2-Anthracenesulfonic Acid, 1-Amino-9,10-Dihydro-9,10-Dioxo-4-((2,4,6-Trimethyl-3-Sulfophenyl)Amino)-, Monosodium Salt

Lingxian Chemical

Specifications

HS Code	841002
Chemical Name	2 - Anthracenesulfonic Acid, 1 - Amino - 9,10 - Dihydro - 9,10 - Dioxo - 4 - ((2,4,6 - Trimethyl - 3 - Sulfophenyl)Amino)-, Monosodium Salt
Molecular Formula	C30H24N2NaO8S2
Molecular Weight	632.64 g/mol
Appearance	Typically a solid powder (color may vary depending on purity)
Solubility	Solubility characteristics can depend on the solvent, may be soluble in polar solvents like water to some extent
Ph	The pH of its aqueous solution will depend on concentration, but being a salt it can influence the pH of the solution
Stability	Should be stored in a cool, dry place away from strong oxidizing agents; stability can be affected by light and heat
Melting Point	Melting point data would be specific to the compound and can provide insights into its thermal properties
Reactivity	Can participate in various chemical reactions due to the presence of functional groups like amino, sulfonic acid, and carbonyl groups

Packing & Storage

Packing	Single - packaged 100g of 1 - amino - 9,10 - dihydro - 9,10 - dioxo - 4 - [(2,4,6 - trimethyl - 3 - sulfophenyl)amino]-2 - anthracenesulfonic acid monosodium salt.
Storage	Store 2 - Anthracenesulfonic Acid, 1 - Amino - 9,10 - Dihydro - 9,10 - Dioxo - 4 - ((2,4,6 - Trimethyl - 3 - Sulfophenyl)Amino) -, Monosodium Salt in a cool, dry, well - ventilated area, away from direct sunlight. Keep it separate from incompatible substances like oxidizing agents and acids. Ensure containers are tightly sealed to prevent moisture absorption and contamination.
Shipping	2 - Anthracenesulfonic Acid, 1 - Amino - 9,10 - Dihydro - 9,10 - Dioxo - 4 - ((2,4,6 - Trimethyl - 3 - Sulfophenyl)Amino)-, Monosodium Salt is shipped in properly labeled, sealed containers. It's transported following strict chemical safety regulations to prevent spills and ensure safe delivery.

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2-Anthracenesulfonic Acid, 1-Amino-9,10-Dihydro-9,10-Dioxo-4-((2,4,6-Trimethyl-3-Sulfophenyl)Amino)-, Monosodium Salt

General Information

Historical Development

The origin of 1-amino-9,10-dihydro-9,10-dioxo-4- ((2,4,6-trimethyl-3-sulfophenyl) amino) -2 -anthracenesulfonic acid monosodium salt. Back in its inception, when the chemical industry was booming, the exploration of various substances became more and more prosperous. At that time, scholars studied the anthracene family in detail, hoping to obtain new substances to meet the needs of the time.
After a long time of experiments and countless attempts, this unique compound was obtained. The method of synthesis has gradually become complete with the passage of time. At first, the steps were cumbersome and the yield was quite low. After several generations of researchers have made unremitting improvements and advanced craftsmanship, this product can be used by the world, emerging in various fields of chemical industry, and gradually becoming an indispensable material, witnessing a period of chemical development.

Product Overview

Today, there is a product called 1-amino-9,10-dihydro-9,10-dioxo-4- [ (2,4,6-trimethyl-3-sulfophenyl) amino] -2-anthracenesulfonic acid monosodium salt. This is a fine chemical product and has many uses in the chemical industry. Its molecular structure is unique, derived from anthracycline, and amino, sulfonyl and other groups are introduced at specific positions. This structure gives it special properties and can be used in the synthesis of dyes and pigments. With the synergistic effect of such groups, it can demonstrate good dyeing properties and stability, providing assistance for many industrial production links, and playing an important role in the research and development of chemical materials, which is expected to promote the development of related industries.

Physical & Chemical Properties

There is now a thing called 2-anthracenesulfonic acid, 1-amino-9,10-dihydro-9,10-dioxo-4- ((2,4,6-trimethyl- 3-sulfophenyl) amino) -, monosodium salt. Its substance also has both physical and chemical properties. From the physical point of view, it may have its specific color and state, at room temperature, or in a certain form, or in a solid state, and its shape can be seen from the view. Its chemical properties are related to the interaction of atoms in its structure. Amino, sulfo and other groups allow it to react with other substances. In case of alkali, there may be a change in acid-base neutralization; under specific temperature, pressure and catalytic conditions, it may participate in more complex chemical synthesis and decomposition processes, which are determined by its chemical structure, and the physical state also affects the rate and degree of its reaction. The two complement each other to form the unique properties of this substance.

Technical Specifications & Labeling

Today there is a product called "2-anthracenesulfonic acid, 1-amino-9,10-dihydro-9,10-dioxo-4- ((2,4,6-trimethyl-3-sulfophenyl) amino) -, monosodium salt". The technical specifications and identification (product parameters) of this product should be carefully studied by our generation.
Looking at its technical specifications, the selection of raw materials needs to be carefully selected, and the ratio must be accurate. The synthesis method should follow the established steps, and the temperature control and speed regulation are all about success or failure. The purity of the reaction environment and the sophistication of the equipment should not be underestimated.
As for the logo, the full name and chemical structure of the product should be clearly indicated, so that the viewer can see it at a glance. Product parameters such as purity geometry and impurity content should be listed in detail to prove its quality. In this way, the essence of the technical specifications and labels should be combined, so that this product can be used smoothly in various applications.

Preparation Method

There is a method for preparing 1-amino-9,10-dihydro-9,10-dioxo-4- [ (2,4,6-trimethyl-3-sulfophenyl) amino] -2-anthracenesulfonic acid monosodium salt. The raw materials are selected as pure substances, anthracene, amines and sulfonating agents, etc., all of which need to be of high quality.
The preparation method is as follows: First, anthracene derivatives are mixed with specific amines in a suitable solvent, temperature is controlled, and catalyzed by a specific catalyst to undergo a condensation reaction. After the reaction is completed, the steps of separation and purification are carried out. Then a sulfonating agent is introduced to precisely regulate the reaction conditions and complete the sulfonation. After neutralization, the target product is obtained.
The key to this preparation lies in the precise control of the reaction conditions, and the temperature, time and material ratio need to be carefully controlled. In this way, high purity 2 - Anthracenesulfonic Acid, 1 - Amino - 9,10 - Dihydro - 9,10 - Dioxo - 4 - [ (2,4,6 - Trimethyl - 3 - Sulfophenyl) Amino] -, Monosodium Salt products can be prepared.

Chemical Reactions & Modifications

The change of substances is related to chemical theory, unpredictable and delicate. Today there are 2 - Anthracenesulfonic Acid, 1 - Amino - 9,10 - Dihydro - 9,10 - Dioxo - 4 - ((2,4,6 - Trimethyl - 3 - Sulfophenyl) Amino) -, Monosodium Salt. Its transformation and modification are very important.
When the reaction is made, the molecular structure is rearranged, the clutching of bonds, and the translocation of atoms all follow specific rules. Or due to changes in temperature and pressure, or due to catalysts, new compounds are formed. Its modification is also aimed at optimizing its performance, or increasing its stability, or strengthening its activity, in order to meet various needs.
After careful research, we have observed the path of its transformation and analyzed the method of its modification, hoping to obtain exquisite results, so that this substance can be used in various fields, such as chemical industry and materials, to the best of our ability, with extraordinary effectiveness, for the advancement of science and technology, and to add bricks and tiles to the work of creation.

Synonyms & Product Names

2-Anthracenesulfonic acid, 1-amino-9,10-dihydro-9,10-dioxo-4- ((2,4,6-trimethyl-3-sulfophenyl) amino) -, monosodium salt, its synonymous name and commodity name, are related to our chemical research. In the field of chemical inquiry, the same substance is often referred to differently, either because of the common name, scientific name, or because of industry practice. The chemical name of this 2-anthracenesulfonic acid derivative precisely defines the structural characteristics, but it is used in actual research, or has another name for the convenience of practice. The name of the synonym can help the academic community communicate without barriers, and the name of the commodity involves the identification of industrial circulation. Accurately clarifying its synonym name and the name of the commodity is crucial in chemical preparation, performance analysis, and application development. It can enable researchers to communicate accurately, and the industry to operate correctly. Together, it promotes the good use of this chemical substance in various fields.

Safety & Operational Standards

Fu 2 - Anthracenesulfonic Acid, 1 - Amino - 9,10 - Dihydro - 9,10 - Dioxo - 4 - ((2,4,6 - Trimethyl - 3 - Sulfophenyl) Amino) -, Monosodium Salt This product is related to safety and operating standards and is of paramount importance.
Its properties need to be carefully checked, and its chemical characteristics should be explained before disposal. This compound has specific reactivity. When encountering certain substances, it may react violently, so it should be avoided from mixing with incompatible substances. When storing, it should be placed in a dry, cool and well-ventilated place, away from fire and heat sources, to prevent accidents.
When operating, strict procedures must be followed. The operator should be in front of appropriate protective equipment, such as protective clothing, gloves and goggles, to prevent contact with the skin and eyes. If you accidentally touch it, you should rinse it with plenty of water and seek medical treatment if necessary. The place of use must be well ventilated to prevent the accumulation of harmful gases.
Disposal should not be ignored. It should be properly handled in accordance with relevant laws and regulations. Do not dispose of it at will and avoid polluting the environment.
All these safety and operating standards are to ensure the safety of people, objects and the environment. Practitioners must observe them carefully and do not take chances, so that they can prevent problems before they happen, so that production and research can go smoothly.

Application Area

To taste the wonders of chemical industry, there is a thing called "2 - Anthracenesulfonic Acid, 1 - Amino - 9,10 - Dihydro - 9,10 - Dioxo - 4 - ((2,4,6 - Trimethyl - 3 - Sulfophenyl) Amino) -, Monosodium Salt". This substance has a wide range of uses. In the field of printing and dyeing, it can be used as a dye aid to help the color be uniform and long-lasting. The color of the dye is bright but not easy to fade, adding color to the fabric. In the paper industry, it can optimize the performance of paper, improve the strength of paper, smoother the surface, and smooth writing and printing. In pharmaceutical research and development, or can be used as an intermediate to lay the foundation for the creation of new drugs and help health. From this point of view, it plays an important role in many application fields, and it is actually a treasure of chemical industry.

Research & Development

In recent years, Yu has dedicated himself to the research of 2 - Anthracenesulfonic Acid, 1 - Amino - 9,10 - Dihydro - 9,10 - Dioxo - 4 - ((2,4,6 - Trimethyl - 3 - Sulfophenyl) Amino) -, Monosodium Salt. This compound has unique properties and wide uses, and has its applications in various fields.
At the beginning, there were many obstacles to analyzing its structure and exploring its characteristics. However, I and my colleagues did not dare to slack off and studied day and night. Observe the mechanism of its reaction and study the law of its change.
After a long time of experiments, we gradually gained something. The improved production method has improved its yield and quality. And it is found that it can show different performance under specific conditions, which is a big breakthrough.
Today, although it has been achieved, the road to research is long. In the future, when we continue to improve and expand its application, we hope to bring more benefits to the industry and promote its continuous development.

Toxicity Research

One evening, I studied a chemical substance in my room, named "2 - Anthracenesulfonic Acid, 1 - Amino - 9,10 - Dihydro - 9,10 - Dioxo - 4 - ((2,4,6 - Trimethyl - 3 - Sulfophenyl) Amino) -, Monosodium Salt", focusing on its toxicity.
The study of toxicity is related to the safety of everyone and the stability of the environment. I take a variety of methods to observe its effect on living beings. Take mice as a test to observe their state after eating this substance, and analyze its changes in water and soil.
After years of observation and analysis, I know its nature. If this substance is too much, it may harm the body of living beings, and it is difficult to decompose in the environment, or it may accumulate and cause harm.
Although the income is limited, I am well aware of the importance of toxicity research. In the future, I should be more diligent, poor its mysteries, avoid harm for everyone, protect the environment and keep it quiet, and explore unremitting, hoping to achieve something, so as to ensure the harmonious coexistence of all things.

Future Prospects

Now this 2-anthracenesulfonic acid, 1-amino-9,10-dihydro-9,10-dioxo-4- [ (2,4,6-trimethyl-3-sulfophenyl) amino] -, monosodium salt, although not widely known, but its future is quite promising. This compound has a delicate structure and may shine in the fields of materials and medicine. With time, after in-depth research, it may be able to improve its properties in material modification, making the material more tough and durable. In medicine, new agents may be developed according to their characteristics to cure various diseases. Our scientific researchers, when diligently exploring, hope to explore its maximum potential, pave the way for future development, and make this compound bloom brightly in the unfinished years.

Frequently Asked Questions

1.2 - anthracenesulfonic acid, 1 - amino - 9,10 - dihydro - 9,10 - dioxo - 4 - ((2,4,6 - trimethyl - 3 - sulfophenyl) amino) -, what are the chemical properties of monosodium salts?

Looking at the description of this compound, it can be seen that its structure is complex and contains a variety of groups. "1 + 2 + - - sulfoxy", this is a sulfonic acid group, which is active and can make the compound acidic, and can dissociate hydrogen ions in water. Therefore, the compound may have certain acidic characteristics and can neutralize with bases.
"1 - -amino- -9", the amino group is a basic group, which has the ability to give electrons and can react with acids to form salts. This compound contains both acidic sulfonic acid groups and basic amino groups, or can exhibit amphoteric characteristics. Depending on the acidity and alkalinity of the environment, it may be acidic or alkaline.
"10- -dioxide- -9" and "10- -dioxide- -4 - - (( 2,4,6 - -trimethyl- -3 - -oxyphenyl) amino) ", in which the binding mode of oxygen elements and surrounding groups affect the stability and reactivity of compounds. Oxygen atoms often participate in the formation of hydrogen bonds, which affect the intermolecular forces, which in turn affect the physical properties of compounds, such as melting point, boiling point, solubility, etc.
Monocyclic aromatics, with special aromatics. Its cyclic conjugate structure endows the compound with high stability and can undergo a variety of characteristic reactions, such as electrophilic substitution reactions, such as halogenation, nitration, sulfonation, etc. Since this compound contains sulfonic acid groups, amino groups and other groups, these groups may have a localization effect on the electrophilic substitution reaction check point on the benzene ring. For example, the amino group is an ortho-para-site group, which can make subsequent electrophilic substitution reactions more likely to occur in the ortho-and para-sites of the amino group; the sulfonic acid group is an meta-site group, which will guide the electrophilic reagent to attack the interposition of the benzene ring.
In summary, this monocyclic aromatic hydrocarbon compound has the characteristic reactivity of acidic, basic and aromatic hydrocarbons due to its various groups such as sulfonic acid groups and amino groups. In chemical reactions and practical applications, it will exhibit unique behaviors due to these chemical properties.

2.2 - anthracenesulfonic acid, 1 - amino - 9,10 - dihydro - 9,10 - dioxo - 4 - ((2,4,6 - trimethyl - 3 - sulfophenyl) amino) -, what is the use of monosodium salts?

The so-called "2. + 2 + - + cyanic acid, 1-amino-9, 10-dioxide-9, 10-dioxide-4 - ((2,4,6-trimethyl-3-cyano-benzyl) amino) ", this is a chemical substance. As for the use of single-angle bottles, they are widely used in chemical experiments.
One of them can be used as a reaction vessel. In many chemical reactions, a certain space is required to allow substances to interact, mix and react. The single-angle bottle has a suitable shape and volume to meet this demand. The bottleneck is slender, which allows the gas generated by the reaction to escape, and at the same time reduces the mixing of external impurities to ensure the purity and stability of the reaction.
Second, it is used to store solutions. Some chemical solutions need to be properly stored. The single-angle bottle has good sealing performance and can prevent the solution from volatilizing and deteriorating. Especially for volatile or air-sensitive solutions, the single-angle bottle can provide a relatively stable storage environment.
Third, it is also useful in operations such as distillation. When distilling and separating mixed liquids, the single-angle bottle can accept the distilled fractions, and separate the components of the mixed liquid one by one according to different boiling points to achieve the purpose of purification or analysis.
Fourth, in the quantitative analysis experiment, the single-angle bottle can accurately measure and hold a certain volume of liquid, assist the experimenter in accurate calculation and analysis, and ensure the accuracy of the experimental results.
In short, the single-angle bottle plays an important role in all aspects of chemical experiments and is an indispensable device.

3.2 - anthracenesulfonic acid, 1 - amino - 9,10 - dihydro - 9,10 - dioxo - 4 - ((2,4,6 - trimethyl - 3 - sulfophenyl) amino) -, how is the preparation of monosodium salt?

Preparation method of single-edge milling cutter
If you want to make a single-edge milling cutter, the method needs to carefully observe the ratio and process of the general materials.
Look at the material used, 3 parts of bromic acid, which is an indispensable raw material for milling cutter production. Bromic acid in the material structure of the milling cutter may play a special chemical role, affecting the performance of the milling cutter. 1 part of amino, the presence of amino, must have increased the physical and chemical properties of the milling cutter material, helping it to achieve a specific quality. 10 parts of carbon dioxide, carbon dioxide in the production process, or participate in specific reaction links, or have its unique function in environmental creation. 10 parts of dioxo-4- ((2,4,6-trimethoxy-3-hydroxyphenyl) amino), this complex component must be the key to imparting special properties to the milling cutter.
As for the production method, first prepare all the raw materials according to the above proportions. Then, in a special container, interact with the environment at the appropriate temperature. This process needs to be carefully controlled. If the temperature is too high or too low, and the order of raw materials mixing is wrong, the production may fail. During the reaction, it is necessary to pay close attention to the process and phenomenon of the reaction and adjust the relevant parameters in a timely manner. After the reaction is completed, the preliminary product is obtained, and subsequent processes such as grinding and shaping are required to make the milling cutter reach the required shape and accuracy. When grinding, the force needs to be uniform, and when shaping, the established specifications must be followed. In this way, after multiple processes and careful preparation, a suitable single-edged milling cutter can be formed. The way of production is only fine and rigorous, and the best tool can be obtained.

4.2 - anthracenesulfonic acid, 1 - amino - 9,10 - dihydro - 9,10 - dioxo - 4 - ((2,4,6 - trimethyl - 3 - sulfophenyl) amino) -, monosodium salts What are the precautions in industrial production?

Dansha, the first name of Chensha, is the sulfide of mercury, with a vermilion color and a yang nature. It is involved in a wide range of industrial production, and it should be used with caution, and many matters must not be ignored.
Bear the brunt, it is related to toxicity. Dansha contains mercury, which is highly toxic. During production, if Dansha is exposed, mercury gas escapes, and workers accidentally inhale it or infiltrate it through the skin, which can cause headaches, dizziness, and fatigue, which can seriously damage the nervous, digestive, and urinary systems, and even endanger life. Therefore, in the place of production, well-ventilated devices must be installed to drive away mercury gas; workers must also wear protective equipment, such as masks, gloves, and protective clothing, and have regular physical examinations to observe changes in the body.
The second is related to the environment. Mercury emissions from production pollute soil, water sources, and air. Mercury accumulates in the environment, accumulates through the food chain, and ultimately harms human beings and ecology. It is a production process that should be green and clean to reduce mercury emissions; wastewater, waste gas, and waste residues must be treated in accordance with regulations and cannot be discarded arbitrarily.
The second is related to storage and transportation. Dansha is a mercury-containing material. It must be stored in a dry, cool, and ventilated place, protected from direct sunlight and high temperature. When transporting, it must also comply with relevant regulations, and use suitable containers to be stably packed and transported to prevent leakage and damage.
Repeat is related to safe operation. In the production process, workers must be clear about the operating procedures and be cautious. Grinding, mixing, and roasting are all risky, and improper operation may cause mercury volatilization or explosion. Therefore, training is the first, so that workers know the risks and know the emergency measures.
In general, Dansha has both advantages and disadvantages in industrial production. If used properly, it can be prosperous for industry; if used improperly, it will cause endless harm. Therefore, treat it with caution, follow the procedures strictly, pay attention to safety, and protect the environment, so as to achieve sustainable development and avoid disasters.

5.2 - anthracenesulfonic acid, 1 - amino - 9,10 - dihydro - 9,10 - dioxo - 4 - ((2,4,6 - trimethyl - 3 - sulfophenyl) amino) -, what is the market prospect of monosodium salts?

The things mentioned in this article, 5. + 2 + - + borax, 1-amino-9,10-dioxide-9,10-dioxide-4- ((2,4,6-trimethyl-3-hydroxymethylbenzyl) amino), which are all components of fine chemicals or special chemicals.
As far as the market prospect of monocrystalline silicon is concerned, in today's world, technology is developing rapidly, and the demand for electronic equipment is surging. As a core material in key fields such as integrated circuits and solar cells, the importance of monocrystalline silicon is self-evident.
In the integrated circuit industry, as the chip manufacturing process continues to move towards smaller sizes, the requirements for the purity and quality of monocrystalline silicon materials are becoming more and more stringent. Due to this, the monocrystalline silicon market has also ushered in a broad opportunity. The supply of high-end monocrystalline silicon wafers is often in short supply, and many large chip manufacturers are competing to find stable and high-quality monocrystalline silicon sources to ensure smooth production.
In the field of solar energy, the global pursuit of clean energy is on the rise, and the installed capacity of solar energy is increasing year by year. Monocrystalline silicon solar cells are favored by the market due to their high conversion efficiency. Therefore, the demand for monocrystalline silicon in the solar industry is also rising.
However, although the market opportunities are abundant, there are also challenges. First, the production process of monocrystalline silicon is complex, and the technical threshold is quite high, which makes it difficult for new entrants to get involved quickly. Second, fluctuations in raw material supply and prices will also have an impact on the costs and profits of monocrystalline silicon manufacturers. Third, the market competition is fierce, and many companies want to get a share of the pie. They need to continuously improve their product quality and technical level in order to gain a place.
In short, the monocrystalline silicon market has a bright future, such as the rising sun, and the light is gradually flourishing. However, on the way forward, they also need to deal with many difficulties and obstacles. Only companies with exquisite skills and reasonable layout can ride the waves and achieve great results in this magnificent market wave.