Benzenesulfonic Acid, 2,2'-(1,2-Ethenediyl)Bis(5-((4-((3-Amino-3-Oxopropyl)(2-Hydroxyethyl)Amino)-6-(Phenylamino)-1,3,5-Triazin-2-Yl)Amino)-, Sodium Salt (1:2)

Lingxian Chemical

Specifications

HS Code	183867
Chemical Name	Benzenesulfonic Acid, 2,2'-(1,2-Ethenediyl)Bis(5-((4-((3-Amino-3-Oxopropyl)(2-Hydroxyethyl)Amino)-6-(Phenylamino)-1,3,5-Triazin-2-Yl)Amino)-, Sodium Salt (1:2))
Molecular Formula	C44H46N12O8S2.2Na
Molecular Weight	999.04 g/mol (approx., considering 2 sodium ions)
Appearance	Most likely a solid, color might vary depending on purity
Solubility	Solubility properties would depend on the nature of the solvent; likely soluble in polar solvents due to presence of polar groups
Ph	As a sodium salt of an acid, it may have a pH influence in solution depending on concentration, potentially slightly basic
Stability	Stability would be influenced by factors like heat, light, and humidity; should be stored in a cool, dry place
Pka	The pKa of the benzenesulfonic acid part would be around 0 - 1 (typical for benzenesulfonic acids), but modified by the rest of the molecule
Uv Vis Absorption	Absorption bands would be expected in the UV - Vis region due to the presence of aromatic rings
Melting Point	Melting point data would require experimental determination; expected to be relatively high due to ionic and intermolecular forces

Packing & Storage

Packing	250g pack of Sodium Salt of specified benzenesulfonic acid chemical.
Storage	Store the chemical, Benzenesulfonic Acid, 2,2'-(1,2 -Ethenediyl)bis(5-((4-((3 -Amino-3 -Oxopropyl)(2 -Hydroxyethyl)amino)-6-(Phenylamino)-1,3,5 -Triazin-2 -Yl)amino)-, Sodium Salt (1:2), in a cool, dry place. Keep it away from heat, ignition sources, and moisture. Use tightly - sealed containers to prevent oxidation and contamination, ensuring storage in a well - ventilated area isolated from incompatible substances.
Shipping	Ship the sodium salt of benzenesulfonic acid derivative in appropriate, corrosion - resistant containers. Follow all hazardous chemical shipping regulations, ensuring proper labeling and secure packaging to prevent leakage during transit.

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Benzenesulfonic Acid, 2,2'-(1,2-Ethenediyl)Bis(5-((4-((3-Amino-3-Oxopropyl)(2-Hydroxyethyl)Amino)-6-(Phenylamino)-1,3,5-Triazin-2-Yl)Amino)-, Sodium Salt (1:2)

General Information

Historical Development

There is a chemical product, and the name is Benzenesulfonic Acid, 2,2 '- (1,2-Ethenediyl) Bis (5- (4- ((3-Amino-3-Oxopropyl) (2-Hydroxyethyl) Amino) -6- (Phenylamino) -1,3,5-Triazin-2-Yl) Amino) -, Sodium Salt (1:2). At the beginning, it was studied by all workers, and it was repeated in all kinds of materials and methods. After years of work, I know its nature and its changes, and then I can get the method of preparation. At the beginning, the effect is not obvious, but those who persevere will eventually be able to achieve work. As the years go by, the method of preparation will gradually be refined, and its use in various industries will also become more and more widespread, or to help dye and weave colors, or to benefit various chemical industries. Looking at its course, the researchers combined their efforts and explored it step by step in the path of chemistry, so that this thing appeared in the world from nowhere, occupied a place in the forest of industry, and became a good product that can be used today and is valued by future generations.

Product Overview

Today there is a thing called Benzenesulfonic Acid, 2,2 '- (1,2-Ethenediyl) Bis (5- ((4- ((3-Amino-3-Oxopropyl) (2-Hydroxyethyl) Amino) -6- (Phenylamino) -1,3,5-Triazin-2-Yl) Amino) -, Sodium Salt (1:2). This is a chemical product and is a sulfonate. In its structure, the benzenesulfonic acid group is connected to a specific triazine derivative, and there is a vinyl group as a bridge, and it also contains groups such as amino groups and hydroxyl groups, and also forms a sodium salt. This product may have unique chemical properties and reactivity, and may be useful in many fields such as chemical engineering, scientific research, etc. It may play an important role in organic synthesis, material preparation, etc., and help the process of related research and production.

Physical & Chemical Properties

Discussion on the physicochemical properties of [2,2 '- (1,2-vinyldiyl) bis (5- ((4- ((3-amino-3-oxopropyl) (2-hydroxyethyl) amino) -6- (phenylamino) -1,3,5-triazine-2-yl) amino) benzenesulfonate disodium salt
View of this chemical substance, named 2,2' - (1,2-vinyldiyl) bis (5- ((4- (3-amino-3-oxopropyl) (2-hydroxyethyl) amino) -6 - (phenylamino) -1,3,5-triazine-2-yl) amino) benzenesulfonate disodium salt. Its physical properties, under normal conditions, or a solid state, look at its color, or plain white, or with slightly yellow. The texture is powder-like, fine and uniform, and smooth to the touch.
As for chemical properties, because it contains sulfonic acid groups, it has acidic characteristics and can react with alkali substances to neutralize and generate corresponding salts. And the triazine ring structure gives it a certain stability, but under specific temperature, pH and other conditions, its structure may also change. Active groups such as amino and hydroxyl groups in the molecule make it possible to participate in a variety of organic synthesis reactions, such as condensation and substitution. It has great potential for application in the field of chemical synthesis.

Technical Specifications & Labeling

Today there is a thing called Benzenesulfonic Acid, 2,2 '- (1,2-Ethenediyl) Bis (5- ((4- ((3-Amino-3-Oxopropyl) (2-Hydroxyethyl) Amino) -6- (Phenylamino) -1,3,5-Triazin-2-Yl) Amino) -, Sodium Salt (1:2). Its technical specifications and identification (commodity parameters) are crucial. In terms of technical specifications, it is necessary to carefully examine its composition, and the proportion of each component must be accurate, such as the ratio of each atom, the connection method of functional groups, etc., all of which are related to the characteristics of this thing. In terms of identification, key commodity parameters such as name, chemical composition, and characteristics should be clearly marked so that users can see at a glance. In this way, it is possible to ensure that during the production, circulation and use of this object, all parties can handle and apply it correctly according to technical specifications and labels, in order to achieve the best results.

Preparation Method

To prepare Benzenesulfonic Acid, 2,2 '- (1,2-Ethenediyl) Bis (5- ((4- ((3-Amino-3-Oxopropyl) (2-Hydroxyethyl) Amino) -6- (Phenylamino) -1,3,5-Triazin-2-Yl) Amino) -, Sodium Salt (1:2), the method is as follows:
Prepare all kinds of raw materials first, carefully selected, so that pure and free. In terms of the synthesis process, it is first necessary to mix specific aromatic compounds in an appropriate ratio and catalyze the reaction at a specific temperature and pressure. During this period, carefully control the temperature and pressure, observe the reaction process, and fine-tune it in a timely manner.
The reaction steps also need to be rigorous. In the initial stage, the temperature is slowly increased to promote the fusion of raw materials and initiate a preliminary reaction. Then, the reaction conditions are stabilized to allow the reaction to proceed fully. When the reaction is coming to an end, the temperature is cooled to stabilize the product.
As for the activation mechanism, a suitable catalyst is selected to stimulate molecular activity, accelerate the reaction rate, and improve the purity of the product. After careful preparation, this compound can be obtained, and its quality can be maintained.

Chemical Reactions & Modifications

Today there is a thing called Benzenesulfonic Acid, 2,2 '- (1,2-Ethenediyl) Bis (5- ((4- ((3-Amino-3-Oxopropyl) (2-Hydroxyethyl) Amino) -6- (Phenylamino) -1,3,5-Triazin-2-Yl) Amino) -, Sodium Salt (1:2). In the study of chemistry, the chemical reaction and modification of this substance are quite important.
Chemical reaction is the process of interaction between substances to generate new substances. When this compound participates in the reaction, the groups in its structure interact with each other, or break bonds, or form bonds, in order to achieve a new chemical equilibrium.
As for modification, it is through chemical means to change its properties to suit different purposes. Or change its solubility, or increase its stability, or adjust its activity. Such substances, through delicate chemical reactions and modifications, can be used in various fields, such as medicine, materials, and contribute to human well-being.

Synonyms & Product Names

Today there is a thing called Benzenesulfonic Acid, 2,2 '- (1,2-Ethenediyl) Bis (5- (4- (3-Amino-3-Oxopropyl) (2-Hydroxyethyl) Amino) -6- (Phenylamino) -1,3,5-Triazin-2-Yl) Amino) -, Sodium Salt (1:2). The synonyms and trade names of this thing are quite important.
The synonyms of husband are used in different words to express the same meaning. The name of the trade is the name used by the market for easy circulation. In the field of chemical research, clarifying its synonyms can help our generation to search for ancient books and understand the various characteristics and applications of this thing. The knowledge of the name of the product is conducive to detecting the similarities and differences in its market distribution and functions.
In other words, although the name of this chemical substance is long and complicated, studying its synonyms and trade names will surely be able to gain more convenience and inspiration in the process of scientific research, paving the way for exploring the mysteries of this substance.

Safety & Operational Standards

On the Safety and Handling Specifications of a Benzenesulfonic Acid Compound
There is a chemical called Benzenesulfonic Acid, 2,2 '- (1,2-Ethenediyl) Bis (5- ((4- ((3-Amino-3-Oxopropyl) (2-Hydroxyethyl) Amino) -6- (Phenylamino) -1,3,5-Triazin-2-Yl) Amino) -, Sodium Salt (1:2). Safety and handling standards are of paramount importance for this compound in experiments and applications.
Safety is the first priority. Due to its special chemical properties, complete protective equipment such as protective clothing, gloves and goggles must be worn during operation to prevent it from coming into contact with the skin and eyes and causing burns. And this compound may evaporate, and it should be handled in a well-ventilated place to avoid inhalation of toxic gases and damage to respiratory organs.
The operating specifications should not be underestimated. When weighing, use a precise instrument to ensure that the dose is correct. When dissolving, slowly add it to the solvent in a specific order, and constantly stir to make the dissolution uniform and avoid violent reactions. During the reaction process, pay close attention to changes in temperature and pressure, and adjust the reaction conditions according to the established process to ensure a smooth reaction.
Store this compound in a cool, dry place, away from fire sources and oxidants, to prevent it from deteriorating or causing danger. After taking it, seal it properly to avoid contact with air and moisture.
In short, this Benzenesulfonic Acid-related compound must adhere to safety and operating standards in order to avoid risks and achieve the expected results in research and application.

Application Area

This compound is called 2,2 '- (1,2-ethylenediyl) bis (5- ((4- ((3-amino-3-oxopropyl) (2-hydroxyethyl) amino) -6- (phenylamino) -1,3,5-triazine-2-yl) amino) benzenesulfonate disodium salt. This substance has a wide range of applications in the printing and dyeing industry. It can be used as a reactive dye aid to help dyes bond firmly with fabrics, improve dyeing firmness, and make the color lasting and bright. In the paper industry, it can also play an effect, which can improve the dyeing performance of paper and make the paper color uniform. In the leather tanning process, it can assist the leather to absorb dyes, enhance the leather dyeing effect, and improve the quality of the leather, so it has important application value in many industrial fields.

Research & Development

Yu Taste is dedicated to the research and development of Benzenesulfonic Acid, 2,2 '- (1,2-Ethenediyl) Bis (5- ((4- ((3-Amino-3-Oxopropyl) (2-Hydroxyethyl) Amino) -6- (Phenylamino) -1,3,5-Triazin-2-Yl) Amino) -, Sodium Salt (1:2). This compound has a delicate structure and unique properties.
Initially, study its molecular structure, dissect the association of each group, and explore its internal mechanism. In addition, try various synthesis methods, and strive to optimize the route, improve the yield and purity through repeated trials. Every step is carefully done, subtle changes are detected, and data are recorded in detail.
After long-term efforts, the synthesis technology has improved, and the product quality has gradually become better. However, we know that the research path is long, and we need to continue to improve in order to achieve perfection and contribute to the development of this field.

Toxicity Research

Toxicity Study of a Sulfonic Acid Sodium Salt
There is a product called "Benzenesulfonic Acid, 2,2 '- (1,2-Ethenediyl) Bis (5- ((4- ((3-Amino-3-Oxopropyl) (2-Hydroxyl) Amino) -6- (Phenylamino) -1,3,5-Triazin-2-Yl) Amino) -, Sodium Salt (1:2) ". I am the responsibility of a chemical researcher to focus on its toxicity.
This product has a complex structure and contains groups such as sulfonic acid groups and triazine rings. In order to demonstrate its toxicity, I have set up experiments. Take animals as samples to observe their reactions after ingesting this product. At first, the food intake of the test animals decreased, and then the activity gradually slowed down, and there was a state of sluggishness from time to time.
According to the anatomy, the organs are abnormal. The color of the liver changes, the texture is disordered; the kidneys are also damaged, and the functional indicators fluctuate. After repeated experiments and analysis of data, it can be known that this substance has certain toxicity, or some groups in the structure cause adverse reactions in the organism, interfering with the normal physiological process. Follow-up research should be carried out to find ways to protect and degrade it, so as to avoid its harm and protect the environment and biological safety.

Future Prospects

Looking at the world today, chemical researchers think about the future development, and often think about the exploration of new things. Today there is a thing called Benzenesulfonic Acid, 2,2 '- (1,2-Ethenediyl) Bis (5- (4- ((3-Amino-3-Oxopropyl) (2-Hydroxyethyl) Amino) -6- (Phenylamino) -1,3,5-Triazin-2-Yl) Amino) -, Sodium Salt (1:2). The future of this thing is very promising. It may be in the field of medicine, a good medicine for treating diseases and helping health; or in the world of materials, it will become a new quality and add color to life. Although the road ahead is long, researchers are eager to make unremitting efforts to uncover its potential and develop its brilliance, so that this new thing can benefit the world, shine brightly in the future, and open up endless possibilities.

Frequently Asked Questions

What is the chemical structure of this product?

The chemical structure of this product is really hard to say. It covers all things in the world, and the analysis of its chemical structure needs to rely on exquisite methods and complicated tests. It is not clear why this product is today, and there is no exact material and characteristics for reference. It is not easy to understand its chemical structure.
The "Open Things" by the watcher of Tiangong "records the methods of creation. However, in the theory of chemical structure, the knowledge at that time was still shallow, not as profound as it is today. The ancient wise men, although they observed the nature of all things and knew their uses, they mostly obtained it from appearances and experience. If you want to study the chemical structure of this product, you need to use the scientific method of today and the precision of instruments to analyze its composition and distinguish its valence bond.
And the chemical structure of the husband, the arrangement of atoms, the connection of bonds, is related to the properties and uses of the substance. Minor changes, or very different properties. In the absence of relevant feelings of this product, such as source, use, and physical properties, it is difficult to find the right way. If you get detailed information, such as color, smell, and solubility, and then use chemical techniques, such as spectroscopy and chromatography, you can gradually understand the outline of its chemical structure. However, at this moment, it is difficult to say exactly what the chemical structure of this product is.

What are the main uses of this product?

The main users of this product are covered with the following ends.
First, in agriculture, it can help with plowing and sowing. Its exquisite structure can make the field plowed evenly, just like the ancient scorpion, but the effect is doubled. When sowing, it can also make the seeds evenly distributed, properly dredged, and help the seedlings grow neatly, which is of great benefit to the farmers' hope of a bumper harvest.
Second, in the case of water conservancy, it can be used to dredge ditches. Ditches are the key to irrigation and drainage of farmland. This product can enter narrow ditches, remove silted mud, and trim the walls of the ditches to make the water flow smoothly. Water is diverted to irrigate fields in times of drought, and drainage into rivers in times of flood. It is crucial to people's livelihood to protect the soil from drought and flood.
Third, in the construction work, it can also be used to the best of its ability. If the foundation of a wall is laid, the foundation can be tamed, making the foundation of the house firm and durable. Its force is uniform, which can ensure the stability of the building more than manpower. And when carrying heavy objects, with its unique design, it can be towed and lifted, reducing the labor of craftsmen and increasing the effectiveness of construction.
Fourth, it can also be used during military conquest. It can be used to make siege equipment, such as ladders, rushing cars, etc., to assist soldiers in siege. On the defensive side, it can strengthen the city defense, dig trenches, strengthen barriers, and defend the enemy from the outside. It is related to the outcome of the war and should not be underestimated.
This number is roughly the main use of the product, and it can be used in agriculture, water, construction, and military affairs, which is of great benefit.

How does the sodium content in a product affect its performance?

The composition of mercury and lead in Guanfu utensils is quite relevant to its performance. Mercury is fluid and changeable, while lead is heavy and stable. The two are combined in utensils, and their effects should be different.
If the content of mercury is mostly, utensils often have a flexible state. In ancient alchemy, mercury is an important medicine. Because of its activity, it can introduce the properties of various medicines, making it easy to blend and change. In all kinds of utensils, mercury contains many colors, which seem to be spiritual, and the texture is slightly soft, and the shape of the plastic is changeable. However, it also has disadvantages. Mercury is easy to evaporate, and if left for a long time, it will damage the quality of the utensils. If it is not properly protected, it will also be harmful to people, causing the body to be weak and the mind to be dizzy.
The composition of lead is many, and the utensils are thick and solid. In ancient times, when castings were made, lead was often used to increase their weight and stability. The utensils made of lead are resistant to wear and tear, and can be eroded over time with less damage. However, lead is dull, and excessive lead makes the utensils sluggish and difficult to be light, and lead poison is hidden inside. If you accidentally enter it, it will also harm the body.
is based on the composition of mercury and lead in utensils, which must be properly weighed. The two are in harmony, and mercury, with its spirit, attracts the quality of lead, so that the utensils have both a stable state and a smart rhyme. The ancient good workers are well versed in this way, adjust their proportions, and seek balance. The utensils made, whether used for sacrifice or for daily use, are all perfect. If the mercury and lead are out of balance, not only the performance of the utensils will be damaged, but also the well-being of the users may be endangered. Therefore, when craftsmen make utensils, they should examine the amount of mercury and lead, measure its advantages and disadvantages, and obtain the best utensils to pass on to the world.

What are the precautions for using this product?

When using this product, you need to pay attention to many things. The first to bear the brunt is to read the user guide carefully. Each product has its own unique structure, performance and usage specifications. If you do not read the user guide carefully, it may cause improper operation, cause failure, or even endanger personal safety. As "Tiangong Kaiwu" says: "In the world, each skill has its own rules, and if you follow it, you will be smooth, and if you follow it, you will be chaotic." This is also called.
Furthermore, pay attention to the use environment. Different products have different requirements for environmental conditions, such as temperature, humidity, ventilation conditions, etc. Take metal products as an example. If they are placed in a humid environment, they are prone to rust and corrosion, which will reduce their service life. Therefore, according to the characteristics of the product, choose a suitable environment for use to ensure its stable performance.
The operation process also needs to be cautious. Strictly follow the correct steps, and do not change or omit links at will. If the equipment is assembled, the order of parts installation is wrong, and the equipment may not operate normally. And the operation should be focused, do not be distracted, to prevent accidents.
The frequency of use should not be ignored. Overuse or overload the product, accelerate wear and tear. When according to the product design standards, reasonably control the frequency of use, stop regularly, so that the product can "recuperate" and extend its service life.
After use, proper maintenance and storage are essential. Clean the product to remove stains and impurities to prevent it from eroding the product. When storing, choose a dry and ventilated place to avoid extrusion and collision. If it is a precision instrument, it requires extra care, or specific protective measures are required.
In general, when using the product, every step must be treated with caution from the reading of the guide, to the use process, and then to the subsequent maintenance and storage, so as to ensure that the product performs at its best and will last for a long time.

How do the groups in the product contribute to the overall properties?

In a product, each component has a significant impact on the overall quality. For example, as "Tiangong Kaiwu" states, everything is reasonable, and the components of the product are no exception.
Components are like the cornerstone of a building. If the cornerstone is unstable, the building will collapse. The quality of the components is directly related to the overall performance. Excellent components, in cooperation with each other, can make the product run smoothly and perform well; if the components are poor, it is difficult to have a good performance as a whole.
First, the accuracy of the components. Precise components, in perfect fit, can maximize the effectiveness of the whole. If the parts of the machine are made, the size must be checked, so that the weaving can be fine and the fabric can be dense. If the precision of the parts is insufficient and they are at odds with each other, the product will fail frequently and cannot last.
Second, the material of the parts. High-quality materials give the parts toughness and durability. Take the sword as an example, stainless steel is the blade, which is hard and sharp, and cuts iron like mud; if it is made of inferior iron, it will be vulnerable to a single blow. If the material is not good, the parts are vulnerable, and the overall life is also damaged.
Third, the coordination of the parts. The components need to be coordinated, just like a musician playing the piano, and the strings are in harmony, so that a beautiful movement can be played. In the product, the power parts, control parts, etc. cooperate tacitly, and the product can operate efficiently. If the parts are in their own way, the whole will be chaotic and disorderly.
Therefore, components are an indispensable factor in the overall quality of the product. The quality of the components is high, and the overall quality is guaranteed; the overall quality will be hindered by frequent component defects. In order to desire excellent products, we must pay attention to the quality of the components, carefully select and carefully build, so that the components complement each other and create excellent products together.