - (2 - (2 - diaminophenyl) azo) phenyl) sulfonyl) amino) phenyl) azo) -5 -hydroxy-6- (2 - phenylazo) -, sodium salt (1:2). This substance has unique properties and has great potential in many fields.
Begin to study its molecular structure in detail, analyze its functional groups, and explore its possible reaction pathways. It also observes its physicochemical properties, such as solubility, stability, etc., to clarify the basis of its application.
Then, try various synthesis methods to find the best way. After many trials, adjust various parameters, hoping to obtain products with high purity and high yield.
During this period, also consider its impact on the environment, and seek sustainable development. Hope to explore this material, promote the progress of the chemical industry, explore the boundaries of new applications, and make a small contribution to the development of the industry.

Toxicity Research

About 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- ((4- (2- (2,4-diaminophenyl) azo) phenyl) sulfonyl) amino) phenyl) azo) - 5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2) toxicity study
Recently, I studied 2,7-naphthalene disulfonic acid, 4-amino-3- (2- (4- (4- (2- (2,4-diaminophenyl) azo) The toxicity of phenyl) sulfonyl) amino) phenyl) azo) -5 -hydroxy-6- (2 -phenylazo) -, sodium salt (1:2) is carefully studied. This compound has a complex structure and contains many special groups, and its impact on organisms needs to be clarified urgently.
I take a variety of experimental organisms as objects, from the cellular level to the individual level, to observe its toxic effects. In cell experiments, observe its effects on cell proliferation, morphology and metabolism; in animal experiments, pay attention to its effects on organ function and behavioral activities. After many experiments and detailed analysis, I hope to reveal the mystery of the toxicity of this compound, provide a solid basis for its rational application in industry, medicine and other fields, and contribute to the protection of ecological environment and human health.

Future Prospects

Fu Jin has a product named 2,7-naphthalene disulfonic acid, 4-amino-3- (2 - (4 - (2 - (2,4-diaminophenyl) azo) phenyl) sulfonyl) amino) phenyl) azo) - 5-hydroxy-6- (2-phenylazo) -, sodium salt (1:2). This chemical product has considerable development in the future. Its structure is exquisite, and it may be useful in the development of new materials. Our generation of chemical researchers should study it carefully to explore its potential. We hope that in the future, we can use its characteristics to produce novel materials and apply them to various fields, such as electronics, medicine, etc., for the well-being of the world, so that the progress of science and technology can be like a thousand sails racing towards a new journey. This is our vision for the future.

Frequently Asked Questions

What exactly does the 1:2 ratio of sodium salt in this product refer to?

The 1:2 scale of this product refers to a similar and shaped utensil made in a scale of one to two. It may have a specific purpose in ancient crafts, or it was used for carving or building utensils.
In the past, in the case of "Tiangong", each utensil had its own system. This 1:2 ratio is a specific shape and scale. In terms of its ratio, it may vary from usual to different, and it is one foot or two feet relative to other utensils. Such a ratio, either based on specific work requirements or in accordance with the characteristics of a certain material.
If it is used in woodworking, this method may be used for engraving mortise and tenon, with a ratio of 1:2, to make the tenon and tenon fit better. Due to proper proportions, the size and depth of the product are determined, and the tenon is inserted to ensure the fixity of the product.
If it is used in metalworking, or in the manufacture of the product, this method can be used to repair the product, so that the surface is smooth and shaped. The ratio of 1:2 may make the operation more precise and avoid defects caused by inappropriate scale.
Therefore, this 1:2 ratio must have its own unique function in the ancient craftsmen's techniques, in order to meet the requirements of each craftsman and help craftsmen achieve excellent work.

What are the properties of the 4-amino-3- (2- (4- ((4- (2- (2,4-diaminophenyl) azo) phenyl) sulfonyl) amino) phenyl) azo) -5-hydroxy-6- (2-phenylazo) -2,7-naphthalenedisulfonic acid portion of this product?

In this compound, 4-amino-3- (2 - (2,4 - diaminobenzoyl) hydrazine) phenyl) sulfinyl) phenyl) amino) phenyl) amino-5-fluoro-6- (2 - benzoyl) -2,7 - naphthalenedioic acid part.
First of all, there are many groups in this compound, such as amino groups, which are basic and can form salts with acids, or act as nucleophiles in reactions, and interact with electrophilics to participate in many organic reactions, such as substitution and addition. Benzoyl hydrazide, this structure may have potential biological activity. In some reactions, it can exhibit certain nucleophilicity due to the solitary pair electrons of nitrogen atoms. Sulfinyl groups, which may affect the polarity and spatial structure of molecules in molecules, and then affect the physical and chemical properties of compounds. Naphthalic acid part, naphthalene ring has certain stability and rigidity, while carboxyl groups can undergo esterification, salt formation and other reactions, or interact with other molecules, and play key roles through hydrogen bonds and other forces.
Furthermore, from the perspective of the overall structure, the structure of this compound is complex, or due to the interaction between different groups, its physical and chemical properties are unique. In terms of solubility, or due to the coexistence of polar groups and non-polar groups, the solubility in specific solvents varies. In terms of chemical reactivity, different groups have different reactivity due to their location and mutual electronic effects. Different groups may cooperate to give this compound specific biological activity or pharmacological activity, but further experimental investigation and verification are required.
The complexity of the structure of this compound makes its properties and potential applications full of variables and research value. More experimental methods may be needed to clarify its characteristics and uses in the future.

In which industries is this product widely used?

Today there is a product that is widely used in many industries. It is widely used in the construction industry. Because of the construction, it needs a stable and durable material. This product has a tough texture, can bear weight and pressure, and resists wind and rain erosion. In the construction of high-rise buildings, the laying of bridges and roads is indispensable. If you build a giant mansion, it is used as a support structure to make the building strong and not fall down, and it will be safe after years.
In the machinery manufacturing industry, it is also very popular. Mechanical operation requires precise and durable parts. This product can be finely processed into various precision parts. Its precision can ensure the efficient operation of the machine and reduce failures. Such as the key components of the lathe, using this product to manufacture can improve the machining accuracy and stability of the lathe, and produce excellent equipment.
In addition, the electronics industry often relies on this product. Electronic products pursue small and lightweight, but must have excellent performance. This product can be made into thin but strong components to ensure stable transmission of electronic signals in circuit boards and other components. Such as the internal components of mobile phones and computers, it can be used to shrink the size of the product to increase its stability and reliability.
It is also more common in the transportation industry. Vehicles need lightweight and high-strength materials to reduce energy consumption and improve safety. This product can reduce weight and improve efficiency in automobile manufacturing, and can ensure strong fuselage and reduce weight, and improve flight performance in aircraft manufacturing. For example, the body of a high-speed train, built with this product, can make the train run more smoothly and faster.
Overall, this product is widely used in construction, machinery manufacturing, electronics, transportation, and other industries, contributing significantly to the development of various industries.

How do the various groups contained in this product affect its performance?

There is a product today, which contains various groups that have a huge impact on its performance. Groups are the key components of utensils. Although they are small, they are deep and huge depending on the performance of the product.
If hydroxyl groups are present, they are hydrophilic. If they are present in the product, they are often hygroscopic. For example, the hydroxyl groups contained in fabrics can increase their water absorption and feel moist to the touch. They are suitable for making sweat towels, bath towels, etc., which are comfortable to use. However, for products that need to be moisture-proof, such as precision instrument parts, the existence of hydroxyl groups, or water vapor, the components will rust and damage their performance.
Carboxyl groups are acidic and can react with alkalis. In some chemical products, the carboxyl group can make the product participate in a specific chemical reaction to form a new quality. In coatings, the carboxyl group may interact with the surface of the substrate to increase the adhesion of the coating, making the coating firm and durable. However, in materials that are not resistant to acid and alkali, the carboxyl group is acidic or corrosive, reducing its lifespan.
Alkyl is a hydrophobic group. The product contains alkyl groups, which can reduce its water absorption. For example, in waterproof coatings, the alkyl group helps make water difficult to adhere and keeps the product dry. In lubricating oils, the length of the alkyl chain is related to the viscosity of the oil. The long-chain alkyl group makes the oil have high viscosity, which is suitable for places that require strong lubrication and wear resistance; the short URL alkyl group makes the oil have good fluidity, which is suitable for places that require rapid heat dissipation and light load.
Phenyl has a stable structure and is rigid. The product contains phenyl, which often increases its hardness and heat resistance. If phenyl is introduced into engineering plastics, the plastic can withstand high temperature without deformation, and is used in automobiles and electronic equipment parts to ensure its stable performance. However, too much phenyl may cause the product to become brittle and easy to break.
In summary, the groups in the product each have their own properties, and they can be reasonably allocated to complement each other to obtain products with excellent performance. The user must carefully review the characteristics of the group, to the extent necessary, and make good use of it in order to do their best and avoid its harm.

What are the precautions for storing and transporting this product?

When storing and transporting something, all matters need to be paid attention to in order to keep it intact.
When storing, the first location should be selected. It is advisable to choose a place with high and dry terrain to avoid low-lying and humid places to prevent rain from soaking and causing the property to rot. The storage place should also be well ventilated to allow air circulation. If it is blocked, it is easy to produce mildew and filth, which will damage the property. And it needs to be divided according to the nature of the property. Such as flammable and explosive things, they must be separated from other things to prevent unexpected changes. Temperature and humidity control is also crucial. Some products are easy to melt and perishable in case of high temperature, and may cause freezing and qualitative change in case of low temperature. Therefore, it is necessary to prepare temperature-controlled equipment to keep the temperature and humidity in a suitable environment.
As for transportation, it is important to travel safely. Choose a smooth road to avoid rough and bumpy roads. The driving should also drive slowly and steadily to prevent bumps and vibrations, which will cause damage to the products. If it is a long-distance transportation, it is even more necessary to check when it is necessary to see if the products are abnormal. The equipment used for transportation also needs to meet the needs of the products. For example, when transporting fresh things, use a refrigerated car; when transporting fragile objects, it must be lined with soft objects to protect their integrity. The escort should also be cautious and responsible, and should not be negligent. In case of difficulty, they should be disposed of immediately.
Furthermore, regardless of storage or transportation, it is necessary to pay attention to fire prevention and theft prevention. In the place of storage, it is necessary to prepare fire extinguishers, and everyone knows how to use them. Caretakers should perform their duties and should not leave their duties without permission. During transportation, it is also necessary to beware of thieves and protect the safety of property. In summary, all the details of the whole process of property storage and transportation should not be ignored. Only by acting with caution can we ensure that the property is in good condition and as expected.