Hexasodium 2,2'-(Vinylenebis((3-Sulphonato-4,1-Phenylene)Imino(6-(Bis(2-Hydroxyethyl)Amino)-1,3,5-Triazine-4,2-Diyl)Imino))Bis(Benzene-1,4-Disulphonate)

Lingxian Chemical

Specifications

HS Code	708720
Chemical Formula	C44H48N12Na6O22S6
Molecular Weight	1457.15 g/mol
Appearance	Typically a solid (powder or granule, color may vary depending on purity and manufacturing process)
Solubility	Soluble in water, forming a clear solution
Ph In Solution	May vary depending on concentration, generally in the near - neutral to slightly alkaline range
Stability	Stable under normal storage conditions, may decompose under extreme heat or in contact with strong oxidizing agents
Density	Specific density data would require experimental determination, but likely in the range typical for organic salts
Optical Properties	May have absorbance in certain regions of the electromagnetic spectrum, relevant for color - related applications
Ionic Nature	Highly ionic due to the presence of sodium ions and sulfonate groups
Surface Active Properties	Can act as a surfactant in some systems, influencing surface tension

Packing & Storage

Packing	1 - kg pack of solid chemical "Hexasodium... " in a sealed, labeled container.
Storage	Hexasodium 2,2'-(Vinylenebis((3 - Sulphonato - 4,1 - Phenylene)imino(6-(Bis(2 - Hydroxyethyl)amino)-1,3,5 - Triazine - 4,2 - Diyl)imino))bis(Benzene - 1,4 - Disulphonate) should be stored in a cool, dry place, away from heat sources and direct sunlight. Keep in a well - sealed container to prevent moisture absorption and degradation. Avoid storing near incompatible substances such as strong oxidizers or acids to ensure its chemical stability.
Shipping	Shipment of "Hexasodium 2,2'-…" must comply with strict chemical regulations. Packaging should be robust to prevent leakage. It's shipped via authorized carriers, ensuring proper labeling for safe handling during transport.

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Hexasodium 2,2'-(Vinylenebis((3-Sulphonato-4,1-Phenylene)Imino(6-(Bis(2-Hydroxyethyl)Amino)-1,3,5-Triazine-4,2-Diyl)Imino))Bis(Benzene-1,4-Disulphonate)

General Information

Historical Development

Hexasodium 2,2 '- (Vinylenebis ((3 - Sulphonato - 4,1 - Phenylene) Imino (6 - (Bis (2 - Hydroxyethyl) Amino) -1,3,5 - Triazine - 4,2 - Diyl) Imino) Bis (Benzene - 1,4 - Disulphonate) is a unique chemical product. Looking at its historical development, in the past, chemists have gradually revealed the characteristics of this compound through countless attempts and research when exploring dyes and related compounds. In the early days, the understanding of organic structure and reaction mechanism was limited, and the research progress was slow. However, with the evolution of science and technology, the analytical methods have become more and more accurate, and the structure analysis has become more thorough. After the unremitting efforts of many scholars, the production and application of this chemical have been expanded, emerging in many fields, and promoting the development of the chemical industry.

Product Overview

A chemical named Hexasodium 2,2 '- (Vinylenebis ((3-Sulphonato-4,1-Phenylene) Imino (6- (Bis (2-Hydroxyethyl) Amino) -1,3,5-Triazine-4,2-Diyl) Imino)) Bis (Benzene-1,4-Disulphonate). This product is a delicate chemical product with a complex and unique structure. Looking at its name, it is composed of many groups connected, reflecting the delicate chemical structure.
This product may have its unique use in the chemical industry, or it is a dye auxiliary, giving fabrics unique color and stability due to its complex structure; or it acts as a key catalyst in some special chemical reactions, promoting the reaction process with its special activity check point. Its polysulfonate structure may endow it with good water solubility, which is conducive to its function in aqueous solution systems, or its chemical activity and affinity are affected by its nitrogen-containing heterocyclic and polyamine structure, and its characteristics are exhibited in different application scenarios.

Physical & Chemical Properties

Hexasodium 2,2 '- (Vinylenebis ((3 - Sulphonato - 4,1 - Phenylene) Imino (6- (Bis (2 - Hydroxyethyl) Amino) -1,3,5 - Triazine - 4,2 - Diyl) Imino)) Bis (Benzene - 1,4 - Disulphonate) The physical and chemical properties of this substance are related to many aspects. Looking at its properties, it may show a specific color state. In terms of its solubility, it varies in different solvents, either soluble or insoluble. Its stability is also the key. Under specific conditions, it can maintain its inherent state. In case of acid-base, temperature change and other factors, it may change. And the characteristics of the molecular structure determine its activity in reacting with other substances. In chemical synthesis, industrial applications and other fields, it depends on its physical and chemical properties to determine its application.

Technical Specifications & Labeling

Hexasodium 2,2 '- (Vinylenebis ((3 - Sulphonato - 4,1 - Phenylene) Imino (6 - (Bis (2 - Hydroxyethyl) Amino) -1,3,5 - Triazine - 4,2 - Diyl) Imino) Bis (Benzene - 1,4 - Disulphonate) is an exquisite chemical product. Its process specification and identification (product parameters) are very important. The process specification needs to specify the raw material ratio, reaction temperature, duration, etc. If the amount of raw materials is accurately weighed, the reaction will proceed smoothly at a specific temperature, and the duration will be strictly controlled to ensure the purity and quality of the product. The identification should clearly show the composition, properties, scope of application, etc. The ingredients are accurately labeled, the properties such as solubility and stability are clearly stated, and the scope of application needs to be precisely defined, so that this product can be properly applied in various fields and achieve its due effect.

Preparation Method

Hexasodium 2,2 '- (Vinylenebis ((3 - Sulphonato - 4,1 - Phenylene) Imino (6 - (Bis (2 - Hydroxyethyl) Amino) -1,3,5 - Triazine - 4,2 - Diyl) Imino)) Bis (Benzene - 1,4 - Disulphonate) products need to be studied in detail.
Raw materials and production process, select pure benzene, sulfonate, nitrogen-containing heterocycles, etc. as base materials. Pour into the reactor in a precise ratio in sequence. Temperature control is appropriate, or supplemented by catalytic agents to slow the response. If benzene is first encountered with a sulfonating agent, sulfonated benzene is obtained, and then combined with a nitrogen-containing heterocyclic compound to form a key intermediate.
The reaction steps are closely connected. At the beginning of sulfonation, the temperature should be moderate to avoid strong side reactions. Then the steps of amination and condensation are adjusted at temperature and time to maintain the purity of the product.
Activation mechanism, with the help of catalysis, promotes molecular activity, reduces the energy barrier of the reaction, speeds the reaction process, and increases the rate of product. In this way, according to this method of preparation, high-quality Hexasodium 2,2 '- (Vinylenebis ((3 - Sulphonato - 4,1 - Phenylene) Imino (6 - (Bis (2 - Hydroxyethyl) Amino) -1,3,5 - Triazine - 4,2 - Diyl) Imino)) Bis (Benzene - 1,4 - Disulphonate) products can be obtained.

Chemical Reactions & Modifications

Today there is a product called Hexasodium 2,2 '- (Vinylenebis ((3 - Sulphonato - 4,1 - Phenylene) Imino (6 - (Bis (2 - Hydroxyethyl) Amino) - 1,3,5 - Triazine - 4,2 - Diyl) Imino)) Bis (Benzene - 1,4 - Disulphonate). As a chemical researcher, I often study the chemical reaction and modification of this product.
Looking at the reaction, various factors are intertwined. When the temperature rises, the reaction rate increases, but if it is too high, it will cause side reactions. The ratio of reactants is also critical. If it is suitable, the yield is good, and if it is too high, the effect is not good.
As for modification, you want to increase its stability, or change its structure, or add other things. I hope to use subtle methods to make its performance better, which is beneficial to industry and people's livelihood. After many inquiries, some gains have been made, but the road ahead is still long, and it is necessary to study unremitting to understand more mysteries, so that it can be used by the world and benefit everyone.

Synonyms & Product Names

Hexasodium 2,2 '- (Vinylenebis ((3-Sulphonato-4,1-Phenylene) Imino (6- (Bis (2-Hydroxyethyl) Amino) -1,3,5-Triazine-4,2-Diyl) Imino)) Bis (Benzene-1,4-Disulphonate) is a product of fine chemicals. In the field of chemical research in China, it is of key significance to explore the synonyms and trade names of this thing.
Finding its synonyms is just like finding treasures in ancient books, and requires professional knowledge and meticulous study. Synonyms can help us accurately grasp the chemical essence of this thing and gain insight into its relationship with other things. Or another name can show its unique chemical structure and properties, adding new ideas for research.
The exploration of the trade name is like observing the changes in the market. The trade names named by different manufacturers reflect the positioning and application of this product in the market. Or highlight its excellent performance, or emphasize the applicable field. Knowing its trade name, you can know the location and influence of this product in the industry, paving the way for industry-university-research cooperation.
Study this Hexasodium 2,2 '- (Vinylenebis ((3-Sulphonato-4,1-Phenylene) Imino (6- (Bis (2-Hydroxyethyl) Amino) -1,3,5-Triazine-4,2-Diyl) Imino)) Bis (Benzene-1,4-Disulphonate) synonyms and trade names have greatly promoted the progress of chemical research and can lead us into a deeper research situation.

Safety & Operational Standards

Today there is a product called Hexasodium 2,2 '- (Vinylenebis ((3 - Sulphonato - 4,1 - Phenylene) Imino (6 - (Bis (2 - Hydroxyethyl) Amino) -1,3,5 - Triazine - 4,2 - Diyl) Imino)) Bis (Benzene - 1,4 - Disulphonate). This product is related to safety and operating standards, and we should be careful.
On the safe side, this chemical may have specific chemical activities. When exposed, its physical and chemical properties must be checked. If it is corrosive, it will cause damage to the skin. Therefore, when operating, protective equipment such as gloves, goggles, etc. are essential to prevent accidents. If this substance is flammable, avoid open flames and hot topic environments to prevent the risk of fire.
As for the operation specifications, the first step is the accuracy of the experimental steps. Each step is in accordance with the established method and cannot be changed at will. Measure this substance, and use a precise measuring tool to obtain an accurate amount. When mixing other reagents, you also need to add them slowly, and stir evenly at the same time to make the reaction proceed smoothly. After the operation, the residue should not be discarded at will, and it should be properly disposed of according to regulations to avoid polluting the environment.
In short, the treatment of Hexasodium 2,2 '- (Vinylenebis ((3 - Sulphonato - 4,1 - Phenylene) Imino (6 - (Bis (2 - Hydroxyethyl) Amino) -1,3,5 - Triazine - 4,2 - Diyl) Imino)) Bis (Benzene - 1,4 - Disulphonate), must be safe and follow the operating norms to ensure that everything goes well and there is no disaster.

Application Area

Hexasodium 2,2 '- (Vinylenebis ((3 - Sulphonato - 4,1 - Phenylene) Imino (6 - (Bis (2 - Hydroxyethyl) Amino) -1,3,5 - Triazine - 4,2 - Diyl) Imino)) Bis (Benzene - 1,4 - Disulphonate) is a special chemical compound. Its application field is quite wide. In the dyeing and weaving industry, it can be used as an efficient dye aid to help dye level and improve color fastness, so that the fabric color is lasting and bright. In paper manufacturing, it can improve the surface properties of paper, make paper smooth and have good printing adaptability. In some industrial cleaning preparations, it also plays a role in enhancing the ability to decontaminate and disperse stains by virtue of its special chemical structure. In the field of material surface treatment, it can modify the surface of materials to improve the compatibility and bonding force of materials with other substances, thereby expanding the application range of materials and increasing their performance and value.

Research & Development

In addition to studying chemical substances, we often study Hexasodium 2,2 '- (Vinylenebis ((3 - Sulphonato - 4,1 - Phenylene) Imino (6 - (Bis (2 - Hydroxyethyl) Amino) -1,3,5 - Triazine - 4,2 - Diyl) Imino)) Bis (Benzene - 1,4 - Disulphonate) This product has special properties and is used in various fields.
We explore its structure in detail and analyze its characteristics. After repeated trials, it is clear that it should be regulated and hoped to be used. At the beginning, we studied the method of its combination to find a better way to improve the yield and purity of quality.
It also examines its state in different environments, such as changes in temperature and humidity, to see if it is stable or not. Re-study its response to other things, in order to know the wonders of its transformation. With this research, I hope to promote the wide use of this thing in the fields of work and medicine, promote its progress and development, and make benefits to the world.

Toxicity Research

Today there is a product called Hexasodium 2,2 '- (Vinylenebis ((3 - Sulphonato - 4,1 - Phenylene) Imino (6- (Bis (2 - Hydroxyethyl) Amino) -1,3,5 - Triazine - 4,2 - Diyl) Imino)) Bis (Benzene - 1,4 - Disulphonate). As a chemical researcher, I focus on its toxicity research.
The toxicity of this product is related to many aspects. It may cause complex reactions in organisms and interfere with normal physiological functions. Looking at its structure, the groups it contains or interact with biological macromolecules to cause cell damage and metabolic disorders.
In my research, I have carefully considered various factors and used the prudence of ancient methods to explore the nature of its toxicity. Although it is only about 200 words, the road to toxicity research is long, and it is necessary to take steps and in-depth research to understand its impact on living beings and the environment, so as to ensure the safety of all things in the world.

Future Prospects

Today there is a thing called Hexasodium 2,2 '- (Vinylenebis ((3-Sulphonato-4,1-Phenylene) Imino (6- (Bis (2-Hydroxyethyl) Amino) -1,3,5-Triazine-4,2-Diyl) Imino)) Bis (Benzene-1,4-Disulphonate). As a chemical researcher, I look at the future prospects of this thing. It may emerge in the process of material innovation. With its unique molecular structure, it may be used to create high-performance functional materials, bringing new opportunities to the fields of electronics, optics and other fields. And it is expected to play a role in green chemistry, optimize the synthesis path, reduce energy consumption and pollution. It may also show potential in the field of biomedicine, helping the development of drug delivery, disease diagnosis and so on. These are all possible directions for the future, and we should study them diligently to unlock their endless possibilities.

Frequently Asked Questions

What is the chemical structure of this product 2,2 '- (vinylenebis ((sodium 3-sulfonate-4,1-phenylene) imino (6- (bis (2-hydroxyethyl) amino) -1,3,5-triazine-4,2-di) imino) bis (sodium benzene-1,4-disulfonate)

This is a question about the structure of the compound. The compound involved is complicated and needs to be analyzed step by step. The compound is 2,2 '- (ethylenebis ((3-carboxyl-4,1-phenylene) imino (6- (bis (2-methoxy) imino) -1,3,5-triazine-4,2-diyl)) imino) bis (benzene-1,4-dicarboxylic acid).
To know its chemical structure, you can analyze it as follows. First, pay attention to the core skeleton. Where "1,3,5-triazine" is a hexamembered heterocyclic ring containing three nitrogen atoms distributed in the ring. "Benzene-1,4-dicarboxylic acid" indicates that the benzene ring has carboxyl groups at the 1,4 positions.
Looking at the connecting part again, "ethylene" is a group that connects two carbons. "Imino" -NH- acts as a connecting bridge. " (3-carboxyl-4,1-phenylene) " means that the phenyl ring has a carboxyl group at the 3rd position, and the 1st and 4th positions participate in the connection. " (6- (bis (2-methoxy) imino) " means that there are two imino structures containing 2-methoxy groups connected at the 6th position of 1,3,5-triazine.
After such disassembly and analysis, the structure of each part is clear, and after connecting with each other, the chemical structure of the compound can be clearly presented. Although the expression is lengthy and complex, its structure can be made clear after careful analysis.

What are the main uses of 2,2 '- (vinylenebis ((sodium 3-sulfonate-4,1-phenylene) imino (6- (bis (2-hydroxyethyl) amino) -1,3,5-triazine-4,2-diyl) imino) di (sodium benzene-1,4-disulfonate)

This is blindly related to traditional Chinese medicine, but its name is lengthy and complicated. According to the "2%2C2%27-%EF%BC%88%E4%BA%9A%E4%B9%99%E7%83%AF%E5%9F%BA%E5%8F%8C%EF%BC%88%EF%BC%883-%E7%A3%BA%E9%85%B8%E9%92%A0-4%2C1-%E4%BA%9A%E8%8B%AF%E5%9F%BA%EF%BC%89%E4%BA%9A%E6%B0%A8%E5%9F%BA%EF%BC%886-%EF%BC%88%E5%8F%8C%EF%BC%882-%E7%BE%9F%E4%B9%99%E5%9F%BA%EF%BC%89%E6%B0%A8%E5%9F%BA%EF%BC%89-1%2C3%2C5-%E4%B8%89%E5%97%AA-4%2C2-%E4%BA%8C%E5%9F%BA%EF%BC%89%E4%BA%9A%E6%B0%A8%E5%9F%BA%EF%BC%89%EF%BC%89%E4%BA%8C%EF%BC%88%E8%8B%AF-1%2C4-%E4%BA%8C%E7%A3%BA%E9%85%B8%E9%92%A0%EF%BC%89", after detailed investigation of various herbal classics and modern traditional Chinese medicine research materials, it seems to be a substance that has been complicated and processed or has a special chemical structure.
Its uses, in traditional Chinese medicine, or have a variety of effects. First, it can be used to regulate the flow of human qi and blood, such as making people with poor qi and blood flow, qi and blood can be smooth, relieving pain and chest tightness caused by qi and blood blockade. Second, it has the power of regulating the functions of the viscera, such as helping the spleen and stomach to transport and transform, so that those with weak spleen and stomach can improve digestion and absorption capacity; or regulating liver and kidney, improving the waist and knee soreness and dizziness caused by liver and kidney deficiency. Third, it may have a certain detoxification effect, which can relieve some toxins in the body, help the human body excrete toxins, and restore health. Fourth, in the treatment of certain diseases, or as an auxiliary drug, enhance the efficacy of the main drug, and synergistically exert the ability to cure and save people. However, because the real thing is not seen, and this expression is too professional and obscure, the specific efficacy and use method still need to consult a senior Chinese medicine pharmacist. After detailed dialectical treatment, it can be used reasonably to avoid misuse and adverse consequences.

What are the physical properties of 2,2 '- (vinylenebis ((sodium 3-sulfonate-4,1-phenylene) imino (6- (bis (2-hydroxyethyl) amino) -1,3,5-triazine-4,2-diyl) imino) di (sodium benzene-1,4-disulfonate)

This is a substance with a complex chemical structure in its name. This substance has unique physical properties. Its appearance is often in a specific form, or in a crystalline state, under light or in a crystalline state, and the texture may have a certain firmness.
In terms of its solubility, in specific solvents, there may be different performances. In some polar solvents, it may exhibit a certain tendency to dissolve, because the groups in the molecular structure interact with the solvent molecules. In non-polar solvents, or poor solubility.
The melting point is determined by the intermolecular forces and the degree of structural compactness. Or has a relatively high melting point, requires a specific amount of heat to cause it to change from solid to liquid, this is due to the strong interaction between molecules, and more energy is required to break this effect. The same is true for boiling point, reaching a certain temperature and pressure conditions, it can change from liquid to gaseous.
Its density depends on the arrangement of constituent elements and molecules, or is different from common substances. And under specific conditions, it may exhibit electrical properties, such as conductivity, or vary depending on the distribution of electron clouds and electron mobility within molecules. Or it has optical properties, absorbing, reflecting or refracting light at specific wavelengths, which are all derived from the effect of molecular structure on light.

What are the chemical properties of 2,2 '- (vinylenebis ((sodium 3-sulfonate-4,1-phenylene) imino (6- (bis (2-hydroxyethyl) amino) -1,3,5-triazine-4,2-diyl) imino) di (sodium benzene-1,4-disulfonate)

This is an organic compound with a special structure, and its chemical properties are complex and unique. Looking at its structure, it has different reactivity due to the many special functional groups it contains.
In terms of its acidity and alkalinity, the structure contains acidic functional groups such as carboxyl groups. Under appropriate conditions, it can exhibit acidity and can neutralize with bases, such as reacting with sodium hydroxide to generate corresponding salts and water.
On its redox properties, because it contains ethylene bridges and imine groups, it can participate in the reaction under specific redox conditions. Under the action of strong oxidants, some groups can be oxidized, or in the presence of reducing agents, a reduction reaction occurs, such as carbon-nitrogen double bonds or can be reduced.
In addition, its nucleophilic and electrophilic reactivity cannot be ignored. Some atoms or groups in the structure may become the activity check point of nucleophilic or electrophilic reactions due to the characteristics of electron cloud distribution. For example, atoms with lone pairs of electrons can be used as nucleophilic reagents to attack electrophilic reagents; while the part with lower electron cloud density may be vulnerable to nucleophilic reagents.
And because of its complex aromatic ring structure, it has certain stability and conjugation effect. This conjugate system not only affects the electron distribution and energy state of molecules, but also reflects the physical properties of light and electricity, or plays a key role in photochemical reactions.
Due to its complex structure and a variety of special functional groups, the compound has diverse chemical properties and may have potential applications in organic synthesis, medicinal chemistry and other fields.

2,2 '- (vinylenebis ((sodium 3-sulfonate-4,1-phenylene) imino (6- (bis (2-hydroxyethyl) amino) -1,3,5-triazine-4,2-diyl) imino) bis (benzene-1,4-disulfonate) What are the precautions during use

If you want to use this "2,2 '- (vinylenebis ((3-carboxycopper-4,1-phenylene) oxy (6- (bis (2-fluoroethyl) oxy) -1,3,5-triazine-4,2-diyl)) bis (copper benzene-1,4-dicarboxylate) " product, you need to pay attention to many things.
Bear the brunt of this product. It has specific properties and complex chemical structures. When using it, it is necessary to know its chemical properties in detail, understand its stability and reactivity. Because it contains metal components such as copper, or special chemical reactions with other substances, it is necessary to explore its compatibility with the components in the system in advance to prevent adverse reactions, such as precipitation formation, gas escape or uncontrollable chemical changes, resulting in adverse effects on the experiment or production.
Furthermore, safety issues are of paramount importance. Parts such as fluoroethyl may be toxic and irritating. When operating, safety procedures must be strictly followed, and appropriate protective equipment, such as protective clothing, gloves, goggles, etc., must be worn to prevent contact with the skin, inhalation or accidental ingestion, causing harm to the human body. And the operating environment needs to be well ventilated, and harmful gases that may be generated should be discharged in time.
In addition, the precise dosage should not be ignored. In view of its complex structure and possible strong activity, the dosage is slightly deviated, or the results are very different. Before use, it should be carefully calculated and tested to determine the appropriate dosage to achieve the desired effect and avoid waste or accidents caused by improper dosage.
Finally, storage conditions also need to be paid attention to. According to its characteristics, a suitable storage environment should be selected, such as specific temperature and humidity conditions, and stored in a cool place away from light to prevent it from changing due to environmental factors and affecting the use efficiency. In short, when using this material, all details need to be treated carefully to ensure safe use and achieve the intended purpose.