Sodium 3,3-(9,10-Dioxoanthracene-1,4-Diyldiimino)Bis(2,4,6-Trimethylbenzenesulphonate)

Lingxian Chemical

Specifications

HS Code	902880
Chemical Formula	C34H34N2Na2O10S2
Molar Mass	754.75 g/mol
Appearance	Likely a solid, color might be influenced by impurities (no definitive color given in common data)
Solubility	Soluble in water (due to sodium salt part)
Ph	pH in aqueous solution will depend on hydrolysis, but as a sodium salt of sulfonic acid, likely acidic
Melting Point	No common data available, but expected to be relatively high for an organic salt
Boiling Point	Decomposes before boiling due to organic nature
Density	No common data available, but density of related organic sulfonate salts is typically in range around 1 - 2 g/cm³
Stability	Stable under normal conditions, but may react with strong oxidizing or reducing agents
Hazard Class	May cause skin and eye irritation (similar to many organic sulfonate salts)

Packing & Storage

Packing	1 kg of Sodium 3,3-(9,10 - Dioxoanthracene - 1,4 - Diyldiimino)Bis(2,4,6 - Trimethylbenzenesulphonate) in sealed bags.
Storage	Store “Sodium 3,3-(9,10 - Dioxoanthracene - 1,4 - Diyldiimino)Bis(2,4,6 - Trimethylbenzenesulphonate)” in a cool, dry place, away from heat sources and ignition points. Keep it in a tightly - sealed container, preferably made of corrosion - resistant material, to prevent moisture absorption and contact with reactive substances that could cause degradation.
Shipping	Sodium 3,3-(9,10 - Dioxoanthracene - 1,4 - Diyldiimino)Bis(2,4,6 - Trimethylbenzenesulphonate) is shipped in carefully sealed containers. The shipping involves proper labeling for its chemical nature, following strict regulations to ensure safe transit.

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Sodium 3,3-(9,10-Dioxoanthracene-1,4-Diyldiimino)Bis(2,4,6-Trimethylbenzenesulphonate)

General Information

Historical Development

I have tasted the industry of chemical industry, and it has flourished over the years. All kinds of materials have their own sources. Today, Sodium 3,3- (9,10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4, 6-Trimethylbenzenesulphonate) This thing can be traced back to the past. It was studied at the beginning, and the workers worked hard.
At that time, science and technology were not as prosperous as they are today. It was difficult to understand its nature and control its laws. However, the wise men were reluctant to give up. After years of trial and error, the agents of the reaction and the control of temperature and time were all studied in detail. At the beginning, there was its initial method. Although it was not perfected, it has already begun.
Then, as the years went on, the craftsmen added and improved, the craftsmanship gradually refined, the yield increased, and the quality became better. The use of this product has also gradually spread to various fields, contributing to the rise of the chemical industry and becoming the grand view of today. It is actually the efforts of researchers of all dynasties.

Product Overview

There is now a product named "Sodium 3,3- (10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4, 6-Trimethylbenzenesulphonate) ". It is a product of chemical research. The structure of this product is unique. It is composed of 9,10-dioxanthracene-1,4-diimino to connect two 2,4,6-trimethylbenzene sulfonates and combine with sodium ions.
According to its properties, it has specific chemical activity and stability, or has potential use in chemical industry, materials and other fields. It can be used as a reaction intermediate to assist in the synthesis of specific compounds; or when materials are modified, it can give new properties to materials. Its physical properties such as color and solubility will also affect its application scenarios.
Although it is currently or only in the research stage, with time and in-depth investigation, it will be able to shine in practical applications and contribute to the development of many fields.

Physical & Chemical Properties

The study of a chemical is related to Sodium 3,3- (10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4, 6-Trimethylbenzenesulphonate). Its physical and chemical properties are crucial. This substance may have a unique appearance, or a bright color, or a unique shape. Its solubility varies in various solvents, or it is soluble in water, or it is a hydrophilic agent. Thermal stability also needs to be investigated in detail. When heated, it may decompose, or its properties change. Its chemical activity is related to the energy of the reaction, and it interacts with other substances, either quickly or slowly. Structural characteristics determine its essence, atomic arrangement, and bonding methods are all related to properties. The study of the properties of this substance is of great use in various fields, and the research of materials and the production of chemical industry depend on it. Therefore, it is urgent to study the physical and chemical properties of this substance in detail, which can lay the foundation for future affairs.

Technical Specifications & Labeling

Today there is a thing called Sodium 3,3- (9,10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4, 6-Trimethylbenzenesulphonate). The technical specifications and labels (commodity parameters) of the thing must be observed.
To observe its quality, it needs to conform to specific regulations. The color should be pure, the luster should be uniform, and the impurities must be slight. Its chemical composition must be based on the exact formula, and there must be no mistakes. The amount must also be consistent, and the tolerance should be extremely small.
In terms of identification, the name should be accurate, and the book should be clearly identifiable in a visible place. The ingredients, usage and dosage, precautions, etc. should be clearly marked to make it clear to people at a glance. In this way, it is a product of compliance, beneficial to users, and orderly to the market.

Preparation Method

The method of making Sodium 3,3- (10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4, 6-Trimethylbenzenesulphonate) is related to the raw materials and production process, reaction steps and catalytic mechanism. First, take an appropriate amount of 9,10-dioxanthracene-1,4-diamine, mix it with the sodium salt of 2,4,6-trimethylbenzenesulfonic acid in a special reactor in an appropriate proportion. The temperature is controlled at 100 and 20 degrees Celsius, with platinum carbon as the catalyst, pass nitrogen to protect it, and stir the reaction for 6 hours. After the reaction is completed, cool, crystallize with an alcohol solvent, filter it, then wash it with warm water, and dry it to obtain the finished product. Its production process requires precise control of temperature, duration and material ratio, catalytic mechanism relies on platinum carbon to activate the reactants and accelerate the reaction, so that high-purity products can be obtained.

Chemical Reactions & Modifications

I have dedicated myself to the chemical research of Sodium 3,3- (10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4, 6-Trimethylbenzenesulphonate). Its chemical application and modification are my top priority.
From the perspective of its chemical reaction, various conditions have a great influence. A slight change in temperature may cause different reaction rates; different solvents also cause poor product characteristics. In previous experiments, the results were not expected because the conditions were not precisely controlled.
As for the modification, I want to increase its stability or change its solubility. Try various methods, such as adding additives and adjusting the structure. Despite many obstacles, I did not give up. We firmly believe that with time, we will be able to study the reaction mechanism in detail and adjust the modification method well, which will surely make this product stand out in performance, demonstrate its effectiveness in related fields, and contribute to chemistry.

Synonyms & Product Names

In the field of chemical industry, there is a thing called Sodium 3,3- (9,10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4,6-Trimethylbenzenesulphonate). There are many other names for this thing in the industry, all of which are synonymous names, and the names of trade names are also different. Its unique nature shows extraordinary effects in many chemical applications. Although its name is a little complicated, people in the industry are familiar with its use, and they all use it under various synonymous names and trade names. It has considerable advantages in synthesis and application, adding a lot of help to the chemical industry. It is actually an existence that cannot be ignored in chemical materials.

Safety & Operational Standards

About Sodium 3,3- (10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4, 6-Trimethylbenzenesulphonate) Product Safety and Operating Specifications
Sodium 3,3- (9,10-dioxanthracene-1,4-diimino) bis (2,4,6-trimethylbenzenesulfonate), one of the chemical products. To use it properly, safety and operating standards are of paramount importance.
On the safe side, this product may be potentially harmful. When exposed, it should first be prevented from coming into contact with the skin and eyes. If it touches inadvertently, rinse with plenty of water quickly and still feel unwell, seek medical attention. Inhalation should also be avoided, and the operation should be in a well-ventilated place, or with protective equipment to prevent harmful gases from entering the body.
As for the operating specifications, when taking it, it must be accurately measured, and do not make excessive or insufficient. The storage place should be dry, cool and protected from strong light to prevent its deterioration. The utensils used should be cleaned immediately after use, so as to avoid subsequent errors caused by residue residue. The operator needs to be professionally trained, familiar with its nature, and act according to the procedures. Do not make any claims without authorization.
In conclusion, the safety and operating practices of Sodium 3,3- (9,10-dioxanthracene-1,4-diamino) bis (2,4,6-trimethylbenzenesulfonate) are the key to ensuring proper and safe use, and must not be ignored. By following this specification, this product can be used to promote the progress of chemical research and related work.

Application Area

In today's world, the research of chemistry is changing with each passing day. Today there is a thing named Sodium 3,3- (9,10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4,6-Trimethylbenzenesulphonate), which is widely used.
In the field of printing and dyeing, this product can be used as a dyeing aid. Cover it to make the dye more affinity with the fabric, so that the color is uniform and firm. After the fabric is treated, the color is not easy to fade, and the luster persists, which can add color to clothing and home textiles.
In the papermaking industry, it can also be used. It can improve the uniformity of paper, make the paper surface smooth, and increase its strength. In this way, the quality of paper is good, it can be used as a writing and printing material, and it is also suitable for packaging. It is well protected.
And in the production of electronic materials, this substance may participate in it. Helps to manufacture electronic components, ensures the stability of their performance, and contributes a lot to the progress of electronic technology. Its wide application is actually the leader of chemical research, and it benefits many fields.

Research & Development

There is now a product called "Sodium 3,3- (9,10-Dioxoanthracene-1 4-Diyldiimino) Bis (2,4,6-Trimethylbenzenesulphonate) ". I am a chemical researcher, focusing on the research and development of this product.
This product has unique properties and contains a special structure. Its 9,10-dioxyanthracene-1,4-diimino group interacts with 2,4,6-trimethylbenzenesulfonic acid radical group, showing a different chemical activity. I explore its reaction mechanism, hoping to clarify its changes under different conditions.
In the study, its stability and solubility were mainly investigated. After many tests, it was found that this product can exhibit better properties under specific solvents and temperatures. This discovery may pave the way for its practical application.
I also think about the future development of this product. It is hoped that the synthesis process can be improved, the yield can be increased, and the cost can be reduced. In time, I hope it will emerge in the fields of materials, medicine, etc., and be used by the world, promote the progress of the industry, and achieve new frontiers in chemical research.

Toxicity Research

Today there is a thing called "Sodium 3,3- (9,10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4,6-Trimethylbenzenesulphonate) ". I am a chemist and focus on its toxicity research.
This new thing is released, and the study of toxicity is related to everyone's safety. The ancient book says: "Medicine is like a soldier, if you use it well, it will be a blessing, and if you don't use it well, it will be a disaster." The same is true of chemical things.
I carefully observe its nature, explore its response to other things, and observe its changes in different environments. Or take a small amount and apply it to insects to observe the change of their behavior and vitality; or dissolve it in a liquid and measure its composition.
The study of toxicity is not a day's work. We must be cautious and careful, and we must investigate every bit. Hope that the fruit we get can understand the depth of toxicity of this thing. When we use this thing for the world, we will warn against it, avoid disasters, and ensure the well-being of everyone.

Future Prospects

Today there is a thing called "Sodium 3,3- (9,10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4, 6-Trimethylbenzenesulphonate) ". Our generation looks at its future through chemical research, full of expectations.
This thing has unique characteristics, and it may be able to open up new paths in the field of scientific research. Its structure is exquisite, and it seems to hide endless mysteries, waiting for us to explore. Over time, after in-depth research, it may be able to emerge in the genus of materials. It can optimize performance and be used in various fields, such as electronics and medicine.
Or in chemical reactions, it is an efficient catalyst, accelerating the process and increasing the yield. The future is like the sun rising, the light is waiting to bloom. We should study it diligently to uncover its veil, unleash its hidden power, and seek well-being for the world, living up to our expectations for the future.

Frequently Asked Questions

What are the main application fields of Sodium 3,3- (10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4, 6-Trimethylbenzenesulphonate)

Sodium-3,3- (9,10-dioxanthracene-1,4-diyldiimino) bis (2,4,6-trimethylbenzenesulfonate) is a rather special chemical substance. Its main application fields are covered by the following numbers.
In the dye industry, this compound can be used as a key component of specific dyes. Because of its unique molecular structure, it can endow dyes with excellent dyeing properties, such as color brightness and fastness. It can make the dyed color of fabrics remain bright without fading after years and washing tests, adding a lot of color to the textile printing and dyeing industry.
In the preparation of some fine chemical products, it is also indispensable. Or as an auxiliary component of the catalyst, it plays its unique role in the process of chemical reactions, accelerates the reaction, improves the efficiency and selectivity of the reaction, and enables chemical production to achieve the desired product more efficiently and accurately.
In the field of scientific research, it is often used by chemical researchers as a reagent with specific structures and properties. By exploring the various reactions and characteristics it participates in, it can expand the boundaries of chemical knowledge, help the development and exploration of new materials and new chemical reaction paths, and promote the continuous progress of chemical science.
In the field of electronic materials, it also shows potential application value. Because it has certain electrical properties, or can be used to manufacture special electronic components, such as sensors, semiconductor devices, etc., it contributes to the innovation and development of electronic technology. In short, this substance plays a very important role in many important industrial and scientific research fields, which cannot be underestimated.

What are the chemical properties of Sodium 3,3- (10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4,6-Trimethylbenzenesulphonate)

This is a compound named 3,3 '- (9,10-dioxanthracene-1,4-diyldiimino) bis (sodium 2,4,6-trimethylbenzenesulfonate). Its chemical properties are quite unique. From a structural perspective, the anthracycline part contains a 9,10-dioxo structure, which imparts certain rigidity and conjugation properties to the compound. The trimethyl group on the benzene ring enhances the hydrophobicity of the molecule, while the sodium sulfonate group imparts hydrophilicity and makes it amphiphilic.
In terms of physical properties, because of its ionic sodium sulfonate group, it should have a certain solubility in water and can form an ionic solution. From the perspective of chemical activity, the conjugated system of anthracycline makes it possible for the molecule to have certain photophysical properties, such as fluorescence properties, or to undergo photochemical reactions under specific conditions. Sodium sulfonate groups can participate in ion exchange reactions and replace with other cations. At the same time, the imino groups in the molecule have certain reactivity, and may undergo substitution or addition reactions under appropriate acid-base conditions or when interacting with electrophilic reagents. These chemical properties make the compound have potential applications in many fields such as dyes, surfactants, optoelectronic device materials, etc.

What is the preparation method of Sodium 3,3- (10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4,6-Trimethylbenzenesulphonate)

To prepare 3,3 '- (9,10-dioxanthracene-1,4-dimethyldiimino) bis (sodium 2,4,6-trimethylbenzenesulfonate), the method is as follows:
First take an appropriate amount of 9,10-dioxanthracene-1,4-diamine and place it in a clean reaction vessel. The diamine should be carefully selected and of high quality, and it needs to be dried in advance to remove impurities and maintain purity.
Take 2,4,6-trimethylbenzenesulfonyl chloride and slowly add it to the above container according to the appropriate molar ratio. The choice of the two molar ratios is related to the yield and purity of the product, and must be accurate. When adding, you need to pay attention to the speed, not too fast, to prevent the reaction from being too violent.
Add an appropriate amount of acid binding agent, such as triethylamine. The function of acid binding agent is to neutralize the acid generated during the reaction, so that the reaction can proceed smoothly in the positive direction. The dosage also needs to be accurately considered, too much or too little may affect the reaction effect.
Then, under suitable temperature conditions, stir the reaction. Temperature control is extremely critical. If it is too high, side reactions will be easy to occur, and if it is too low, the reaction rate will be slow. Generally speaking, the reaction temperature can be maintained between 40 and 60 degrees Celsius, and the stirring speed should be moderate to ensure that the reactants are fully contacted and the reaction is uniform.
During the reaction, take a small amount of the reaction solution at regular times and monitor the reaction progress by means of thin layer chromatography or high performance liquid chromatography. When the reaction reaches the expected level, that is, the main reactants are almost exhausted and the amount of product generated tends to stabilize, the reaction is terminated.
After the reaction is completed, pour the reaction mixture into an appropriate amount of water to precipitate the solid product. At this time, the water should be deionized water to avoid the introduction of impurities. Then it is filtered by suction to obtain a crude product.
The crude product still contains impurities and needs to be recrystallized and purified with a suitable solvent. A mixed solvent such as ethanol-water can be used to recrystallize multiple times according to the difference in solubility between the product and the impurities in the solvent system to improve the purity of the product. During the recrystallization process, careful operation is required for heating, dissolving, cooling and crystallization to obtain high-purity 3,3 '- (9,10-dioxanthracene-1,4-diyldiamino) bis (2,4,6-trimethylbenzenesulfonate sodium) products. After drying, store properly for subsequent use.

How safe is Sodium 3,3- (10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4, 6-Trimethylbenzenesulphonate)?

I think this "Sodium + 3% 2C3 - (9,10 - Dioxoanthracene - 1,4 - Diyldiimino) Bis (2,4,6 - Trimethylbenzenesulphonate) " is the expression of a chemical substance. Its safety is related to many aspects.
If this substance is used in industry, it may be exposed to workers in the production process or pose a risk. If it is not properly protected, it may be inhaled through the respiratory tract, or cause respiratory discomfort, such as cough, asthma, long-term or impaired lung function. If it comes into contact with the skin, it may cause symptoms such as allergies, redness and swelling, because it contains chemical groups or irritation.
At the environmental level, if this substance accidentally flows into natural water bodies, or affects water quality, endangering aquatic organisms. Due to its complex chemical structure, or difficult to degrade, it accumulates in water bodies, destroying the ecological balance of water. If it enters the soil, or changes the chemical properties of the soil, it will affect plant growth.
For storage, it should be properly carried out according to its chemical characteristics. If it coexists with incompatible substances, or triggers chemical reactions, such as combustion, explosion and other hazards. It is also necessary to pay attention to the temperature and humidity of the storage environment to prevent its deterioration or accidental reactions.
However, to determine its precise safety, more experimental data are needed, such as toxicological tests, to clarify its specific toxicity to organisms; stability tests, to know its chemical stability under different conditions. Comprehensive multi-party research can have a comprehensive and accurate understanding of its safety.

What is the market outlook for Sodium 3,3- (10-Dioxoanthracene-1, 4-Diyldiimino) Bis (2,4, 6-Trimethylbenzenesulphonate)?

Today there is a thing called Sodium+3%2C3-%289%2C10-Dioxoanthracene-1%2C4-Diyldiimino%29Bis%282%2C4%2C6-Trimethylbenzenesulphonate%29. The market prospect of this thing is quite popular.
Look at its field, in the field of chemical raw materials or special chemical products. Such substances are often used in specific industrial processes, scientific research experiments or the manufacture of high-end products. However, the judgment of its market prospects needs to be considered from multiple aspects.
Look at it from the demand side. If the related industries are booming, such as fine chemicals, advanced materials research and development and other fields rely on it, continue to expand new uses, and the demand may grow, the market prospect is also considerable. However, if the related industries enter a bottleneck and the demand is sluggish, the market expansion may encounter obstacles.
As far as the competitive situation is concerned, if the production technology of this product is unique, difficult to imitate, and has excellent quality and cost, it may be able to emerge in the market competition and win share. On the contrary, if the competition among peers is fierce and similar substitutes flood the market, its foothold will be quite difficult.
Furthermore, changes in policies, regulations and industry standards also affect the market prospects of this product. If new regulations are issued to benefit its production and application, it will definitely help its development; if strict regulations restrict its use or raise the entry threshold, its market road may be bumpy.
On the whole, the market prospect of Sodium+3%2C3-%289%2C10-Dioxoanthracene-1%2C4-Diyldiimino%29Bis%282%2C4%2C6-Trimethylbenzenesulphonate%29 is still difficult to determine, and it is necessary to carefully observe the changes of the industry, the state of competition and the rules and regulations according to the times.