2-Anthracenesulfonic Acid, 1-Amino-4-((3-((4-Chloro-6-((3-Sulfophenyl)Amino)-1,3,5-Triazin-2-Yl)Amino)-4-Sulfophenyl)Amino)-9,10-Dihydro-9,10-Dioxo-

Lingxian Chemical

Specifications

HS Code	245229
Chemical Formula	C30H20ClN7O11S3
Molecular Weight	794.16 g/mol
Appearance	Typically a solid (color may vary based on purity and form)
Solubility	Soluble in polar solvents to some extent due to sulfonic acid groups
Acidity	Acidic due to sulfonic acid functional groups
Melting Point	Specific melting point data would require experimental determination
Stability	Stable under normal conditions, but may react with strong oxidizing or reducing agents
Reactivity	Can participate in reactions characteristic of amino, sulfonic acid, and triazine groups
Toxicity	Toxicity data would need to be determined through proper testing, but may pose some risks based on its chemical structure

Packing & Storage

Packing	500g of 2 - Anthracenesulfonic Acid derivative in sealed, chemical - resistant bags.
Storage	Store 2 - Anthracenesulfonic Acid, 1 - Amino - 4 - ((3 - ((4 - Chloro - 6 - ((3 - Sulfophenyl)Amino)-1,3,5 - Triazin - 2 - Yl)Amino)-4 - Sulfophenyl)Amino)-9,10 - Dihydro - 9,10 - Dioxo in a cool, dry place away from heat, ignition sources, and oxidizing agents. Keep it in a tightly - sealed container to prevent moisture absorption and contamination. Avoid storage near incompatible chemicals.
Shipping	2 - Anthracenesulfonic Acid derivative is shipped with strict adherence to hazardous chemical regulations. It's carefully packaged to prevent spills and degradation, transported in specialized, compliant carriers in appropriate quantities.

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2-Anthracenesulfonic Acid, 1-Amino-4-((3-((4-Chloro-6-((3-Sulfophenyl)Amino)-1,3,5-Triazin-2-Yl)Amino)-4-Sulfophenyl)Amino)-9,10-Dihydro-9,10-Dioxo-

General Information

Historical Development

About 2-anthracenesulfonic acid, 1-amino-4- (3- ((4-chloro-6- ((3-sulfophenyl) amino) -1,3,5-triazine-2-yl) amino) -4-sulfophenyl) amino) -9,10-dihydro-9,10-dioxo-Historical development of ancient chemical studies
, much depends on ingenuity and diligence. This 2-anthracenesulfonic acid, 1-amino-4- (3- ((4-chloro-6- (3-sulfophenyl) amino) -1,3,5-triazine-2-yl) amino) -4-sulfophenyl) amino) -9,10-dihydro-9,10-dioxo-compounds were initially or hidden among objects and were not known to the public.
At that time, researchers used simple tools to explore the properties of substances. After years of research, the method of separation and purification was gradually obtained, and this compound emerged. Everyone observes its shape, measures its nature, analyzes its structure, and deepens their cognition.
With the passage of time, the technology has advanced, and its research has become more and more refined. From the initial ignorance and exploration to the precise control of its synthesis, it has been used in medicine, materials and other fields. It has contributed to the development of mankind and witnessed the evolution of chemistry.

Product Overview

There is now a substance named 1-amino-4- ((3- ((4-chloro-6- ((3-sulfophenyl) amino) -1,3,5-triazine-2-yl) amino) -4-sulfophenyl) amino) -9,10-dihydro-9,10-dioxo-2-anthracenesulfonic acid. This substance has attracted much attention in chemical research. Its unique structure is derived from anthracycline, and the multi-functional groups are cleverly connected. The interaction of amino groups, sulfonyl groups, chlorine atoms and triazine groups endows the substance with various chemical properties. In the fields of dyes, drug development, etc., it may have potential uses. Its unique structure may enable it to exhibit excellent dyeing properties under specific conditions, or it may play a unique role in pharmacological research, providing new opportunities for in-depth exploration in related fields, which is worthy of careful study by our chemical researchers.

Physical & Chemical Properties

There is now a thing called 2-anthracenesulfonic acid, 1-amino-4- (3- ((4-chloro-6- ((3-sulfophenyl) amino) -1,3,5-triazine-2-yl) amino) -4-sulfophenyl) amino) -9,10-dihydro-9,10-dioxo -. Its physical and chemical properties are related to many things. Looking at its properties, it may have a unique appearance. On its solubility, in different solvents, there may be differences. In the medium of water, either soluble or insoluble is determined by its molecular structure. Its stability is also the key, under room temperature and pressure, or can be stored for a long time; in case of special conditions, such as high temperature, strong acid and alkali, it may change. Its reactivity, in a suitable reaction system, may react delicately with other substances to generate other products. This is the main point of exploring the physical and chemical properties of the substance.

Technical Specifications & Labeling

There is now a product called 2-anthracenesulfonic acid, 1-amino-4- (3- ((4-chloro-6- ((3-sulfophenyl) amino) -1,3,5-triazine-2-yl) amino) -4-sulfophenyl) amino) -9,10-dihydro-9,10-dioxo -. Its process specifications and identification (commodity parameters) are the key.
Where this product is made, a specific method is required. From the selection of raw materials to the various reaction steps, there are rules. The raw materials must be pure, and the reaction conditions should be precisely controlled, such as temperature, duration, proportion of reactants, etc. If there is a slight difference, the quality of the product will be affected.
In terms of identification, the product parameters should be clearly indicated. Its chemical structure, characteristics, uses, etc. should be clearly marked so that the user can see it at a glance, so as not to risk misuse. In this way, it can ensure that the product is smooth in all aspects of production, circulation and use.

Preparation Method

The method of preparing 1-amino-4- ((3- ((4-chloro-6- (3-sulfophenyl) amino) -1,3,5-triazine-2-yl) amino) -4-sulfophenyl) amino) -9,10-dihydro-9,10-dioxo-2-anthracenesulfonic acid is related to raw materials and production processes, reaction steps and catalytic mechanisms.
First of all, the raw materials need to be prepared with pure materials, such as anthracene, sulfonating agents, nitrogen-containing compounds, etc. The quality of their quality is related to the purity of the product. As for the production process, the temperature, time, and condensation of sulfonation all need to be carefully studied. First sulfonate anthracene, control the temperature in a timely manner, and obtain sulfonated anthracene. After condensation with nitrogen-containing reagents, adjust the pH and temperature, and promote the smooth reaction.
The reaction step is also critical. The sulfonated product is purified and then condensed with triazine derivatives, and after each step of the reaction, it needs to be purified to remove impurities and improve the quality.
In terms of catalytic mechanism, select the appropriate catalyst, which can increase the growth rate and yield. Acid-base catalysts or metal catalysts can play a role in different steps to help the reaction become more efficient. According to these ends, a high-quality 1-amino-4- ((3- ((4-chloro-6- ((3-sulfophenyl) amino) -1,3,5-triazine-2-yl) amino) -4-sulfophenyl) amino) -9,10-dihydro-9,10-dioxo-2-anthracenesulfonic acid can be obtained.

Chemical Reactions & Modifications

Fu 2 - Anthracenesulfonic Acid, 1 - Amino - 4 - ((3 - (4 - Chloro - 6 - ((3 - Sulfophenyl) Amino) -1,3,5 - Triazin - 2 - Yl) Amino) -4 - Sulfophenyl) Amino) -9,10 - Dihydro - 9,10 - Dioxo - Reverse modification is the weight of the study. The reaction of this substance, or the interaction of functionalities, such as amino groups, sulfonic acid groups, etc., to form a new one. Its modification can also be based on its physical and chemical properties, such as solubility and characterization. Or it can be borrowed and reversed, and its active groups can be added to increase its use. Exploring its properties can clarify the law of transformation, and can also lead to the development of new materials, which is of great benefit to the development of the field.

Synonyms & Product Names

There is now a thing called 2-anthracenesulfonic acid, 1-amino-4- (3- ((4-chloro-6- ((3-sulfophenyl) amino) -1,3,5-triazine-2-yl) amino) -4-sulfophenyl) amino) -9,10-dihydro-9,10-dioxo -. The alias and trade name of this thing are also the main points of our inquiry.
Looking at various books, looking for their different names, or according to their characteristics and methods, or according to their uses and origins, each has its own origin. The trade name is circulated in the city, which is related to production and sales, and is also important to the industry.
If you want to clarify the details, you should widely search for the similarities and differences. Or visit various houses, or observe ancient books, so that the truth of aliases and trade names must be clarified, so that future generations can study it and add more benefits to the way of chemical industry.

Safety & Operational Standards

2-Anthracenesulfonic acid, 1-amino-4- (3- ((4-chloro-6- ((3-sulfophenyl) amino) -1,3,5-triazine-2-yl) amino) -4-sulfophenyl) amino) -9,10-dihydro-9,10-dioxo Specification for safety and operation
Fu2-anthracenesulfonic acid, 1-amino-4- ((3- ((4-chloro-6- ((3 - Sulfophenyl) amino) - 1,3,5 - triazine - 2 - yl) amino) - 4 - sulfophenyl) amino) - 9,10 - dihydro - 9,10 - dioxo, is an important substance in chemical research. To ensure safe operation, follow specific specifications.
Store first words, when placed in a cool, dry and well-ventilated place. Avoid being close to fire and heat sources to prevent accidents. Its properties or chemical reactions with certain substances, so it cannot be mixed with strong oxidants, strong acids, strong alkalis, etc., to avoid violent reactions.
When operating, appropriate protective equipment must be worn. Operators should wear protective gloves, and the material should be selected to resist the corrosion of this chemical to avoid skin contact and damage. Wear protective goggles to protect your eyes from splashing hazards. Wear protective clothing to cover your body to reduce the risk of contact.
It is best to operate in the fume hood, so that the volatile gas can be discharged in time, reducing the concentration in the air, and avoiding health damage caused by inhalation. The operation room is strict and meticulous, and do not spill substances. If there is any spill, clean it up quickly according to the specifications. A small amount of spill can be covered with adsorption materials, carefully collected, and placed in a special container. If a large number of spills are scattered, it is necessary to evacuate personnel, seal the scene, and call professionals to dispose of them.
After the experiment is completed, properly dispose of the waste. Do not discard it at will. In accordance with relevant environmental regulations, hand it over to a qualified agency for disposal to ensure environmental safety. This material safety and operating specifications are related to the health of the operator and the peace of the environment, and should not be ignored.

Application Area

There is now a thing called 2-anthracenesulfonic acid, 1-amino-4- (3- ((4-chloro-6- ((3-sulfophenyl) amino) -1,3,5-triazine-2-yl) amino) -4-sulfophenyl) amino) -9,10-dihydro-9,10-dioxo -. The application field of this substance is quite critical.
In the field of printing and dyeing, it can be used as a dye intermediate. Through subtle chemical changes, dyes with brilliant colors and good fastness can be derived, adding color to fabrics, bright and long-lasting, and have important functions in clothing, home textile printing and dyeing.
In the field of chemical synthesis, it is the cornerstone of building complex organic compounds. With it as the starting material, chemists can carefully construct organic molecules with unique structures and excellent properties, which are widely used in drug research and development, materials science and other fields to promote the progress and innovation of many industries.

Research & Development

Research and Development of 1-Amino-4- ((3 - (4 - Chloro - 6 - (3 - Sulfophenyl) Amino) -1,3,5 - Triazine - 2 - yl) Amino) -4 - Sulfophenyl) Amino) -9,10 - Dihydro - 9,10 - Dioxo - 2 - Anthracenesulfonic Acid
Fu 2 - Anthracenesulfonic Acid, 1 - Amino - 4 - (3 - (4 - Chloro - 6 - ((3 - Sulfophenyl) Amino) -1,3,5 - Triazin - 2 - Yl) Amino) -4 - Sulfophenyl) Amino) -9,10 - Dihydro - 9,10 - Dioxo - is also an important material for chemical research. We are committed to studying this substance to understand its properties, structure and reaction.
At the beginning of the study, we investigated its molecular structure in detail, analyzed its atomic connections and spatial distribution, in order to clarify its basic characteristics. Then explore its chemical activity, observe its reaction with various reagents under different conditions, and hope to obtain a good method for synthesis, increase its yield, and improve its purity.
Looking forward to the development, I hope this substance can develop its growth in the fields of materials science and biomedicine. Or it can be the foundation of new materials, endowing material-specific properties with its unique structure; or it can be helpful in drug research and development, and use its chemical properties to produce special drugs. We should persevere, tap its potential, and promote its development to benefit the world.

Toxicity Research

The nature of all things is related to people's livelihood, so the study of toxicity should not be ignored. Today there is a thing called "2 - Anthracenesulfonic Acid, 1 - Amino - 4 - (3 - (4 - Chloro - 6 - ((3 - Sulfophenyl) Amino) -1,3,5 - Triazin - 2 - Yl) Amino) -4 - Sulfophenyl) Amino) -9,10 - Dihydro - 9,10 - Dioxo -".
In order to investigate the toxicity of this thing, it is necessary to use a scientific method to observe its sympathetic state with various things. Observe its movement and transformation in the living body, and observe its impact on the viscera and meridians. Examine whether it causes soil and water to mutate and biological abnormalities in the environment. If this thing is highly toxic, it must be strictly controlled and abused to prevent it from causing harm to the world, damaging the spiritual beauty of all things, and harming the well-being of the people. To ensure the peace of material nature, people and all things in heaven and earth can be in harmony and keep the universe upright together.

Future Prospects

The technology of the world is new, and the research of matter is also becoming more and more exquisite. Today there are 2 - Anthracenesulfonic Acid, 1 - Amino - 4 - ((3 - (4 - Chloro - 6 - ((3 - Sulfophenyl) Amino) -1,3,5 - Triazin - 2 - Yl) Amino) -4 - Sulfophenyl) Amino) -9,10 - Dihydro - 9,10 - Dioxo - This object has an exquisite structure and contains unknown potential.
My generation researched it, looking forward to the future, to solve its mysteries and explore its new uses. Or in the field of medicine, it can add a new path to cure diseases; or in the world of materials, it can give materials extraordinary nature. Although the road ahead is long, I have a longing for it. With unremitting research, I hope to open up its future brilliance, expand the New Territories of science, seek well-being for future generations, live up to the original intention of scientific research, and make this material bloom in the future.

Frequently Asked Questions

What is the main use of this product 1-Amino-4- ((3- (4-chloro-6- ((3-sulfophenyl) amino) -1,3,5-triazine-2-yl) amino) -4-sulfophenyl) amino) -9,10-dihydro-9,10-dioxo-2-anthracenesulfonic acid?

This is a question about the use of a substance. The original text is presented in a peculiar code. After transcoding, it can be seen that the substance involved is "9,10-dioxy-9,10-dioxide-2-naphthalene anthracenic acid". "Tiangong Kaiwu" is a scientific and technological masterpiece written by Song Yingxing in the Ming Dynasty, but the book does not directly describe this specific compound. However, according to the method of inferring the use of chemical substances in ancient and modern times, the following considerations can be made.
Chemical applications in ancient times are mostly related to alchemy, pharmacy, dyeing and metallurgy and other fields. From the perspective of the structure of such compounds, their complex structures may be endowed with unique chemical properties. If in ancient alchemy, the specific groups it contains may affect the chemical reaction during the refining of alchemy pills, or serve as catalysts to assist in the conversion of alchemy ingredients. For example, ancient alchemists wanted to refine longevity alchemy pills, and they were very concerned about the catalytic properties of various substances. The complex structure of this compound may have catalytic potential.
In dyeing, it contains polycyclic and special oxygen group structures, or makes the compound have chromogenic properties. Ancient dyeing processes have a large demand for natural and synthetic dyes, which may be properly processed into dye components to give color to fabrics.
In metallurgy, or participate in the metal purification process. Because some groups in its structure can chemically react with metal impurities to form easily separated substances, which can help improve the purity of metals. For example, in ancient copper and iron smelting, impurities need to be removed, and this compound may have a role.
Although "Tiangong Kaizhi" does not directly mention "9,10-dioxy-9,10-dioxide-2-naphthalene anthracene acid", but according to the ancient chemical application ideas and compound structure characteristics, it may have potential uses in alchemy, dyeing, metallurgy, etc.

What are its chemical characteristics?

The chemical properties of this substance are particularly special. It is flammable, and it burns quickly when exposed to an open flame. The flame color is colorful, just like the stars are scattered. And it is oxidizing. In many chemical reactions, it can seize the electrons of other substances and help the reaction move quickly. For example, in the industry of smelting iron, it often relies on its strength to remove impurities in iron to obtain fine iron.
Furthermore, its solubility also has a wonderful thing. In water, part is soluble, part is insoluble, and the color of the solution may be clear or turbid, depending on its purity and composition. In some organic solvents, the state of dissolution is different from that of water, which can slightly change the properties of the solvent. It is used in various chemical techniques.
There is another end of stability. Under normal temperature and pressure, it can survive for a long time without deterioration. However, if the environment changes suddenly, such as temperature is extremely high and pressure is too high, its properties will be easily changed, or it will decompose into other things, or react with the surrounding things, and the change will be gratuitous.
In addition, its acidity and alkalinity cannot be ignored. In case of acid, it will respond to it, or generate gas, or precipitate, and the phenomenon is different. The same is true in case of alkali. The resulting substances have their own characteristics. They can be used for medicinal purposes or for industrial purposes, depending on the product of their reaction. Between acid and alkali, it is like a dancer, according to different laws, showing different postures, adding many colors to the wonders of chemistry. In the world, with its unique nature, it participates in the change of all things, interweaves with all kinds of substances, and co-performs the wonders of the world.

What is the method for synthesizing this product 1-amino-4- ((3- ((4-chloro-6- ((3-sulfophenyl) amino) -1,3,5-triazine-2-yl) amino) -4-sulfophenyl) amino) -9,10-dihydro-9,10-dioxo-2-anthracenesulfonic acid?

To prepare these compounds, the method is as follows:
First, the structure of this compound involves many groups and reaction steps.
For the ((3- (4-hydrocarbon-6- ((3-phenylbenzyl) amino) amino) -1,3,5-triazine-2-yl) amino) amino moiety, it needs to be gradually constructed. First, a triazine ring structure is formed by a suitable reaction, and the 1,3,5-triazine ring can be formed by specific nitrogen-containing raw materials through condensation reactions and other steps. In this process, pay attention to the control of the reaction conditions. Temperature and pH all affect the reaction process and product purity.
involves the introduction of groups such as phenylbenzyl and amino, and the appropriate reagent and reaction path should be selected. When introducing phenylbenzyl, a nucleophilic substitution reaction can be considered, and reagents such as benzyl halides can be used to react with substrates containing active hydrogen under the catalysis of suitable bases.
There are 9,10-dioxides and 9,10-dioxides. The dioxy structure can be achieved by oxidation reaction. If a specific unsaturated hydrocarbon structure is oxidized with an appropriate oxidizing agent, a dioxy structure can be obtained. For the 9,10-dioxide part, the oxidizing agent and reaction conditions need to be precisely selected, so that the oxidation check point falls accurately at the 9 and 10 positions.
As for the preparation of 2-blue acid, or it can be obtained by a series of reactions such as hydrolysis and acidification of compounds containing related functional groups. The hydrolysis step requires the appropriate hydrolysis conditions, under strong acid or strong base conditions, depending on the characteristics of the substrate. The amount of acid and the reaction time are controlled during acidification, so that the product of blue acid can reach a high purity.
In short, to synthesize this compound, each step of the reaction needs to be carefully planned, and the reaction conditions are strictly controlled to ensure that the groups are connected in the expected way to obtain the target product.

How competitive is this product in the market?

Today's products are in the market, and their competitiveness can be discussed from several points of view.
First, the material is the most important. If the material of the product is well selected and the texture is strong, it is like an ancient good weapon, with fine gold and jade as the material, and the quality will be handed down from generation to generation. Then this product is in the city, and it can be favored by everyone. If the material selection is poor, such as using rotten wood to fill the beam, even if there is a clever decoration, it will be difficult to hide its shabiness, and it will be abandoned by the city.
Second, the craftsmanship is wonderful. The ancient ability to work, with ingenuity, meticulously crafted, the utensils show their charm. Today's products, if the craftsmanship is exquisite, and every detail is carefully polished, such as ancient porcelain paintings, exquisite brushwork, smooth lines, and bright colors, can stand out. If the craftsmanship is rough and perfunctory, like shoddy tiles, it is difficult to be elegant, how can we talk about the power of competition.
Furthermore, the good of the function. The product must have its use in the world. If the function is significant, it can effectively solve the needs of people, such as the ancient boat, which can cross the river, and it is convenient for people to travel, then people will compete for it. If the function is not good, it is useless, or it is inconvenient to use, such as a dull knife cutting objects, in vain, no one will care.
Again, the beauty of the appearance. Everyone is beautiful. If the appearance of the product is exquisitely designed and beautiful, it is like ancient clothing. The tailoring is fit and the pattern is elegant, which can attract attention. If the appearance is ugly and there is no beauty, it is like a unkempt person. Even if there are talents, it is difficult to win favor.
However, the market is changing and the competition is fierce. If the product wants to maintain its competitiveness for a long time, it needs to keep pace with the times. Like the ancient art of war, it can only be won if it changes according to the situation. It is necessary to observe the needs of the market, make it easier in a timely manner, and introduce new products to meet the ever-changing city. In this way, the product can be like a mainstay in the market, stand firmly in the tide, and have strong competitiveness.

1-Amino-4- ((3- ((4-chloro-6- ((3-sulfophenyl) amino) -1,3,5-triazine-2-yl) amino) -4-sulfophenyl) amino) -9,10-dihydro-9,10-dioxo-2-anthracenesulfonic acid What are the precautions during use?

I look at what you said about "9,10-dioxy-9,10-dioxy-2-cyanoselenic acid". This is a chemical substance. During use, many matters should be paid attention to.
First, safety protection must be comprehensive. These chemicals may be toxic, corrosive, or harmful to the human body. Therefore, users should wear protective clothing, protective gloves and goggles to prevent skin and eyes from coming into contact with them, causing burns or poisoning.
Second, the operating environment should also be paid attention to. When working in a well-ventilated place, avoid the accumulation of volatile gases from the substance and cause respiratory discomfort. If conditions permit, it is advisable to operate in a fume hood to ensure that harmful gases are discharged in time.
Third, strictly follow the operating procedures. Know its chemical properties and reaction characteristics, and must not change the operation steps or conditions at will. If the solution is prepared, the proportion must be accurately controlled to avoid dangerous chemical reactions.
Fourth, storage should also be paid attention to. It should be placed in a cool, dry and ventilated place, away from fire sources, heat sources and oxidants. Different chemical substances should be stored in categories to prevent mutual reaction.
Fifth, emergency treatment should not be ignored. The workplace should be equipped with emergency treatment equipment and medicines, such as eye washers, spray devices, neutralizers, etc. If it is accidentally contacted, rescue measures can be taken in time.
Sixth, usage records are also critical. Detailed records of usage, usage time, usage personnel, etc. are used for traceability and management, and also help to analyze potential problems. In this way, this chemical can be used safely and scientifically to avoid accidents.