4,8-Diamino-9,10-Dihydro-1,5-Dihydroxy-9,10-Dioxoanthracene-2,6-Disulphonic Acid

Lingxian Chemical

Specifications

HS Code	865534
Chemical Formula	C14H10N2O10S2
Molar Mass	442.36 g/mol
Appearance	Probably a colored solid (推测，基于类似蒽醌结构化合物常为有色固体)
Solubility In Water	Likely soluble due to the presence of sulfonic acid groups (基于磺酸基的亲水性推测)
Solubility In Organic Solvents	Limited solubility in non - polar organic solvents (因含多个极性基团推测)
Ph Aqueous Solution	Acidic due to the sulfonic acid groups, pH < 7
Stability	Stable under normal conditions, but may react with strong oxidizing or reducing agents (基于结构稳定性推测)
Uv Vis Absorption	Absorbs in the visible region, responsible for its color (基于蒽醌结构有共轭体系推测)

Packing & Storage

Packing	Packed in 1 - kg containers: 4,8 - Diamino - 9,10 - Dihydro - 1,5 - Dihydroxy - 9,10 - Dioxoanthracene - 2,6 - Disulphonic Acid.
Storage	4,8 - Diamino - 9,10 - Dihydro - 1,5 - Dihydroxy - 9,10 - Dioxoanthracene - 2,6 - Disulphonic Acid should be stored in a cool, dry place. Keep it away from heat, flames, and sources of ignition. Store in a tightly - closed container to prevent exposure to moisture and air, as these could potentially cause chemical changes, ensuring its stability and integrity over time.
Shipping	4,8 - Diamino - 9,10 - Dihydro - 1,5 - Dihydroxy - 9,10 - Dioxoanthracene - 2,6 - Disulphonic Acid is shipped in properly sealed containers. Chemical - resistant packaging is used, and transport follows strict regulations to ensure safe handling during transit.

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4,8-Diamino-9,10-Dihydro-1,5-Dihydroxy-9,10-Dioxoanthracene-2,6-Disulphonic Acid

General Information

Historical Development

4,8-Diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxo-anthracene-2,6-disulfonic acid has long been traced in the field of chemical industry. Although the ancient craftsmen did not directly call it by its name, the evolutionary path of chemical industry is actually related to it.
At the beginning, chemistry was not developed, and material exploration only involved the skin. After the gradual development of science, the analysis of various compounds became deeper. This compound, in the eyes of scientific researchers, gradually revealed its true face.
In the past, experiments were mostly based on exploration. Although it was difficult, it was unswerving. Over the years, the experimental methods have become more and more exquisite, and the knowledge of their properties and production methods has become more and more detailed. From ignorance to clarity, from taste to in-depth study, the development of 4,8-diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxo-anthracene-2,6-disulfonic acid is just like the epitome of the scientific research journey.

Product Overview

Today there is a substance called 4,8-diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxo-anthracene-2,6-disulfonic acid. This is a chemical product with a unique structure. It is prepared by a specific reaction and has a delicate molecular structure.
Looking at its characteristics, the substance is either stable or active under specific conditions. In the field of chemical research, it may be used as a key raw material to participate in many reactions to prepare other compounds. Or because of its special properties, it has found applications in materials science, biomedicine and other fields. Although it is only one of the chemical products, its potential value still needs to be further explored by us to understand its function in various fields.

Physical & Chemical Properties

The physicochemical properties of 4,8-diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxyanthracene-2,6-disulfonic acid are particularly important. Its color, or its bright state, is related to the role of chromophore in its structure. Regarding its solubility, it may have a certain solubility in water, because its sulfonic acid group can interact with water molecules to form hydrogen bonds and improve dissolution. Its stability is also a key characteristic, and its structure may be stable under a specific temperature and pH environment. When encountering strong acids and bases, or due to chemical reactions, the structure may be mutated. Its melting point, boiling point, and other physical properties are also influenced by intermolecular forces, which are all related to the application and performance of the substance in different scenarios, and have a significant impact in many fields.

Technical Specifications & Labeling

Today there is a thing called 4,8-diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxo-anthracene-2,6-disulfonic acid. The technical specifications and identification (commodity parameters) of this thing should be studied in detail.
Looking at its quality, it must meet the rules of precision. Its color is pure, its properties are stable, and there are almost no impurities. Its shape should also be in accordance with the formula, the particles are uniform and the shape is complete.
The method of inspection is accurate according to the clear regulations, and the measurement and measurement of its properties are not very good. In the logo, the name, origin, characteristics, the way of use, and the method of hiding must be detailed.
Only in this way can this technical specification and logo become the basis for this thing to pass through the world, the user believes it, and the city is safe.

Preparation Method

To prepare 4,8-diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxo-anthracene-2,6-disulfonic acid, the raw materials should be prepared first. Take anthraquinone compounds and add sulfonation, nitration and other reaction steps.
When sulfonating, use an appropriate sulfonating agent, such as concentrated sulfuric acid or fuming sulfuric acid, under suitable temperature and time conditions, sulfonate anthraquinone to obtain an intermediate product containing sulfonic acid groups. Then nitrify, use a mixed acid of nitric acid and sulfuric acid to control the reaction conditions, so that the sulfonic acid group is introduced into the nitro group in an appropriate position.
Then through a reduction step, the nitro group is reduced to an amino group. A suitable reducing agent, such as iron powder and hydrochloric acid, can be selected to make it undergo a reduction reaction to obtain the target product precursor.
Finally, after refining, separation and other treatments, according to specific processes, pure 4,8-diamino-9,10-dihydro-1,5-dihydroxyl-9,10-dioxo-anthracene-2,6-disulfonic acid is obtained. Each step requires precise control of the reaction conditions to ensure the purity and yield of the product.

Chemical Reactions & Modifications

The way of chemical industry is related to the change of substances, and its reaction and modification are all key. Today there are 4,8-diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxo-anthracene-2,6-disulfonic acid. The chemical reaction requires detailed investigation of its conditions, temperature, pressure, catalyst and other factors, all of which can be controlled. To improve its performance, we need to find subtle ways. Or change the reaction path, or adjust the proportion of substances involved in the reaction. The modification of this compound can start from its structure and explore the characteristics of its bonds to achieve the purpose of optimizing performance. After repeated tests, the law of its reaction was observed, and the optimum change was sought, so that this compound could have better characteristics and play a greater role in many fields such as industry and scientific research.

Synonyms & Product Names

4,8-Diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxyanthracene-2,6-disulfonic acid, its synonymous name and the name of the commodity, are quite important in my chemical research.
I have heard of the ancient Fangjia, studying physical properties, and also emphasizing the distinction between names and truths. Today, the synonymous name of this compound can help us understand its essence from different perspectives, and the name of the commodity is related to its circulation and application in the world.
In my daily research, I often encounter many compounds, each with its own name. However, the name of the same meaning, like different keys, can open the door of different knowledge. As for the name of the product, it is like a logo, which attracts people in the forest of the market to find what they are looking for.
This 4,8-diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxy-anthracene-2,6-disulfonic acid must have its own unique properties, and its synonymous name and the name of the product are both ways to explore its mysteries. I should study it in detail, to understand its rationale, and make good use of its capabilities, so as to contribute to the chemical industry.

Safety & Operational Standards

4,8-Diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxyanthracene-2,6-disulfonic acid is of paramount importance as it relates to safety and operating standards.
Guanfus substance, its properties should be carefully observed. When storing, it is necessary to choose a dry, cool and ventilated place, away from fire and heat sources, in case of accidents. And it needs to be placed separately from oxidants, acids and other substances, and must not be mixed with storage, so as not to react and endanger safety.
When operating, there are also many regulations. Operators must undergo special training, be well versed in operating procedures, and abide by various requirements. When operating, wear protective gloves and goggles in front of suitable protective clothing to prevent this object from coming into contact with the body and harming health.
If it comes into contact with the skin accidentally, take off the contaminated clothing immediately, rinse with plenty of running water, and seek medical attention in time. If it enters the eye, rinse quickly with plenty of water, and seek medical attention. The operating site should be equipped with suitable fire equipment and leakage emergency treatment equipment, just in case.
This object is very important for safety. The operation and storage should be carried out according to the regulations, and there should be no slack. In this way, it can be safe and safe from disasters.

Application Area

4,8-diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxyanthracene-2,6-disulfonic acid This compound has its uses in various fields. In the dyeing and weaving industry, it can be used as a dye. Due to its special structure, it can make the fabric have a bright and stable color, and the dyed cloth will not fade for a long time. It is difficult to eliminate under sunlight and washing. In the field of scientific research, it can be used as a reagent for chemical analysis. With its characteristics, it can accurately identify the existence and content of certain substances. And it may also be useful in biomedical research, or it can be used to mark biomolecules and help explore the microscopic mysteries of living things. Looking at this compound, it has a wide range of uses and is of great value in both industrial and academic research. It is a key presence in the field of chemistry.

Research & Development

Taste the wonders of chemical industry, which is related to all things, especially in dyes. Today there are 4,8 - Diamino - 9,10 - Dihydro - 1,5 - Dihydroxy - 9,10 - Dioxoanthracene - 2,6 - Disulphonic Acid This material is the key to the study of dyes.
I have dedicated myself to studying, exploring the subtlety of its structure, analyzing the similarities and differences in its properties. Want to understand its effect in dyeing and weaving, study the method of technology, and hope to be innovative. Think about the experience of the past, test the needs of the present, and hope to use this material to open up new horizons.
I work day and night, observing the changes in its reaction, and testing its brilliance. Although it is difficult, I dare not be lazy. With this product, it will promote the progress of dyes, promote the development of the industry, live up to the heart of research, preserve the available methods for future generations, benefit the country and the people, and do my best for the prosperity of chemical industry.

Toxicity Research

Since modern times, chemical refinement has been advanced, and all kinds of new things have competed. Today there is a thing called 4,8 - Diamino - 9,10 - Dihydro - 1,5 - Dihydroxy - 9,10 - Dioxoanthracene - 2,6 - Disulphonic Acid, and the study of its toxicity is very important.
Yu et al. are chemical researchers, devoted to the study of toxicity. After repeated tests, observe its response to various things, and observe its effect on living things. This thing enters the body, or disturbs the ability of the viscera, and disrupts the order of qi and blood.
The study of toxicity is not done overnight. It must be done with rigorous methods and detailed evidence. Expect to explore its toxicity and know where it is harmful, so that when it is used by the world, it can avoid misfortune and save health, so that this chemical substance can be used by the world, rather than being inherited from the world.

Future Prospects

Guanfu 4,8-diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxo-anthracene-2,6-disulfonic acid is really the object of our dedicated research. At the moment, although it has been explored, the future prospects still exist.
My generation hopes that in the unfinished road, we can deepen the analysis of the properties of this substance, accurately grasp its reaction mechanism, and make it more delicate to use. Or it can expand its application in the field of medicine to cure more diseases; or in terms of materials, create new products with outstanding performance.
These visions, like shining stars, lead our scientific researchers to explore the path, move forward fearlessly, and study relentlessly. Looking forward to the future, we will see them shine, bring well-being to the world, achieve a brilliant career, and live up to our expectations for the future.

Frequently Asked Questions

What are the chemical properties of 4,8-diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxanthracene-2,6-disulfonic acid

Dihydroxyl - 8,2 - This substance is hydrophilic and can be soluble with water. It is often an active participant in chemical reactions, providing active hydrogen atoms for many reactions and promoting the reaction process.
Dioxy - 10,9 - Its properties are unique, often exist in specific compound structures, and have a great impact on the stability and reactivity of compounds. In some cases, it can act as an electron receptor to change the distribution of molecular electron clouds.
Difluoryl - 5,1 - has strong electronegativity. After introducing compounds, it significantly changes its physical and chemical properties, greatly increasing the polarity of compounds, affecting their solubility and reactivity. It is widely used in the field of organic synthesis.
Dioxy sulfur - 10,9 - This structure is common in sulfur-containing compounds and affects the redox properties of compounds. In some cases, it can be used as an intermediate in oxidation reactions and participate in many complex chemical reactions.
Dicarboxylic acid - 6,2 - is acidic and can neutralize with bases to form salts and water. Because it contains two carboxyl groups, it can participate in esterification reactions and react with alcohols to form esters under specific conditions, which is of great significance in the fields of organic synthesis and biochemistry. Many biological metabolic processes are related to it.

What are the application fields of 4,8 -diamino-9,10 -dihydro-1,5 -dihydroxy-9,10 -dioxanthracene-2,6 -disulfonic acid

4,8-Dihydroxy-9,10-dianthracene-1,5-diamino-9,10-dioxo-phenanthrene-2,6-dicarboxylic acid, this compound has applications in many fields.
In the field of medicine, with its unique chemical structure, it may exhibit specific biological activities. For example, some compounds containing hydroxyl groups, amino groups and carboxylic acid groups can interact with macromolecules such as proteins and enzymes in vivo. Dihydroxyl structures may participate in the formation of hydrogen bonds, affecting the binding of drugs to targets, and then exert antibacterial, anti-inflammatory, and anti-tumor effects. For example, some new anti-cancer drugs based on such structures are in the research stage.
In the field of materials science, diamino and dicarboxylic acids can be used as reaction check points for the construction of polymer. By rationally designing the polymerization reaction, materials with special properties can be prepared, such as high-strength and high-stability fibrous materials, which are used in aerospace, automobile manufacturing and other industries that require strict material properties. In addition, its conjugated dianthracene structure may endow the material with certain optical properties, which can be used to prepare organic Light Emitting Diodes (OLEDs), solar cells and other optoelectronic devices to enhance the absorption and conversion efficiency of light.
In the dye industry, the compound is rich in functional groups and conjugated systems, making it possible to have good chromophore properties. By adjusting the position and structure of the substituent, dyes of different colors and dyeing properties can be obtained for dyeing processes such as textiles and leather, and because of their structural stability, or they have good light resistance and washable fastness.

What is the preparation method of 4,8-diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxanthracene-2,6-disulfonic acid

The method of making dimercapto groups needs to be understood and used. Dimercapto groups are unique in nature and widely used, and their preparation is also related to all kinds of tricks.
To make dimercapto groups, it is often appropriate materials and follow a certain order. First take the appropriate raw materials, must check its purity and impurities, and the purity is good. Such as thiols, it can be used as a base material for making dimercapto groups.
In a clean vessel, take the raw materials, and add suitable reagents. The choice of this reagent is very important, and it is related to the direction and rate of the reaction. Such as alkaline reagents, it can promote the reaction.
Control at a suitable temperature. If the temperature is high, the reaction speed will be high, but if it is too high, it will easily cause side reactions; if the temperature is low, the reaction will be slow or difficult. Usually, according to the nature of the raw material and the reaction, the temperature should be set in a certain range, or in a water bath, or an oil bath, to stabilize the temperature.
When the reaction is in progress, it is advisable to stir it often. Stir the material evenly, and the reaction will be uniform without local bias. After the reaction is completed, the product can be separated by the method of separation. Or filter, or distillate, or extract, depending on the nature of the product and impurities.
After re-refining, remove the residual impurities and improve its purity, to obtain a high-purity two-mercapto product.
As for the production of disulfonic acid, By sulfonation, aromatic compounds are selected, and sulfuric acid, fuming sulfuric acid and other sulfonating agents are encountered. Under appropriate temperature and pressure, the sulfonyl group is added to the ring of aromatic hydrocarbons to form the sulfonic acid group.
During the reaction, temperature control and time control are also required to prevent the disadvantages of over-sulfonation. To be sulfonated, pure disulfonic acid is obtained by neutralizing, separating and refining. During neutralization, select the appropriate alkali agent and adjust its pH; separation removes insoluble impurities; refining removes trace amounts of impurities, so that the good product of disulfonic acid can be obtained.

What is the market prospect of 4,8-diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxanthracene-2,6-disulfonic acid?

Today, there are those who ask about the market prospects of dihydroxy, diamino, difluoro, thiobium dioxide and disulfonic acid. According to the theory of "Tiangong Kaiwu", everything is related to the needs of the world and the evolution of technology.
Dihydroxyl substances are widely used in the fields of chemical industry and medicine. In the chemical industry, they can be reaction raw materials and participate in various synthesis industries. Medicine, or as a key ingredient in pharmaceuticals, is related to the healing of diseases. In today's world, science and technology are changing with each passing day, and pharmaceutical and chemical industries are advancing vigorously. The need for dihydroxyl groups is expected to rise steadily.
Diamino groups are also useful in materials and biotechnology. Material manufacturing can enhance material properties; in the field of biotechnology, it may involve genetic engineering and protein research. With the material innovation and the prosperity of biotechnology, its market prospect is also considerable, and it is expected to expand into new territories.
Difluoro-based products are gaining importance in high-end materials and electronics industries. High-end materials want to have special properties, and difluoro-based is often the key addition; the electronics industry pursues fineness and efficiency, and difluoro-based is also indispensable. With the current rapid trend of the electronics industry and the heat of high-end material research and development, the market for difluoro-based products should have a broad field.
Sulfur-substituted barium is useful in chemical production and the preparation of specific materials. Although its use is not as wide as the previous ones, it is also necessary in specific industries. Chemical processes may rely on its participation in reactions, and the formation of specific materials may require its unique properties. With the development of related industries, its market will also remain or make small progress.
As for disulfonic acid, it is quite important in the chemical industry, daily chemical industry, etc. In the chemical industry, it is often a catalyst or reaction intermediate; it belongs to daily chemical industry, or it is related to product performance. With the scale and continuous development of the chemical and daily chemical industries, the market for disulfonic acid will also remain stable.
Overall, these numbers all respond to the development needs of different industries. Although each has its own characteristics, they all have promising market prospects due to the progress of the world and the expansion of the industry. They may either grow steadily or open up new avenues, depending on the changes in the industry and the innovation of technology.

Effects of 4,8-diamino-9,10-dihydro-1,5-dihydroxy-9,10-dioxanthracene-2,6-disulfonic acid on the environment

Nowadays, there are dihydroxy, diamino, difluoryl, dioxy sulfuric acid and other substances, and the environmental impact of the disulfonic acid involved cannot be ignored.
Disulfonic acid is active, and in the natural environment, its behavior is changeable. If it flows in water and soil, or changes the nature of the soil, it will cause acid-base imbalance and fertility loss. The microorganisms in the soil depend on the suitable environment to grow, and the entry of disulfonic acid may disturb their life and survival, damage the ecological cycle of the soil, and the growth of plants is also affected by it, or cause leaf yellow branches to wither and stunted development.
As for water flow, the dissolution of disulfonic acid can change the chemical quality of the water body. Aquatic species, such as fish, shrimp, mussels and shellfish, exist according to water, and changes in water quality endanger their lives. Or damage their ability to breathe and reproduce, population reproduction is blocked, and ecological balance is also destroyed.
And if disulfonic acid escapes in the atmosphere, through photochemical changes, it may become acid rain. Where acid rain falls, rocks and trees are destroyed, and ancient sites and cultural relics are also unavoidable. Trees suffer, leaves are damaged, branches are gradually withered; buildings suffer, bricks and stones are mottled, and structures are damaged.
From this perspective, the impact of disulfonic acid on the environment is related to water, soil, organisms, and the atmosphere. It is a serious disaster. The world should observe it carefully, take precautions, find proper methods to control its harm, and ensure the safety of the environment and ecological balance.