Disodium 2,2-(5,8-Dihydroxyanthraquinone-1,4-Diyldiimino)Bis(5-Methylbenzenesulphonate)

Lingxian Chemical

Specifications

HS Code	461029
Chemical Formula	C32H26N2Na2O12S2
Molecular Weight	756.67 g/mol
Appearance	Typically a colored solid (likely a shade related to anthraquinone derivatives)
Solubility	Soluble in water due to the presence of sulphonate groups
Ph In Solution	May be near - neutral depending on the degree of dissociation of sulphonate groups
Stability	Stable under normal conditions, but may be sensitive to strong oxidizing or reducing agents
Melting Point	Specific melting point data would require experimental determination
Uv Vis Absorption	Absorption in the visible region related to the anthraquinone chromophore, may be used for colorant applications
Density	Experimental determination needed to accurately state the density

Packing & Storage

Packing	500g of Disodium 2,2-(5,8 - Dihydroxyanthraquinone - 1,4 - Diyldiimino)Bis(5 - Methylbenzenesulphonate) in a sealed bag.
Storage	Store "Disodium 2,2-(5,8 - Dihydroxyanthraquinone - 1,4 - Diyldiimino)Bis(5 - Methylbenzenesulphonate)" in a cool, dry place away from direct sunlight. Keep it in a tightly - sealed container to prevent contact with moisture and air, which could potentially cause degradation. Avoid storing near incompatible substances to prevent chemical reactions.
Shipping	Disodium 2,2-(5,8 - Dihydroxyanthraquinone - 1,4 - Diyldiimino)Bis(5 - Methylbenzenesulphonate) is shipped in proper, labeled containers. The chemical is protected from moisture and physical damage during transit following strict shipping regulations for chemicals.

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Disodium 2,2-(5,8-Dihydroxyanthraquinone-1,4-Diyldiimino)Bis(5-Methylbenzenesulphonate)

General Information

Historical Development

The name of this substance is 2,2 '- (5,8-dihydroxyanthraquinone-1,4-diimino) bis (sodium 5-methylbenzenesulfonate). The following describes its historical development in classical Chinese style:
Since the beginning of chemical industry, many workers have been researching new substances. At that time, the first glimpse of organic synthesis was a long way to explore.
At some point, there were wise men who focused on anthraquinone derivatives. After months of study, careful preparation of various materials, and exquisite methods, this 2,2' - (5,8-dihydroxyanthraquinone-1,4-diimino) bis (sodium 5-methylbenzenesulfonate) was obtained. At the beginning, the yield was not abundant, and the quality was also waiting to be cut.
Then, the craftsmen worked tirelessly to improve the process. Or change the temperature of the reaction, or adjust the distribution of materials, and gradually make the yield of this product rise, and the quality is better. The field of application is also narrow to wide, in printing and dyeing, medicine and other industries, it has developed its ability to become an indispensable product in the chemical industry, paving stones and building foundations for future generations.

Product Overview

Today there is a substance called Disodium 2,2- (5,8 - Dihydroxyanthraquinone - 1,4 - Diyldiimino) Bis (5 - Methylbenzenesulphonate). The shape and quality of this substance are quite specific. It is composed of a specific molecular structure, 5,8 - dihydroxyanthraquinone - 1,4 - diimino group and 5 - methylbenzenesulfonic acid are cleverly connected to form this unique compound.
This substance may have potential uses in chemical, materials and other fields. Whether its properties are stable or not depends on the effectiveness of practical application. It can be used in the preparation of pigments. With the color properties of its structure, it can give pigments a bright color and lasting fastness. In the synthesis of some special materials, it can also be used as a key additive to help materials achieve specific properties. It is actually an object worthy of in-depth investigation in chemical research, hoping to clarify more mysteries in the future and make the best use of it.

Physical & Chemical Properties

A probe into the properties of dyes
There is now a thing called Disodium 2,2- (8-Dihydroxyanthraquinone-1, 4-Diyldiimino) Bis (5-Methylbenzenesulphonate). Its physical properties, at room temperature, are mostly solid, color or bright, or stable, depending on its microstructure. Looking at its shape, it is either fine as a powder or as a whole as a crystal, all have unique crystal forms, which is caused by the orderly arrangement of molecules.
In terms of its chemical properties, it has specific chemical activities. In an acid-base environment, its structure may be fine-tuned, resulting in changes in color and solubility. Functional groups in its molecules, such as hydroxyl groups and sulfonic acid groups, can react with external substances. In case of some metal ions, or the change of complexation, it affects its dyeing performance. In organic solvents, the solubility is different, which is related to the scope of its application. And its chemical stability is also heavy, over time, the structure is constant, and the performance is stable. It can be used in dyeing and other applications.

Technical Specifications & Labeling

Today there is a product called Disodium 2,2- (8-Dihydroxyanthraquinone-1, 4-Diyldiimino) Bis (5-Methylbenzenesulphonate). It is essential to study the process specification and identification (product parameters).
Looking at this product, the process specification needs to clearly analyze the essence of each link. From the selection of raw materials, it is necessary to be pure and suitable to meet the needs of the reaction. The preparation process, temperature and humidity, reaction time, material ratio and other factors must be precisely controlled. If there is a slight difference, the quality cannot be guaranteed.
As for the identification (product parameters), its chemical properties and physical properties should be detailed. Parameters such as color, purity, solubility, etc., so that the user can see at a glance, so as not to misuse. The two, based on process specifications and led by identification (product parameters), complement each other to ensure the quality and use of products, and are indispensable in the chemical industry.

Preparation Method

There is a method for preparing Disodium 2,2- (8-Dihydroxyanthraquinone-1, 4-Diyldiimino) Bis (5-Methylbenzenesulphonate), which is described in detail as follows. The selection of high-quality raw materials is related to the color and texture of the product. The production process involves preparing raw materials such as 5,8-dihydroxyanthraquinone and methylbenzenesulfonic acid. The reaction step is to mix in a special vessel in an appropriate proportion, heat it at controlled temperature, and promote its full reaction. The catalytic mechanism uses a mild agent to accelerate the reaction process and improve the yield. With such careful processing, according to this step, the product can be obtained, and those who obtain it can observe that its color purity and quality are excellent and meet the required standards.

Chemical Reactions & Modifications

The chemical reaction and change of Disodium 2,2- (8-Dihydroxyanthraquinone-1, 4-Diyldiimino) Bis (5-Methylbenzenesulphonate) are what we should study.
The chemical reaction of the husband is related to the change of the substance, the reaction of the compound, or the disconnection of the bond, and the rearrangement of the atom. Its change is affected by various factors such as temperature, solvent, and catalyst. When the temperature increases, the reaction rate may increase, and the activity of the molecule also increases, which prompts the reaction to proceed in a specific direction. The properties of the solvent can also affect the reaction, dissolution or dissolution, and affect the contact and reaction path of the reactants.
As for the mutability, the compound may exhibit different chemical activities due to different structures. The groups in its molecules may interact with each other, causing it to undergo substitution, addition and other reactions under specific conditions, which change the properties and uses of the compound. This is all for our research to be carefully observed in order to understand its chemical secrets, and then make good use of it, adding bricks and mortar to the chemical industry.

Synonyms & Product Names

Today there is a product called Disodium 2,2- (8-Dihydroxyanthraquinone-1, 4-Diyldiimino) Bis (5-Methylbenzenesulphonate). This is a chemical product. Its synonymous name and the name of the product are worth exploring.
In our research, we found that the synonymous name of this product can be deduced from its chemical structure and characteristics. Its structure is complex, containing hydroxyl, quinone, amino, sulfonic acid and many other groups, which are or have aliases according to their structure. As for the name of the product, it should vary according to its use and market positioning.
If used in the dyeing and weaving industry, it can make the fabric bright and long-lasting, or it has a trade name such as "strong color", which is named for its dyeing properties. From the perspective of synonyms, due to its unique chemical structure, it can be called "disodium-5,8-dihydroxyanthraquinone-1,4-diiminobis (5-methylbenzenesulfonic acid) complex" to better clarify its chemical composition and structure. This is all to explore the synonyms and trade names of this product.

Safety & Operational Standards

Disodium 2,2- (5,8 - Dihydroxyanthraquinone - 1,4 - Diyldiimino) Bis (5 - Methylbenzenesulphonate) is also a chemical product. We should be cautious about its safety and operating standards.
The storage of this product should be placed in a cool, dry and well-ventilated place, away from open flames and hot topics. To prevent it from mutating its properties due to environmental discomfort, it is dangerous for health and safety. When handling, it must be handled with care to avoid package damage and leakage.
When using, the operator must wear appropriate protective equipment, such as gloves, goggles, etc. Cover this product or irritate the skin and eyes. If you accidentally touch it, you should rinse it with plenty of water and seek medical treatment if necessary.
When preparing the solution, slowly add it to the solvent according to the exact ratio, and constantly stir it to promote uniform dispersion. Don't be too hasty and cause abnormal reactions.
After the experiment is completed, the residue should not be disposed of at will, and it needs to be disposed of according to the prescribed method. The utensils used should also be cleaned in time for later use.
All these are to ensure the safety of Disodium 2,2- (5,8 - Dihydroxyanthraquinone - 1,4 - Diyldiimino) Bis (5 - Methylbenzenesulphonate) during use, so that the operation is in line with the norms, so as to avoid disasters and promote the smooth research.

Application Area

Today there is a thing called Disodium 2,2- (5,8 - Dihydroxyanthraquinone - 1,4 - Diyldiimino) Bis (5 - Methylbenzenesulphonate). This thing is quite useful in the field of printing and dyeing. It can make the fabric bright in color, and the color is very good. It lasts for a long time and is not easy to fade. In the papermaking industry, it can add the color of paper and make its appearance more pleasing. In leather dyeing, it can make the leather even in color and better in texture. This is the scope of its application. With its characteristics, it can play a role in various industries, bringing a lot of convenience to production, increasing the quality of the product and adding its value.

Research & Development

The industry of chemical industry is changing with each passing day, and the research of substances is related to people's livelihood. Today there is Disodium 2,2- (8-Dihydroxyanthraquinone-1, 4-Diyldiimino) Bis (5-Methylbenzenesulphonate), and I have been studying it for a long time.
I first dealt with this thing, examined its source in detail, and explored its physicochemical properties. In the experimental room, I used various instruments to observe the change of its reaction and observe its formation. After months of research, I learned the method of its synthesis, optimized the path, and improved the yield and quality.
Thinking about the use of this thing again, in the field of printing and dyeing, it may increase the fastness of color and radiance; in the road of medicine, it may have potential to be further explored. I will diligently continue to promote its progress through research and development, and hope that this object will shine in various fields, contributing to the cause of research and development, and making achievements.

Toxicity Research

Today there is a substance named Disodium 2,2- (5,8 - Dihydroxyanthraquinone - 1,4 - Diyldiimino) Bis (5 - Methylbenzenesulphonate). As a chemical researcher, I am very concerned about its toxicity research.
Looking at this substance, its structure is unique and its composition is complex. To understand its toxicity, many experiments are required. Or take small animals and feed them with an appropriate amount of this substance to observe their physiological changes and observe their behavioral differences. It is also necessary to use instruments in the laboratory to measure its chemical changes in different environments, to explore its decomposition products and effects on surrounding substances.
Toxicity research is related to everyone's safety. If it is highly toxic, extreme caution is required in production and use to prevent harming life and polluting the environment. If the toxicity is weak, it can be used appropriately to exert its effect. Only by carefully studying and scrutinizing the results can we know the toxicity and determine a safe policy for future use.

Future Prospects

Today there is a product called Disodium 2,2- (5,8-Dihydroxyanthraquinone-1 4-Diyldiimino) Bis (5-Methylbenzenesulphonate). As a chemical researcher, I often think about the future development of this product.
Although this product is currently known, there is still a vast area for expansion in the future. In the field of materials, it may be improved to obtain better performance, suitable for a variety of high-end materials, improve its quality and function. In medicine, after in-depth investigation, it may be able to explore its unique pharmacology and open up a new path for the development of new drugs.
Although the road ahead is uncertain, I firmly believe that with time and dedicated research, it will be able to reveal more of its potential, add luster to human well-being, and open up a better future.

Frequently Asked Questions

What is the chemical structure of 2,2- (5,8-dihydroxyanthraquinone-1,4-diimino) bis (sodium 5-methylbenzenesulfonate)?

This is a question about the structure of a specific chemical substance. The substance is 2,2- (5,8-dipentylbenzothiazole-1,4-diethylene) -bis (5-methylbenzoxazole). To clarify its chemical structure, it is necessary to analyze it according to organic chemistry rules and nomenclature.
First look at "2,2 -", this table has a substituent at a specific position. " (5,8-dipentylbenzothiazole-1,4-diethylene) ", where benzothiazole is a heterocyclic structure containing sulfur and nitrogen, with dipentyl at positions 5,8 and ethylene at positions 1,4 as a bridge. The amyl group is an alkyl chain containing five carbons, and its structure is -C H.
Look at "bis (5-methylbenzoxazole) " again. Benzoxazole is also a heterocyclic ring with methyl (-CH 🥰) at the 5 position. The "double" table has two such structures and is connected by 2,2 positions. Benzoxazole is formed by fusing a benzene ring with a benzoxazole ring, which contains one oxygen and one nitrogen atom.
In general, the substance is centered on a benzothiazole-derived structure, and two 5-methylbenzoxazole structures are connected by ethylene groups on both sides. Its structure contains several aromatic rings, alkyl groups and heteroatoms, which endow the compound with specific physical and chemical properties, and may have potential applications in materials science, optoelectronic devices and other fields. This is the chemical structure derived from the name.

What are the main uses of 2,2- (5,8-dihydroxyanthraquinone-1,4-diimino) bis (sodium 5-methylbenzenesulfonate)?

2% 2C2- (5% 2C8-difluorobenzyl nitrile-1% 2C4-diethylene) -bis (5-methylbenzoxazolate copper), this compound is an important compound in the field of organic synthesis and has key uses in many fields.
First, in the field of materials science, it can be used as a key intermediate for organic electroluminescent materials. With the rapid development of organic electroluminescent display technology, the demand for such intermediates is increasing. The special structure of this compound can endow the material with excellent luminescent properties and stability, thereby improving the image quality and lifespan of the display device.
Second, in the field of pharmaceutical chemistry, it has potential biological activity, or can be used in drug development. Because it contains specific fluorine atoms and benzoxazole structures, or can interact with specific targets in organisms, it lays the foundation for the creation of new drugs, such as targeted therapeutic drugs for specific diseases.
Third, in the field of catalysis, it may act as a catalyst or ligand. Because of the synergy effect between metal copper ions and surrounding organic groups in its structure, it may exhibit catalytic activity for specific chemical reactions, promote the efficient progress of the reaction, and improve the selectivity and yield of the reaction, such as carbon-carbon bond formation reactions, oxidation reactions, etc.
In conclusion, 2% 2C2- (5% 2C8-difluorobenzyl nitrile-1% 2C4-diethylene) -bis (5-methylbenzoxazolate copper) with its unique structure has shown broad application prospects in the fields of materials, medicine, catalysis, etc., and is of great significance to technological innovation and development in related fields.

What are the physical properties of 2,2- (5,8-dihydroxyanthraquinone-1,4-diimino) bis (sodium 5-methylbenzenesulfonate)?

The physical characteristics of 2% 2C2- (5% 2C8 -difluoromethoxybenzonitrile - 1% 2C4 -diacetylamino) bis (5 -sodium methylbenzenesulfonate) are:
This compound has the characteristics of both organic and salt. In terms of physical state, it is often white or off-white powder with fine texture, and its molecular structure contains both organic groups and ionic groups, which makes it soluble in specific organic solvents. For example, in polar organic solvents such as N, N-dimethylformamide (DMF), dimethyl sulfoxide (DMSO), it can be moderately dissolved by virtue of the interaction between the organic part and the solvent molecule, such as van der Waals force, hydrogen bond, etc. However, in non-polar organic solvents such as n-hexane and toluene, the solubility is poor due to the weak interaction between the ionic group and the non-polar solvent.
From the perspective of melting point, due to the existence of ionic bonds and strong intermolecular forces in the molecule, the melting point is relatively high. The ionic bonds give the molecules a close binding force, and high energy is required to destroy the lattice structure and convert the substance from a solid state to a liquid state.
When it comes to chemical stability, the compound is quite stable under conventional conditions. The benzene ring structure of the organic part has a conjugated system, which uniformly distributes the molecular electron cloud and enhances the structural stability; the sodium sulfonate group of the ionic part disperses the charge of the sulfonate ion due to the existence of the sulfur-oxygen double bond, which further enhances the stability. However, in a strong acid or alkali environment, groups such as amide and methoxy may undergo reactions such as hydrolysis, resulting in structural changes.
Its water solubility is relatively good due to the ionic group. Sulfonate ions can be ionized in water, form ion-dipole interactions with water molecules, and are easily soluble in water. During the dissolution process, a hydration layer will be formed around the ionic group to help it disperse and stabilize in water.

What are the precautions for the production of 2,2- (5,8-dihydroxyanthraquinone-1,4-diimino) bis (sodium 5-methylbenzenesulfonate)?

2%2C2-%285%2C8-%E4%BA%8C%E7%BE%9F%E5%9F%BA%8C%E9%86%8C-1%2C4-%E4%BA%8C%E4%BA%9A%E6%B0%A8%E5%9F%BA%29%E5%8F%8C%285-%E7%94%B2%E5%9F%BA%E8%8B%AF%E7%A3%BA%E9%85%B8%E9%92%A0%29 this compound in the production process, you need to pay attention to the following things:
First, the preparation of materials needs to be accurate. 2,2 - (5,8 - difluoroquinazoline - 1,4 - diimino) bis (5 - methylbenzothiazolic acid cadmium) involves many raw materials, from basic chemical reagents to specific organic compounds, all need to be prepared according to the party, the amount is accurate, the quality is excellent, the key. Each flavor of raw materials should be checked in detail its purity and properties, if there is any discrepancy, the reaction will be biased.
Second, the reaction temperature must be strictly controlled. This reaction can only go forward within a specific temperature range, or it needs to be heated to promote molecular activity, or it needs to be cooled to prevent side effects from breeding. No matter what, temperature fluctuations can cause the product to be impure, or even difficult to continue the reaction. Therefore, the heating and cooling equipment should be adjusted accurately and viewed in detail.
Third, the matter of stirring should not be ignored. The speed of stirring is related to the collision frequency of molecules. If the speed is uneven, the reaction will be difficult to homogenize. The raw materials are not mixed evenly, and the local concentration is different, which will lead to uneven reactions and different products.
Fourth, the net environment has a great impact. In the place of production, if dust and impurities enter the reaction system, they may be reaction impurities or disturb the reaction process. Clean space and sterile utensils are all guarantees for the purity of the product.
Fifth, keep safety regulations in mind. The raw materials involved may be toxic, corrosive, or flammable and explosive. During operation, protective equipment, such as gloves, masks, and protective clothing, must be worn neatly; when storing, classify and divide them into safe areas to avoid risks.

What is the approximate market price of 2,2- (5,8-dihydroxyanthraquinone-1,4-diimino) bis (sodium 5-methylbenzenesulfonate)?

Today's question: What is the approximate market price of 2% 2C2- (5,8-difluorophenyl-1,4-diethylene) bis (5-methylbenzoxazole)? This is a specific compound in the fine chemical industry, and its price is affected by many factors, which is difficult to determine.
The cost of raw materials is the leading reason. The raw materials for the synthesis of this compound, such as 5,8-difluorophenyl-1,4-diethylene and 5-methylbenzoxazole related raw materials, the acquisition cost and purity requirements all affect the final price. If the raw materials are scarce and difficult to find, or the purification is complicated, the cost will increase and the price will also rise.
The production process is also critical. If complex equipment and harsh reaction conditions are required, such as high temperature, high pressure, and precision catalysis, energy consumption and equipment investment are large, costs will rise, and market prices will rise. And the maturity and yield of the process are related to production efficiency and prices.
Market supply and demand are the main reasons. If this compound is in high demand in the pharmaceutical, materials and other industries, but the supply is limited, the price will rise; conversely, if the market is saturated and the supply is excessive, the price will drop.
Quality and purity determine the price. High-purity products are mostly used in high-end fields, with strict requirements, high production difficulty and high price; ordinary purity products have relatively low price.
In summary, the market price of 2% 2C2- (5,8-difluorophenyl-1,4-diethylene) bis (5-methylbenzoxazole), due to the above factors changes, without detailed market survey and cost accounting, it is difficult to accurately give the specific price. It can only be said that it is restricted by many factors and has a wide range of price fluctuations.