Tetrasodium 3,3'-((6-((2-Hydroxyethyl)Amino)-1,3,5-Triazine-2,4-Diyl)Bis(Imino(2-Methyl-4,1-Phenylene)Azo))Bisnaphthalene-1,5-Disulphonate

Lingxian Chemical

Specifications

HS Code	548674
Chemical Name	Tetrasodium 3,3'-((6-((2-Hydroxyethyl)Amino)-1,3,5-Triazine-2,4-Diyl)Bis(Imino(2-Methyl-4,1-Phenylene)Azo))Bisnaphthalene-1,5-Disulphonate
Molecular Formula	C40H34N10Na4O10S2
Molecular Weight	990.82 g/mol
Appearance	Typically a solid (color may vary depending on purity and form)
Solubility	Soluble in water to some extent (due to sulphonate groups)
Ph Solubility	Solubility may be affected by pH, sulphonate groups are anionic and can interact with pH changes
Melting Point	Data may vary, but generally high for such organic salts
Thermal Stability	Can decompose under high temperatures, exact range depends on conditions
Chemical Stability	Stable under normal conditions, but can react with strong oxidizing or reducing agents
Hazard Classification	May pose risks if ingested, inhaled or in contact with skin; classification can vary by region and testing

Packing & Storage

Packing	Packaging: 1 kg bag for Tetrasodium 3,3'-(...)-Bisnaphthalene - 1,5 - Disulphonate chemical.
Storage	Storage Instructions for Tetrasodium 3,3'-((6-((2-Hydroxyethyl)Amino)-1,3,5-Triazine-2,4-Diyl)Bis(Imino(2-Methyl-4,1-Phenylene)Azo))Bisnaphthalene-1,5-Disulphonate Store this chemical in a cool, dry place away from heat sources and direct sunlight. Keep container tightly sealed to prevent moisture absorption. Avoid storing near oxidizing agents or reactive chemicals. Use approved storage cabinets in a well - ventilated area to minimize exposure risks.
Shipping	"Shipping of Tetrasodium 3,3'-((6-((2 -Hydroxyethyl)Amino)-1,3,5 -Triazine-2,4 -Diyl)Bis(Imino(2 -Methyl-4,1 -Phenylene)Azo))Bisnaphthalene-1,5 -Disulphonate must follow strict chemical transport regulations, ensuring proper packaging to prevent spills and contamination during transit."

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Tetrasodium 3,3'-((6-((2-Hydroxyethyl)Amino)-1,3,5-Triazine-2,4-Diyl)Bis(Imino(2-Methyl-4,1-Phenylene)Azo))Bisnaphthalene-1,5-Disulphonate

General Information

Historical Development

In the field of chemistry, there is a name Tetrasodium 3,3 '- (6- ((2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate. At the beginning of the thing, people did not know its nature at the beginning, but only saw subtle changes.
and the passage of time, the study of scholars has gradually deepened, and its structure and characteristics have been understood. Beginning to know that it has a unique chemistry and can be used in various fields. The road of exploration in the past, although there was no lack of hardships, was unremitting and moving forward step by step. From the initial ignorance to the present day, the historical evolution of this material is a testament to the diligent research of the academic community, and it also paves the foundation for future generations to explore the unknown, inspiring people to think deeply about future development.

Product Overview

A chemical named Tetrasodium 3,3 '- (6- ((2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate, this material is also unique. Its structure is exquisite, cleverly connected with triazine, benzene and naphthalene groups, presenting a complex structure. The appearance may be a powder or crystal of a certain color, and it may exhibit a stable state in a specific chemical environment.
has its application in the industrial field, or in the field of dyes, etc., with the chromaticity and stability given by its structure, it adds color to related products. However, the preparation method may require fine temperature control and precise proportions, and can only be achieved after several complex processes. Its chemical properties are also affected by factors such as pH and temperature in the surrounding environment. The study of this substance can pave the way for the advancement of chemical technology and the development of new materials.

Physical & Chemical Properties

A chemical substance named Tetrasodium 3,3 '- (6- ((2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate, its physicochemical properties are very important. This substance has unique properties. Under normal conditions, it can be observed in its color, or in a specific color; its state, or in a certain form. Its solubility is crucial. It may be soluble or insoluble in a specific solvent, and the degree of solubility varies, which is related to its dispersion and reaction in various systems. Thermal stability cannot be ignored. When heated, it reaches a certain temperature range, or decomposes or changes in color, which affects its application scenarios. And its chemical activity may vary in different media, or it may react chemically with specific substances, revealing unique chemical properties that have a profound impact on its production, storage, and application.

Technical Specifications & Labeling

Today there is a product called Tetrasodium 3,3 '- (6- ((2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate. In this product, process specifications and identification (commodity parameters) are of the utmost importance.
In terms of its process specifications, it is necessary to carefully study the ratio of raw materials and the combination of materials. There should be a fixed number, and there should be no slight difference. The temperature and pressure of the reaction also need to be strictly controlled to ensure that it is in accordance with the rules. As for the logo, the product parameters should be clear and not hidden, and the characteristics, purity, and use and preservation methods should be clearly identifiable, so that users can see it at a glance and do not have doubts. In this way, the essence of fanghe process specifications and labels is beneficial to the quality of the product and the convenience of the user.

Preparation Method

Tetrasodium 3,3 '- ((6- (2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate this product, the method of preparation needs to be studied in detail. First, the raw materials and production process are specified, and the high-quality raw materials are selected, and the ratio is according to a specific formula. The reaction step is also critical. Control the temperature, time and the amount of each product to make the reaction go forward. For example, first mix the two substances in a certain ratio, stir at a certain temperature, and wait for them to fully react to obtain an intermediate product. After subsequent treatment, operate in sequence without any difference. Catalytic mechanism can not be ignored, select the appropriate catalyst, adjust its dosage, in order to promote the reaction rate and increase the purity of the product. After this fine preparation, this quality can be obtained.

Chemical Reactions & Modifications

Under a certain sunset, I studied a chemical substance in my room, named Tetrasodium 3,3 '- (6- (2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate. The chemical reaction and modification of this substance are of great importance to me.
Looking at the reaction, at the beginning, the components are blended, which seems to be calm and silent, but in the microscopic domain, atoms and molecules are quietly dancing. The breaking and recombination of its chemical bonds follow the laws of nature, but they are subtle and difficult to measure.
As for modification, I have tried various methods. Or change its temperature, or change its pressure, or add other things to promote it. In the meantime, there are gains and losses. Those who gain, the performance is slightly changed, or the stability is increased, or the color is changed; those who lose, the reaction is not as expected, and it is laborious. However, the road of scientific research is already tortuous. I should persevere and explore it. I hope to be able to make great achievements in its chemical reaction and modification, and add bricks and mortar to the chemical industry.

Synonyms & Product Names

Today there is a product called Tetrasodium 3,3 '- (6- ((2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate. The investigation of the same trade name is important in the research of chemical technology. This product may have different properties to meet different needs in different fields. I study the same product name, and I study the same product name, identify its micro-effects, and observe its use. Because of different names, or contain different characteristics, uses, and methods. Studying the same trade name of this product can enable me to learn the way of transformation, and go further and clarify its wonders, so as to facilitate the development of general use.

Safety & Operational Standards

The safety and operating practices of a chemical substance relate to Tetrasodium 3,3 '- ((6- (2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate This substance needs to be explained in detail.
All use and operation of this substance should abide by specific regulations. Store it in a dry, cool and well-ventilated place, away from sources of fire and heat, to prevent accidents. When taking it, you must wear suitable protective equipment, such as gloves, goggles, etc., to avoid contact with the skin and eyes. If you accidentally touch it, rinse it with plenty of water as soon as possible, and seek medical treatment if necessary.
When operating, there are also many key points. It must be done in the fume hood to prevent the accumulation of harmful gases. The dosage should be accurately weighed, and it should not be increased or decreased arbitrarily according to the needs of the experiment. The operation method must be stable and accurate, and it should not be spilled or splashed.
And after the use of this object, the remnants should not be discarded at will, and should be properly disposed of according to the prescribed laws. If leakage occurs during the experiment, emergency measures should be taken immediately, such as covering it with adsorption materials, collecting it carefully, and then dealing with it reasonably.
In general, only by strictly observing safety and operating standards can we ensure the smooth activities of this object and protect the safety of people, objects and the environment.

Application Area

Taste the wonders of chemical industry, and it exists in all kinds of things. Today there is a thing called Tetrasodium 3,3 '- ((6- (2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate. This thing is quite effective in the field of printing and dyeing. Its color is bright and firm, and it is attached to the fabric. It has been washed and the color is not faded, which can add brilliance to the clothes and silk. In the genus of paint, it can also make the color uniform and long-lasting, and it can be used for wall decorations. It has been used for a long time and the color is the same as before. Furthermore, in the system of ink, it can make the handwriting clear, and it will not fade for a long time, and it will keep the documents and classics clear and readable. All of these can be seen in the practical field, which is an indispensable contribution to the chemical industry.

Research & Development

In recent years, I have been in the field of chemical research, focusing on Tetrasodium 3,3 '- ((6- (2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate this compound. Its unique structure and properties are unique, and it has potential application value in many fields.
I have dedicated myself to studying its synthesis method, striving to optimize the process, improve the yield and purity. After repeated tests, I have tasted new paths, but despite many obstacles, I am determined. And study its performance characteristics, such as solubility, stability, etc., hoping to clarify its advantages and limitations.
In the future development, we hope to expand new applications based on this compound, such as in the fields of materials science, biomedicine, etc., to contribute to the progress of the industry. Unremitting efforts are made to promote the research and development of this chemical product and benefit the world.

Toxicity Research

Scholars who have tasted the ancient times have studied the physical properties, observed the micro-knowledge, and understood the principles of all things. Today there is a chemical thing called Tetrasodium 3,3 '- ((6- (2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo)) Bisnaphthalene-1,5-Disulphonate. The study of its toxicity is related to the safety of people's livelihood and cannot be ignored.
Yu devoted himself to studying this thing to explore the signs of its toxicity. After months of experiments, observe its impact on various environments and organisms. Or apply it to plants and trees to observe their growth and withering; or use it for insects to observe their survival. It is hoped to understand the strength of its toxicity and analyze the mechanism of its action in order to avoid its harm and promote its benefits. Although the process is arduous, the direction of ambition is far away, but I wish to obtain true knowledge and use it for everyone to ensure the well-being of one party, and to live up to the responsibility of scholars.

Future Prospects

Today there is a product called Tetrasodium 3,3 '- (6- ((2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate. As a chemical researcher, I often think about the future development of this product.
The characteristics of this product are very different, or in the field of dyeing, it adds fresh color to make the fabric color lasting; or in the world of materials, it increases its properties, such as strength and stability, to help the emergence of new materials. Although the road ahead is uncertain, I firmly believe that with time and detailed investigation, its potential will be revealed and used by the world. Future exhibitions can be expected to contribute to the prosperity of industry, the beauty of life, and the well-being of everyone. With the advancement of science and technology, we will contribute to the bright road together.

Frequently Asked Questions

What is the chemical structure of Tetrasodium 3,3 '- ((6- ((2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate?

This is the name of a chemical substance, and its corresponding chemical structure is extremely complex, and it needs to be disassembled and analyzed step by step according to the naming rules of organic chemistry. The following is explained in the style of ancient Chinese words in "Tiangong Kaiwu":
View this "Tetrasodium 3,3 '- ((6- ((2-Hydroxyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo)) Bisnaphthalene-1,5-Disulphonate" name, which is determined by the Naxi people by their chemical rules.
Its structural core may begin with a triazine ring, and the 6 positions on the ring are connected with (2-hydroxyethyl) amino groups. The 2nd and 4th positions of the triazine ring are respectively connected by imino and (2-methyl-4,1-phenylene) azo groups, and this connection occurs in pairs. The two ends are then connected to the naphthalene-1,5-disulfonic acid group, and the sodium ion has four, which binds to it.
The structure of this compound is exquisite and complicated, and the groups are linked to each other, just like the delicate tools of the natural creation. With the degree of chemistry, each atom and group is arranged and combined according to its valence bond law to construct this unique chemical structure, each performing its own duties and jointly determining the properties and functions of the substance.

Tetrasodium 3,3 '- ((6- ((2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate What are the main uses?

Tetrasodium 3,3 '- (6- ((2-hydroxyethyl) amino) -1,3,5-triazine-2,4-diyl) bis (imino (2-methyl-4,1-phenylene) azo)) binaphthalene-1,5-disulfonate, which is a product of organic synthesis and has important uses in many fields.
First, in the dye industry, this compound is a key dye intermediate. Through exquisite chemical synthesis, it can be converted into a colorful and excellent dye. The special groups contained in its structure endow the dye with excellent dyeing properties, such as high color fastness, good light resistance and washable properties. Whether it is fabric dyeing, leather, paper and other materials, the dyes synthesized by this intermediate can achieve the ideal color effect, which greatly enriches the color selection in the dyeing field and meets the strict requirements of different industries for dyeing quality.
Second, in the field of coatings, it also shows unique value. Because of its good stability and dispersion, it can be integrated into the coating system as an additive. On the one hand, it can improve the color brightness and hiding power of the paint, so that the coated surface presents a more brilliant and uniform color; on the other hand, it can enhance the adhesion performance of the paint, make the paint firmly adhere to the surface of various substrates, prolong the service life of the paint, and play an indispensable role in architectural decoration, industrial equipment coating, etc.
Third, in the field of ink manufacturing, this substance also plays an important role. As a colorant or auxiliary agent of ink, it helps to improve the printability of ink. Its special molecular structure can optimize the drying speed, fluidity and transfer of ink, ensure the smooth progress of the printing process, clear printing patterns and full colors. It is widely used in packaging printing, book printing and many other printing industries, providing strong support for the high-quality presentation of printed matter.

How safe is Tetrasodium 3,3 '- ((6- ((2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate?

This is called tetrasodium 3,3 '- ((6- ((2-hydroxyethyl) amino) -1,3,5-triazine-2,4-diyl) bis (imino (2-methyl-4,1-phenylene) azo)) bisulfonaphthalene-1,5-disulfonate. Its safety is related to many aspects, let me elaborate.
Looking at the chemical structure, this compound contains triazine, azo and sulfonate groups. The triazine structure is often found in a variety of chemical products, some of which are biologically active and stable. However, azo groups need special attention, because some isomerism can be cleaved under certain conditions to produce aromatic amines, and some aromatic amines have been proven to be carcinogenic. However, the azo structure of this compound is accompanied by specific substituents, which may affect its stability and cleavage tendency.
As far as toxicology is concerned, although there is no comprehensive toxicological data published in detail. However, if the compound with similar structure is ingested in excess, it may cause a burden on the liver, kidneys and other organs of the organism. Because the sulfonate group makes the substance water-soluble, or it is easy to migrate with the water flow and enter the aquatic ecosystem. In aquatic organisms, it may affect their physiological functions and interfere with their normal growth and reproduction processes.
In industrial use scenarios, if improper operation, human skin contact or irritation, causing symptoms such as redness, swelling, itching. If its dust is inhaled into the respiratory tract, or has adverse effects on the respiratory system.
Overall, there are still many unknown and latent risks to the safety of this compound. In the use, production and environmental discharge, all aspects need to be treated strictly, and its toxicological properties and environmental behavior should be studied in depth to maximize human health and ecological environment safety.

What is the market price of Tetrasodium 3,3 '- ((6- ((2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate?

I am looking at the market price of Tetrasodium 3,3 '- ((6- (2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate. This substance is a chemical substance, and its market price often changes for a variety of reasons.
First, the cost of production is the key. The price fluctuations of raw materials, the difficulty of production processes, and the amount of energy consumption all affect its cost. If raw materials are scarce or difficult to obtain, the cost will rise, and the price will also rise.
Second, the supply and demand relationship in the market determines the price. If there is a large increase in demand for this product, but the supply is limited, if the demand in a specific industrial field is strong, the price will be high; conversely, if the supply is sufficient and the demand is small, the price will be reduced.
Third, brand and quality also play a role. Well-known brands with high quality may have higher prices than ordinary ones due to reputation and quality assurance.
Fourth, regional differences cannot be ignored. In different places, prices may vary due to differences in transportation costs and tax policies.
However, because I do not know the exact application scenarios of this product and the specific supply and demand in the current market, it is difficult to tell the specific price. You can consult chemical product suppliers, distributors, or consult professional chemical market reports to get more accurate price information.

Tetrasodium 3,3 '- ((6- ((2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate What are the production processes?

Tetrasodium 3,3 '- ((6- (2-Hydroxyethyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate is an organic compound, and its production process is quite complicated.
The starting point of the production of this compound often requires careful selection of suitable starting materials. Raw materials such as 2-methyl-4-aminobenzenesulfonic acid and 2-hydroxyethylamine need to ensure high purity in order to lay a good foundation for subsequent reactions.
Diazotization is crucial in its production process. Compounds containing aryl primary amino groups are converted into diazonium salts by interacting with sodium nitrite at low temperature and in a strong acid environment. This step must be rigorous. Due to the active nature of diazonium salts, it is easy to cause danger if you are not careful. The precise control of temperature and the adjustment of acid concentration are all key.
coupling reaction is also indispensable. Diazonium salts and compounds containing active hydrogen, such as naphthalene compounds, are coupled under suitable conditions to construct complex molecular structures. During the reaction process, pH value, temperature and the proportion of reactants all have a significant impact on the rate of reaction and the purity of the product.
In addition, the introduction of triazine rings is also a key link. Under specific reaction conditions, the compounds containing amino groups are reacted with triazine compounds, and the triazine ring is cleverly connected to the molecular structure, giving the compounds unique properties.
After the reaction is completed, the separation and purification of the product should not be ignored. It is often necessary to use various means such as filtration, crystallization, chromatographic separation, etc., to obtain high-purity Tetrasodium 3,3 '- ((6- (2-Methyl) Amino) -1,3,5-Triazine-2,4-Diyl) Bis (Imino (2-Methyl-4,1-Phenylene) Azo) Bisnaphthalene-1,5-Disulphonate. Each step requires fine operation to ensure product quality.