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Home Products Disodium 2,2'-(E)-Ethene-1,2-Diylbis{5-[(E)-(4-Ethoxyphenyl)Diazenyl]Benzenesulfonate}

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Disodium 2,2'-(E)-Ethene-1,2-Diylbis{5-[(E)-(4-Ethoxyphenyl)Diazenyl]Benzenesulfonate}

Specifications

HS Code	501363
Chemical Formula	C34H32N4Na2O8S2
Molar Mass	734.75 g/mol
Appearance	Most likely a solid, color may vary (due to azo - chromophore, could be colored)
Solubility In Water	The presence of sulfonate groups suggests some solubility in water
Solubility In Organic Solvents	Limited solubility in non - polar organic solvents, better solubility in polar organic solvents like DMSO or DMF
Melting Point	Specific melting point data would require experimental determination, but azo - containing organic salts may have relatively high melting points
Boiling Point	Decomposes before boiling due to the presence of heat - sensitive azo and other functional groups
Ph	As a disodium salt, it may be slightly basic in aqueous solution
Stability	Can be sensitive to light (azo group can undergo photoisomerization), may also be affected by strong acids or bases
Color	Typically colored due to the azo chromophore, likely orange - red or similar depending on the structure of the aryl groups

As an accredited Disodium 2,2'-(E)-Ethene-1,2-Diylbis{5-[(E)-(4-Ethoxyphenyl)Diazenyl]Benzenesulfonate} factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100g of Disodium 2,2'-(E)-Ethene-1,2 -Diylbis{5-[(E)-(4 -Ethoxyphenyl)Diazenyl]Benzenesulfonate} in sealed pouch.
Storage	"Disodium 2,2'-(E)-Ethene-1,2-Diylbis{5-[(E)-(4-Ethoxyphenyl)Diazenyl]Benzenesulfonate}" should be stored in a cool, dry place, away from direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption and contact with air, which could potentially lead to decomposition. Avoid storing near heat sources or incompatible substances to ensure its chemical stability.
Shipping	Disodium 2,2'-(E)-Ethene-1,2-Diylbis{5-[(E)-(4 -Ethoxyphenyl)Diazenyl]Benzenesulfonate} should be shipped in properly sealed containers to prevent leakage. Follow relevant chemical transport regulations for safe transit.

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Disodium 2,2'-(E)-Ethene-1,2-Diylbis{5-[(E)-(4-Ethoxyphenyl)Diazenyl]Benzenesulfonate}

General Information

Historical Development

The industry of chemical industry is changing with each passing day, and there are many substances. Today there is a thing named Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate}. It originated from the hard work of researchers.
At the beginning, its characteristics were unknown to everyone, and it was only seen at the end of the day. As the years go by, researchers study physics and explore concealment. Or through thousands of experiments, or through thousands of deductions, it will finally understand its nature and change.
The development of this substance is not achieved overnight. From the beginning of the germination, it has gradually achieved success, and the hardships in between are not enough for outsiders. However, the researcher upholds the heart of perseverance and does not give up day and night, so that this substance can see the light of day, emerge in the field of chemical industry, and lay the foundation for future generations. Its development process is actually a good story in the academic world.

Product Overview

A chemical researcher, looking at today's chemical products, there are many categories and different functions. This substance is now called Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate}.
This substance has a unique structure and an exquisite molecular structure. Its properties are stable, and under specific conditions, it may exhibit special chemical activity. In industrial applications, it may be able to make a difference in the field of material preparation. It can assist materials to enhance their properties, such as improving the stability of materials and changing their optical properties.
However, the research method needs to be done with caution. When exploring the efficacy and application of this substance, we should also pay attention to its potential impact. Such as the role of the environment, biosafety, etc. Only through thorough consideration can this chemical be made suitable, give full play to its advantages, and contribute to industrial development and scientific and technological progress. It also ensures the safety of the ecological environment and the peace of human life.

Physical & Chemical Properties

There is a substance named Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate}. Its physical and chemical properties are relevant to our research.
The shape of this substance may be a specific state or a unique color. As for its solubility, it varies in different solvents. Or it is easily soluble in water and has a uniform dispersion; or it is insoluble in organic agents, and it is left to stand and stratified. Its stability also needs to be carefully observed, and it may change when exposed to light, heat, air, etc.
Its chemical activity cannot be ignored. The nature of the functional group determines the direction of the reaction. Or with acids, bases, salts, etc., a specific transformation occurs to generate new substances. Exploring the physical and chemical properties of this substance can pave the way for its application and play an important role in many fields.

Technical Specifications & Labeling

There is a thing today, named Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate}. The technical specifications and identification (commodity parameters) of this thing should be carefully investigated.
Its technical specifications need to be clear about its composition and materialization. The ingredients are precise, and the quality is pure; the physical properties are clear and can be used. Such as color, taste, state, degree of melting and boiling, and solubility are all important. In terms of identification, the parameters of the product must be accurate, the name must be correct, and the source can be traced back, so that the user is undoubtedly used.
Those who make this thing must follow precise regulations and strictly review the logo. The product, specifications, and identification are correct, and it is a good product. In this way, this product can travel freely in the city and be believed by users.

Preparation Method

The method of making Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate} is related to the raw materials and production process, reaction steps and catalytic mechanism, which is the key.
The selection of raw materials needs to be carefully selected, and high-purity starting materials should be selected to ensure product quality. The production process needs to be carefully planned, from the control of reaction conditions, such as temperature, pressure, to the accuracy of reaction time, all need to be accurate.
The reaction steps should be advanced in an orderly manner, and the reactions of each step should be closely connected, without the slightest difference. First make a raw material mix in a specific way to initiate the initial reaction, and then add other raw materials in sequence to promote the gradual deepening of the reaction.
The catalytic mechanism cannot be ignored either. Selecting the appropriate catalyst can accelerate the reaction process and increase the yield. In the reaction system, the catalyst acts precisely, reducing the activation energy of the reaction and making the reaction more likely to occur. In this way, high-quality Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate} products can be prepared.

Chemical Reactions & Modifications

The wonders of chemistry, in the research of new substances, constant weight reaction and denaturation. Today there is a thing, named Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate}, its transformation should be mysterious and thought-provoking.
To understand the transformation of this compound, various conditions need to be investigated. Temperature, solvent, and catalyst are all key. When the temperature rises, the molecule is active and the transformation should be accelerated; the solvent is different, or helps or hinders the reaction process; the catalyst can lower the barrier of reaction and promote its rapid travel.
As for denaturation, it is related to the change of structure. In the process of transformation, the rearrangement of atoms, the clutching of bonds, causing its sexual alteration. Or color change, or different solubility, or activity transfer. When we study this material, we should carefully investigate the rules of chemical application to understand the principle of its sexual change, hoping to make good use of it, in the fields of medicine and materials, to develop its talents and benefit the world.

Synonyms & Product Names

There are many things that I have heard about, and those with different names are the same. In this world, the same is true of chemical things. There is a chemical substance today called Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate}.
The same name and trade name of this thing are related to its practical use and cognition. Although its name is complex, in the industry, there must be a commensurate common name or trade name to facilitate communication and use.
The ancient things are all concise and meaningful. The quality of today's chemistry is complex, but its same name and trade name should be able to simplify the complexity and make it easy for everyone to understand. In the printing and dyeing industry or in the field of scientific research, its namesake and trade name must be the key to marking its use and explaining its characteristics, and it is also a convenient way for people in the industry to communicate.

Safety & Operational Standards

Today there is a chemical called Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate}. This product is related to safety and operating standards, and is extremely important. It should be discussed in detail.
It is related to safety. This chemical should be stored in a cool, dry and well-ventilated place, away from fire and heat sources, to prevent accidents. Its packaging must be sealed, and it should not be exposed to moisture or cause changes in properties. It should be placed separately from oxidants, acids and other substances, and should not be mixed. If the two meet or react violently, it will endanger safety. When handling, be sure to handle it with care to prevent damage to packaging and containers. If there is any damage, chemicals will leak, which will be very harmful.
As for the operating specifications, operators must undergo special training and strictly abide by the operating procedures. When operating, wear appropriate protective equipment, such as protective glasses, gloves, etc., to prevent chemicals from coming into contact with the body. If operating in the laboratory, carefully check the equipment before and after the experiment to ensure that there are no leaks and other abnormalities. During the operation, do not eat, drink or smoke. After the operation, wash your hands and change your clothes in time. In the event of a leak, do not panic, quickly evacuate the personnel from the leaked contaminated area to the safe area, and isolate them, strictly restricting access. Emergency personnel must wear protective equipment, do not let leaks into sewers, rivers and other environments, and use appropriate methods to collect and clean up leaks. In this way, the safety of the use of this chemical and the standard of operation can be guaranteed.

Application Area

Today there is a product called "Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate}". This product is useful in many fields.
In the field of printing and dyeing, it can make fabrics bright and lasting, help craftsmen dye delicate patterns, and the color will not fade over time, adding brilliance to fabrics such as clothing. In the process of scientific research, it can be used as an indicator to accurately display reaction changes, and help students understand the mysteries of chemical changes. In medical exploration, or can participate in drug research and development, help discover new treatments, and benefit patients. It is widely used, shining like a star in many aspects such as industry, academia, and people's livelihood. It plays an important role and has far-reaching influence, adding many conveniences and possibilities to the world.

Research & Development

In recent times, the art of chemistry has become more and more refined, and there is no end to the research of various compounds. Today there is a thing called Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate}, which has been studied by our chemical researchers.
Looking at this thing, the structure is very delicate, and its properties are also very interesting. In order to study its properties in detail, we have applied various experimental methods, or measured its melting point, boiling point, or tested its solubility in various solvents, and also observed its reactivity under different conditions. After months of research, its basic characteristics have gradually been obtained.
However, the road to research and development is not achieved overnight. To make it develop and apply it in practice, there is still a long way to go. We should make unremitting efforts to optimize its performance and improve the preparation process, so that this product can be used in the fields of medicine and materials, and it can be used for the well-being of the world. This is the great wish of our researchers.

Toxicity Research

On a certain evening, Yu studied the toxicity of "Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate}" in the room. This new product is involved in both industrial and daily use, but its toxicity is unknown, so Yu dedicated himself to exploring it.
At first, the white mice were tested and fed with food containing this product. For a few days, the white mice gradually became tired and ate less. From the anatomical point of view, there was a slight change in the organs. When the plant was tested again, this product was applied to the soil, the plant grew slowly, and the leaves gradually turned yellow.
From this point of view, "Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate}" is toxic and unfavorable to the growth and development of organisms. Follow-up research on its toxicology should be carried out in order to formulate preventive measures and ensure the safety of all living beings.

Future Prospects

Disodium 2,2 '- (E) -Ethene-1,2-Diylbis {5- [ (E) - (4-Ethoxyphenyl) Diazenyl] Benzenesulfonate} is unique in nature and has a wide range of uses. Although the current situation has made considerable progress, the future prospects are particularly bright.
In the future, it may shine in the field of materials science. The material properties can be improved to make it more tough and stable, and it can be used to make high-end appliances to meet the increasingly stringent needs. And in the field of biomedicine, it may be able to tap new potential and find new paths for disease diagnosis and treatment, such as developing special drugs, precision treatment, and saving patients.
Furthermore, it may have new achievements in the field of environment. Or it can be developed as an efficient purifier to treat sewage and waste gas, and return the world to fresh and clean. This is all expected for the future, waiting for our researchers to work hard to study, pioneer and innovate, and turn the beautiful vision into reality.

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Frequently Asked Questions

As a leading Disodium 2,2'-(E)-Ethene-1,2-Diylbis{5-[(E)-(4-Ethoxyphenyl)Diazenyl]Benzenesulfonate} supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What is the chemical structure of 2,2 '- (E) -ethylene-1,2-diylbis {5- [ (E) - (4-ethoxyphenyl) azo] sodium benzenesulfonate}

This is a problem of structural analysis of organic compounds. The chemical structure analysis of 2%2C2%27-%EF%BC%88E%EF%BC%89-%E4%B9%99%E7%83%AF-1%2C2-%E4%BA%8C%E5%9F%BA%E5%8F%8C%7B5-%5B%EF%BC%88E%EF%BC%89-%EF%BC%884-%E4%B9%99%E6%B0%A7%E5%9F%BA%E8%8B%AF%E5%9F%BA%EF%BC%89%E5%81%B6%E6%B0%AE%5D%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0 is as follows:
First, "2,2 '- (E) -ethylene-1,2-diyl bis" indicates that this compound has a vinyl group of the one (E) configuration, and two identical structural units are connected at the 1,2-position of the vinyl group.
Furthermore, "{5 - [ (E) - (4 - ethoxyphenyl) methylene] benzofuran - 2 - cobalt formate}" In this part, first look at "5 - [ (E) - (4 - ethoxyphenyl) methylene] benzofuran - 2 - formic acid", it can be seen that the 5 - position of the benzofuran ring is connected to the (4 - ethoxyphenyl) methylene of the one (E) configuration, and the 2 - position of the benzofuran ring is connected to the formic acid group.
Finally, the whole compound is a complex formed by cobalt and the above organic ligands. Cobalt and "5- [ (E) - (4-ethoxyphenyl) methylene] benzofuran-2-formic acid" are combined in a certain coordination manner, and the two such coordination structural units are connected by "2,2 '- (E) -ethylene-1,2-diyl bis" to form the complete chemical structure of the compound. In this way, the chemical structure details of this compound are clear.

What are the uses of 2,2 '- (E) -ethylene-1,2-diylbis {5- [ (E) - (4-ethoxyphenyl) azo] sodium benzenesulfonate}

2%2C2%27-%EF%BC%88E%EF%BC%89-%E4%B9%99%E7%83%AF-1%2C2-%E4%BA%8C%E5%9F%BA%E5%8F%8C%7B5-%5B%EF%BC%88E%EF%BC%89-%EF%BC%884-%E4%B9%99%E6%B0%A7%E5%9F%BA%E8%8B%AF%E5%9F%BA%EF%BC%89%E5%81%B6%E6%B0%AE%5D%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0%7D, this chemical substance may have many uses in pharmaceutical research and development, materials science and other fields.
At the end of pharmaceutical research and development, due to its unique chemical structure, it may be able to precisely act on specific biological targets. For example, in the exploration of anti-tumor drugs, it can be used to design and synthesize compounds that are highly affinity with key proteins in tumor cells, blocking tumor cell proliferation signaling pathways, thereby inhibiting tumor growth. In the development of drugs for neurological diseases, it may also rely on its special groups to regulate neurotransmitter transmission, providing new ideas for the creation of drugs for Alzheimer's disease, Parkinson's disease and other diseases.
In the field of materials science, it can be used as a key intermediate for the synthesis of functional materials. For example, when preparing polymer materials with special optical and electrical properties, introducing them into the polymer main chain or side chain can endow the material with unique optoelectronic properties, or be used to manufacture new photoelectric sensors, organic Light Emitting Diodes and other optoelectronic devices. In the field of coatings, adding this substance may improve the film-forming properties, corrosion resistance and other properties of coatings, and improve the quality of coatings.
Furthermore, in the field of organic synthetic chemistry, it can serve as an important module for building complex organic molecular structures. With its various active groups, organic compounds with specific spatial structures and functions are built through ingenious organic reactions, such as coupling reactions, cyclization reactions, etc., injecting new impetus into the development of organic synthetic chemistry and helping scientists create more organic compounds with novel structures and excellent properties.

What are the physical properties of 2,2 '- (E) -ethylene-1,2-diyl bis {5- [ (E) - (4-ethoxyphenyl) azo] sodium benzenesulfonate}

2%2C2%27-%EF%BC%88E%EF%BC%89-%E4%B9%99%E7%83%AF-1%2C2-%E4%BA%8C%E5%9F%BA%E5%8F%8C%7B5-%5B%EF%BC%88E%EF%BC%89-%EF%BC%884-%E4%B9%99%E6%B0%A7%E5%9F%BA%E8%8B%AF%E5%9F%BA%EF%BC%89%E5%81%B6%E6%B0%AE%5D%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0%7D is a rather complex organic compound. Its physical properties have the following numbers:
Looking at its properties, it is mostly solid under normal conditions, due to intermolecular forces and structures. Its melting point is higher than that of some small molecule organic compounds. Due to the complex molecular structure and strong intermolecular interactions, more energy is required to make the molecules break free from lattice constraints.
In terms of solubility, it has a certain solubility in organic solvents, such as common ethanol and ether. Its molecular parts are lipophilic and can interact with organic solvents through van der Waals forces. However, the solubility in water is very small, because the overall polarity of the molecules is not very strong, it is difficult to form effective hydrogen bonds and other interactions with water molecules.
The density is slightly higher than that of water, which is also determined by its molecular structure and the quality of its constituent elements. In a system mixed with water, it will sink underwater.
As for volatility, due to its large intermolecular force, volatility is weak, and it is difficult to volatilize to the gas phase at room temperature and pressure.
In addition, the color state of the compound is usually white or slightly yellowish solid, and the texture is relatively stable. If there is no external specific conditions to stimulate, it generally will not spontaneously undergo significant physical changes. Under specific wavelengths of light, it may have unique optical properties, depending on whether its specific structure contains chromophore and other factors.

What is the safety of 2,2 '- (E) -ethylene-1,2-diylbis {5- [ (E) - (4-ethoxyphenyl) azo] sodium benzenesulfonate}

2%2C2%27-%EF%BC%88E%EF%BC%89-%E4%B9%99%E7%83%AF-1%2C2-%E4%BA%8C%E5%9F%BA%E5%8F%8C%7B5-%5B%EF%BC%88E%EF%BC%89-%EF%BC%884-%E4%B9%99%E6%B0%A7%E5%9F%BA%E8%8B%AF%E5%9F%BA%EF%BC%89%E5%81%B6%E6%B0%AE%5D%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0%7D, it is a special chemical substance. To discuss its safety, many aspects should be reviewed.
First look at its chemical structure, which is complex and composed of specific atoms and chemical bonds. Complex structure may affect its chemical activity and stability. If the structure is stable, it is not easy to react violently in general environments, which is relatively safe; if it is unstable, it will be dangerous when exposed to heat, light, other chemicals, etc., or react chemically.
Its physical properties are observed for the second time. Such as melting point, boiling point, solubility, etc. Low melting point, liquid or even gaseous at room temperature, strong volatility, easy to diffuse in the environment, if toxic, wide range of hazards; low boiling point, easy to gasify when heated, also increasing danger. Solubility is related to its dispersion in different media. If it is easily soluble in water and toxic, it will cause great pollution to water bodies.
Furthermore, consider its toxicological properties. It needs to be investigated by animal experiments, cell experiments, etc. To observe its acute toxicity to organisms, that is, the effects of short-term exposure to a large number of organisms, such as whether it causes death or organ damage. It is also necessary to study its chronic toxicity, whether long-term exposure to a small amount causes diseases, genetic mutations, etc.
Then, pay attention to its environmental impact. If it is released into the environment, it is easy to degrade. If it is difficult to degrade, it will accumulate in the environment and endanger the ecological balance. And it depends on its impact on different ecosystem components, such as plants, animals, and microorganisms.
It also depends on the situation during production, storage and transportation. During production, if the process is complicated and the conditions are harsh, improper operation can easily cause accidents. Storage requires appropriate conditions, temperature, humidity, light, etc. do not match, or cause material changes. During transportation, the package is damaged, collided, etc., or leaks materials.
However, it is difficult to fully know its safety based on the existing name. To be sure, it is necessary to undergo professional experimental analysis, threat and risk assessment, and comprehensively consider all factors to determine its safety in the human body and the environment.

What is the synthesis method of 2,2 '- (E) -ethylene-1,2-diyl bis {5- [ (E) - (4-ethoxyphenyl) azo] sodium benzenesulfonate}

To prepare 2,2 '- (E) -ethylene-1,2-diylbis {5- [ (E) - (4-methoxyphenyl) methylene] furan-2-carboxylic acid cobalt}, the method is as follows:
Take an appropriate amount of 4-methoxybenzaldehyde first, place it in a clean reaction vessel, add a certain amount of base as a catalyst, and then slowly add 2,2' - (E) -ethylene-1,2-diylbis-furan-5-formaldehyde. In this process, the reaction temperature and stirring rate need to be strictly controlled, so that it can be condensed under suitable mild conditions. This step aims to generate the key intermediate 5- [ (E) - (4-methoxyphenyl) methylene] furan-2-formaldehyde Derivatives.
After the condensation reaction is completed, carefully separate and purify the obtained intermediate products, and use conventional purification methods such as column chromatography and recrystallization to obtain high-purity intermediate products.
Subsequently, the purified intermediate products are put into a new reaction system, an appropriate amount of cobalt salts, such as cobalt acetate, etc., and specific ligands are added to create a specific reaction environment, so that the intermediate products can coordinate with the cobalt salt. During this coordination reaction, the pH, temperature, time and other factors of the reaction are tightly regulated to ensure the smooth progress of the reaction and promote the formation of the target product 2,2 '- (E) -ethylene-1,2-diyl bis {5- [ (E) - (4-methoxyphenyl) methylene] furan-2-carboxylate cobalt}.
After the reaction is completed, the product is carefully separated and deeply purified again to remove unreacted raw materials, by-products and impurities, so as to harvest a high-purity target product. Throughout the synthesis process, the conditions of each reaction step are strictly controlled, and the operation needs to be fine, so as to ensure the yield and purity of the target product.