1,5-Naphthalenedisulfonic Acid, 3,3'-(Carbonylbis(Imino(2-Methyl-4,1-Phenylene)-2,1-Diazenediyl))Bis-, Sodium Salt (1:4)

Lingxian Chemical

Specifications

HS Code	688235
Chemical Name	1,5 - Naphthalenedisulfonic Acid, 3,3'-(Carbonylbis(Imino(2 - Methyl - 4,1 - Phenylene)-2,1 - Diazenediyl))Bis-, Sodium Salt (1:4)
Molecular Formula	C33H24N6Na4O11S2
Molecular Weight	878.70 g/mol (approximate, calculated from formula)
Appearance	Typically a solid (color may vary, often some shade of white or off - white)
Solubility	Soluble in water (as sodium salt)
Ph	The solution in water will have a pH influenced by the sodium salt, likely basic
Stability	Stable under normal conditions, but may react with strong oxidizing agents
Hazard Class	May be classified as an irritant, specific hazards depend on exposure routes

Packing & Storage

Packing	4 - pack of 1,5 - Naphthalenedisulfonic Acid derivative sodium salt in suitable chemical - grade packaging.
Storage	Store 1,5 - Naphthalenedisulfonic Acid, 3,3'- (Carbonylbis(imino(2 - methyl - 4,1 - phenylene)-2,1 - diazenediyl))bis-, Sodium Salt (1:4) in a cool, dry place. Keep it away from sources of heat, ignition, and incompatible materials. Store in a tightly - sealed container to prevent moisture absorption and chemical reactions.
Shipping	Shipping of 1,5 - Naphthalenedisulfonic Acid derivative (sodium salt, 1:4) requires compliance with chemical regulations. It should be properly packaged to prevent spills and damage, transported under controlled conditions suitable for stable chemicals.

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1,5-Naphthalenedisulfonic Acid, 3,3'-(Carbonylbis(Imino(2-Methyl-4,1-Phenylene)-2,1-Diazenediyl))Bis-, Sodium Salt (1:4)

General Information

Historical Development

1,5-Naphthalene disulfonic acid, 3,3 '- (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) bis -, sodium salt (1:4) This compound, following its historical development, has been studied by many parties throughout the ages. In the past, subject to skills and cognition, it was quite difficult to explore it. However, the ancestors did not give up and kept exploring.
Years have passed, and with the advancement of science and technology and the depth of cognition, research has gradually improved. From initial ignorance, to understanding some of its characteristics, and now it is more accurate to grasp its structure and properties. Many experiments have been repeatedly demonstrated, and countless efforts have been poured into it, leading to a more comprehensive understanding of this compound today, which is the result of the efforts of researchers of all generations.

Product Overview

Today, there is a substance called 1,5-naphthalene disulfonic acid, 3,3 '- (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) bis -, sodium salt (1:4). This substance has unique properties. Its shape and quality are all important for research. In terms of its structure, naphthalene bis sulfonic acid is cleverly connected with carbonyl, imino, diazenediyl, etc., to form this complex structure. And the state of sodium salt also affects its many properties. It may have extraordinary uses in chemical and scientific research fields. Or it can be used as a special reagent to help the reaction proceed; or it can be used in the development of materials to add unique properties. We should investigate in detail, understand it, and make the best use of it to contribute to the advancement of science and industry, to solve the mystery of this thing, and to make it beneficial to the world.

Physical & Chemical Properties

1,5-Naphthalene disulfonic acid, 3,3 '- (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) bis -, sodium salt (1:4) This substance is of great importance to my generation of chemical researchers due to its physical and chemical properties.
Looking at its properties, or powder state, color or white or yellowish, this is related to its purity and crystal form. Its solubility varies from water or organic agents. Whether it is soluble in water or not, and the speed of dissolution are all characteristics. Thermal stability also needs to be checked. Under high temperature, the appearance of decomposition and discoloration is a sign of physical characteristics.
As for chemical properties, the functional groups in its molecular structure, such as sulfonic acid groups, diazenyl groups, etc., determine its reactivity. It can form salts with bases and can also participate in nucleophilic and electrophilic reactions. In the redox environment, there may be corresponding changes, which are all important to explore its chemical properties. We should investigate carefully to understand the mysteries of its physical and chemical properties.

Technical Specifications & Labeling

Today there is a product called 1,5-naphthalene disulfonic acid, 3,3 '- (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) bis -, sodium salt (1:4). In the field of chemical industry, this substance is related to technical regulations and identification (commodity parameters), which is quite important.
To make this product, it is necessary to follow precise technical procedures. From the selection of raw materials, it is necessary to be pure and free of impurities; to the control of the reaction, the temperature and pressure cannot be ignored, and all links are interlocked to obtain high-quality products.
And the identification (commodity parameters), such as purity geometry, what the characteristics are, need to be clearly marked. This is so that others know its characteristics, when applied, it can be adapted to its place. Technical regulations and identification (commodity parameters) complement each other, and are the main principles of the chemical industry, which are related to the advantages and disadvantages of this product and the wide range of applications.

Preparation Method

The method of preparing 1,5-naphthalene disulfonic acid, 3,3 '- (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) bis -, sodium salt (1:4), raw materials and production processes, reaction steps, and catalytic mechanisms are all required.
First take an appropriate amount of 1,5-naphthalene disulfonic acid, with a specific ratio of 3,3' - (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) related compounds, and dissolve in a suitable solvent. The temperature is controlled in a certain range, and the reaction is initiated with a specific catalyst. During the reaction, closely observe its changes, and adjust the temperature and stirring rate in a timely manner. After the reaction is completed, the sodium salt product can be obtained by separation and purification. In this process, the steps are closely interlocked to obtain qualified products.

Chemical Reactions & Modifications

A chemical substance, named 1,5-naphthalene disulfonic acid, 3,3 '- (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) bis -, sodium salt (1:4). Its transformation and modification are related to the properties and uses of this product.
The concept of chemical reaction is based on the principle that various atomic groups interact, such as bond disconnection and electron migration. In this product, the structures of carbonyl, imino, and diazenediyl are different. The imino group can participate in the formation of hydrogen bonds and affect the intermolecular force; the existence of diazene digroups may make the molecule have a special electron cloud distribution, which affects its optical and electrical properties.
Regarding its modification, chemical modification can be used. Such as introducing a specific functional group, or changing its molecular skeleton. This can change its solubility, stability, etc. If a hydrophilic group is added, it can increase its solubility in water, which is conducive to application in aqueous systems. Modify the conjugated structure of the molecule, or adjust its optical properties, and develop its strength in the field of optoelectronic devices. This should be combined with the wonders of modification, and we need to explore it in depth to understand it and make good use of it.

Synonyms & Product Names

Today there is a product called 1,5-naphthalene disulfonic acid, 3,3 '- (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) bis -, sodium salt (1:4). This product has many other names in the field of my chemical research, and can be used as a commodity name.
Looking at its structure, the skeleton of naphthalene, sulfonic acid, carbonyl, imino, diazenediyl and other functional groups are cleverly connected, and sodium salt is accompanied. Its unique properties, or due to its structure, have its uses in chemical reactions and industrial uses.
The wonder of chemistry lies in the exploration of the diversity of substances, and this compound, with its synonym and trade name, is just the clue to explore, helping us to understand its characteristics and applications in depth, whether it is a chemical raw material or a key role in scientific research experiments.

Safety & Operational Standards

1,5-Naphthalene disulfonic acid, 3,3 '- (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) bis -, sodium salt (1:4) This chemical is essential for safety and operation.
When using it, clean your hands and face, wear clean protective clothing, goggles and gloves to prevent it from touching your eyes. When weighing, choose a precise balance and place it in a well-ventilated place to prevent dust from rising.
When storing, store in a cool and dry place, away from the heat source of the kindling, and separate from oxidants and alkalis to prevent their reaction. When handling, handle with care to avoid damage to the packaging.
If you accidentally touch the body, rinse quickly with a large amount of water, followed by soap. If it enters the eyes, rinse quickly with running water or normal saline, and then seek medical attention. In case of fire, use dry powder and carbon dioxide fire extinguishers to put it out.
Operate this chemical, all details must be paid attention to, and follow safety and operating standards to ensure the safety of people and the environment, and the smooth testing and production.

Application Area

1,5-Naphthalene disulfonic acid, 3,3 '- (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) bis -, sodium salt (1:4) This chemical has a wide range of applications. In the dyeing and weaving industry, it can be used as a dye aid to help dye level dyeing, improve color fastness, and make fabrics bright and long-lasting. In the paper industry, it can optimize paper properties, such as enhancing the strength and smoothness of paper. It is also useful in the leather tanning process to help leather soft and tough. Looking back on the past, our predecessors continued to study such substances in the path of chemical exploration, exploring their multiple uses, and contributing to the development of various industries. Today, its application continues to expand and deepen.

Research & Development

Today, there is a compound called 1,5-naphthalene disulfonic acid, 3,3 '- (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) bis -, sodium salt (1:4). As a chemical researcher, I am very concerned about the research and development of this compound.
Looking at this compound, its structure is unique, containing a combination of naphthalene ring and a specific functional group. The purpose of the study is to explore its physical and chemical properties, such as solubility and stability. After experiments, it has a unique solubility in specific solvents, or due to the interaction of functional groups.
As for the development direction, it is expected to emerge in the field of materials science. It may be chemically modified to have special optical and electrical properties, paving the way for the development of new materials. I will continue to study, hoping to expand the boundaries of this application and contribute to scientific progress.

Toxicity Research

Study on the toxicity of 1,5-naphthalene disulfonic acid, 3,3 '- (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) bis -, sodium salt (1:4)
Today, the toxicity of 1,5-naphthalene disulfonic acid, 3,3' - (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) bis -, sodium salt (1:4) is investigated. This compound has many applications in industry, but its toxicity is not detailed, so it is investigated.
Test its toxicity by various experimental methods. First, take the animal as a test to observe its state after ingesting this substance. See the test animal or have signs of discomfort, such as diet and activity are abnormal. Also check its physiological indicators, observe the changes in the organs, and there is a sign of damage.
Completely supplemented by cell experiments, observe the effect of this substance on cells. See cell growth is inhibited, morphology is also changed, or there is a sign of apoptosis. From this, it can be seen that this compound has certain toxicity and may have adverse effects on the biological body. Its toxicology should be studied in detail in the future to provide evidence for protection and application.

Future Prospects

In today's world, there is a thing called 1,5-naphthalene disulfonic acid, 3,3 '- (carbonyl bis (imino (2-methyl-4,1-phenylene) -2,1-diazenediyl)) bis -, sodium salt (1:4). This thing is in the field of chemical industry, like a hidden pearl, waiting to be discovered by the bright.
Those who study chemical industry in our generation often think about its future development. Or we can innovate materials to help its performance better, make the utensils strong and lightweight, to meet the needs of all kinds of things. It is also expected to be used in medicine as a pioneering agent to explore new ways for curing diseases and treating diseases. Although the road ahead is long, we hold the heart of research and believe that it will be able to shine brightly in the future, adding well-being to the world and opening a new chapter in chemical engineering. This is our generation's vision for its future.

Frequently Asked Questions

What is the chemical structure of this product?

The chemical structure of this product is quite delicate and complex. Looking at it, it is connected by various elements in a specific order and way. It is like a brocade made by heaven. Every line is indispensable, and every interweaving contains profound meaning.
Its core structure is like the cornerstone of a building, stable and critical. Atoms are arranged in an orderly manner around this core to form an orderly system, interacting to maintain the stability of this structure. Like an ancient array, each part performs its own duty, and it affects the whole body.
The side chain part, like branches and leaves, escapes from the trunk. Although it is not the main body, it has a profound impact on the overall nature. Or increase its flexibility, or change its activity, just like adding a unique decoration to the utensil, making it more functional.
The existence of chemical bonds is a bridge between atoms. Or as strong as gold and stone, or as soft as silk thread, different types of bonds determine the strength and mode of interaction between atoms. Covalent bonds, with shared electrons, make atoms closely connected, like a pledge of life and death; ionic bonds are bound to each other due to the attraction of electric charges, like yin and yang, complementing each other.
The spatial configuration of molecules cannot be ignored. Its three-dimensional form determines the mode of interaction between molecules and other substances. Or the fit between the key and the lock is accurate; or due to the spatial resistance, some reactions are difficult to occur. This spatial structure is easily malleable without human labor, and it actually follows the laws of nature and has gone through various opportunities.
In this way, the chemical structure of this product is like a wordless ancient book, waiting for everyone to study and understand its true meaning.

What are the main uses of this product?

The main uses of this product can be roughly divided into the following ends.
First, it can be used for daily clothing, food, housing and transportation. For clothing, this product may be used as raw materials for making clothing, making the fabric have a special feeling, warmth retention or transparency, etc., so as to make it comfortable and beautiful for people. For food, or can be used in the packaging of food to keep the freshness of food, so that it is protected from external pollution and can be preserved for a long time. For housing, or can be used as a building material to help, such as improving room insulation, sound insulation and other effects, to improve the comfort of living. For transportation, or can be used in transportation, to increase the comfort of riding.
Second, it also has important uses in the field of industrial beauty. Due to its unique characteristics, it can be used by craftsmen to carve into fine products, or used in materials such as sculpture and methods, to give the work a different appearance.
Third, in terms of performance, it may have a certain effect. Or it can be used as a tool to help the effect better; or it itself contains some beneficial ingredients, which can be directly used to treat common diseases and provide assistance to people's health.
Fourth, it often plays an important role in rituals, rituals and other activities. Because it may be given a special meaning, it is to worship ancestors, worship heaven and earth, and perform important rituals, all of which may be used to express people's respect, prayers, and other emotions, and become an important medium for culture and vulgarity.

What are the physical and chemical properties of this product?

The ideal nature of this product is sturdy and durable. The material must be tough, can withstand the test of time and external forces, and will not be easily damaged. There are good tools in the past, which have gone through thousands of generations and are still preserved in the world for future generations to see, which is the essence of sturdiness.
Furthermore, the craftsmanship should be exquisite. Every detail needs to be meticulously crafted, from the overall shape to the partial pattern, all of which show the ultimate beauty. Ancient craftsmen, with their miraculous skills, cast exquisite utensils, or have exquisite and transparent states, or have a solemn and elegant posture, which is the embodiment of exquisite craftsmanship.
Applicability is also the key. The product needs to be suitable for practical use, whether it is the needs of life or the requirements of production, it can play its effect. If it is only for viewing without practicality, it is not an ideal thing in the end. Just like ancient agricultural tools, although not as precious and gorgeous, they are indispensable in farming, which is where applicability lies.
And convenient. When using, when the operation is simple, easy to use, and there is no need for cumbersome methods. Ancient man-made cars, pay attention to the convenience of driving, so that people can drive at will and travel freely in all directions. Convenience is evident here.
Finally, the product should have a sense of beauty. Or for the beauty of simplicity, or for the beauty of complexity, it can delight people's eyes and touch people's hearts. The ancient calligraphy and painting, ceramics, are unique beauty, passed down through the ages, respected by future generations, the importance of beauty, self-evident.

What is the production method of this product?

The production method of this product is actually exquisite and contains the profound wisdom of the ancients.
Viewing its method, the first material selection. Materials with solid texture and high quality must be selected, such as good wood whiskers with dense texture, and metals with excellent purity. This is the foundation. If the materials are not good, the follow-up skills will not be able to reach the state of excellence. The so-called "a clever woman can't cook without rice", the quality of the materials is related to the root of the product.
The second is shaping. The craftsman conceives according to the shape and spirit of the product, or chops the wood to make it gradually outline; or fuses and casts the metal to mold its shape. This process requires the craftsman to transport the catties into the wind and respond with his heart and hands. If wood is made, each knife carving is based on the texture trend, which is not contrary to the nature; when casting, the heat and flow rate must also be mastered to make the utensil perfect and flawless.
Another is refinement. Once the shape is formed, it will enter the process of refinement. Fine grinding stones are used to make the surface of the utensil as smooth as a mirror, and the touch is warm. Subtleties require the craftsman to pay attention, or remove burrs, or fill flaws, so that the product must be free of criticism. This is like cutting jade, "jade is not cut, it is not a tool". After refinement, the product can glow with unique charm.
Then it is decorated. According to the style and use of the product, the craftsman applies appropriate patterns. Or engraving flowers, birds, fish and insects, lifelike; or engraving auspicious characters, with far-reaching meaning. The decorative pattern is not just for beauty, but also adds to the cultural heritage of the product. This pattern and the utensil complement each other, making the product both practical and aesthetic.
The last is maintenance. The finished product also needs to be properly maintained in order to preserve its quality for a long time. For example, wood should be protected from moisture and sun exposure; metal utensils should be protected from oxidation and rust. Those who teach the method of maintenance are also an important part of the production process.
All these are interconnected and indispensable, which constitutes the exquisite production method of this product, so that the product will not fade through the years, and will be passed down through the ages.

What should I pay attention to when using this product?

When using this utensil, pay attention to the following matters.
First, observe its shape and quality. Examine the shape and texture of this utensil carefully. If there are any signs of damage, cracks or uneven texture, use it with caution. Damage or damage to its effectiveness, uneven texture may also cause changes during use.
Second, understand its usage. Know the correct way to use this utensil, and do not speculate on it yourself. Each utensil has its own specific usage. If used improperly, it will not only fail to perform its function, but will damage the utensil and even endanger itself.
Third, choose a suitable place. Choose a place that is stable, clean and unobstructed. If the ground is uneven, the utensils will be unstable and easy to be dumped and damaged; the ground will be unclean, or the utensils will be defaced, which will affect their performance; if there are obstructions, the operation may be disturbed, and it will also be dangerous.
Fourth, according to the season. Some utensils are used in different seasons, with different effects, or there are specific season taboos. Therefore, when you follow the rules of the season and use them, you can get twice the result with half the effort.
Fifth, maintenance and maintenance. After use, you should properly maintain them. According to the different materials of the utensils, use corresponding cleaning and storage methods. In this way, the service life of the utensils can be extended, and they can be kept in good condition for future use.
When using this utensil, it is necessary to pay attention to many aspects such as shape, usage, place, season and maintenance, and treat it with caution, so that the utensil can be used to its fullest extent without danger.