4,4'-Oxydibenzenesulfonic Acid Dihydrazide

Lingxian Chemical

Specifications

HS Code	838906
Chemical Formula	C12H14N4O7S2
Molar Mass	390.39 g/mol
Appearance	white to off - white solid
Solubility In Water	moderate solubility in polar solvents like water
Melting Point	decomposes rather than has a distinct melting point
Ph In Solution	near - neutral, depends on concentration
Stability	stable under normal conditions, may decompose on heating or in contact with strong oxidizing agents
Odor	odorless
Reactivity	reacts with aldehydes and ketones to form hydrazone derivatives

Packing & Storage

Packing	500g of 4,4'-Oxydibenzenesulfonic Acid Dihydrazide in a sealed plastic - bag packaging.
Storage	4,4'-Oxydibenzenesulfonic Acid Dihydrazide should be stored in a cool, dry place, away from heat sources and direct sunlight. Keep it in a tightly closed container to prevent moisture absorption. Store separately from incompatible substances like strong oxidizers. This helps maintain its stability and prevent potential reactions or degradation.
Shipping	4,4'-Oxydibenzenesulfonic Acid Dihydrazide is shipped in sealed, corrosion - resistant containers. These are carefully packed to prevent damage. Shipment follows strict regulations for handling chemical substances to ensure safety during transit.

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4,4'-Oxydibenzenesulfonic Acid Dihydrazide

General Information

Historical Development

4,4 '-Oxydibenzenesulfonate dihydrazide was little known in the academic community at the beginning. At the beginning, only a few people who specialized in chemistry paid attention to it. Research at that time was like searching for beads in the dark, progress was slow.
Years passed, and with the advancement of chemical exploration, many researchers threw themselves into it. In the laboratory, repeated trials, or improved the process, or explored the characteristics. After countless failures, it has not been discouraged.
In recent times, technological innovation has deepened the understanding of 4,4' -oxydibenzenesulfonate dihydrazide. It has emerged in the field of materials and its use is increasing day by day. From the initial ignorant exploration to the increasing application today, the development process of this compound has been like a sea turning into a mulberry field, witnessing the unremitting progress and brilliant achievements of chemical research.

Product Overview

4,4 '-Oxydibenzenesulfonic acid dihydrazide is a chemical that I have studied. The appearance of this substance is often white powder, and the texture is fine. In its chemical structure, it has a unique connection method, bridging dibenzenesulfonic acid groups by oxygen atoms, and ingeniously combining with dihydrazide parts.
Its physical and chemical properties are particularly critical. The melting point is stable, and it begins to melt at a specific temperature. This property can be used as an important indicator in purification and application. And the solubility is also characteristic. It is soluble in some organic solvents, but its solubility in water is limited, which is related to its dispersion and reactivity in different reaction systems and application scenarios.
In the way of application, 4,4' -oxydibenzenesulfonic acid dihydrazide has extraordinary potential. In the field of material synthesis, it can be used as a key intermediate to assist in the creation of new polymers or functional materials, and its special structure endows materials with unique properties, such as enhancing material stability and improving mechanical properties. This is a must-see in chemical research and industrial production.

Physical & Chemical Properties

4,4 '-Oxydibenzenesulfonic acid dihydrazide is the key to its physical and chemical properties. Looking at its physical properties, it often takes a specific form at room temperature, or is in the shape of a powder, and its color is also characteristic, or white or white, fine texture. Its solubility is different in various solvents, and it can be moderately dissolved in some organic solvents. The dissolution in water also needs to be carefully observed.
On its chemical properties, it has specific reactivity. Because its structure contains specific functional groups, it can participate in many chemical reactions, or condensate with some reagents to form new compounds. Its stability cannot be ignored. Under different environmental conditions, such as temperature, humidity, light, etc., the chemical properties may change. Exploring the physical and chemical properties of this substance can provide a solid foundation for its application in various fields.

Technical Specifications & Labeling

For 4,4 '-oxo-dibenzenesulfonate dihydrazide, its process specifications and identification (product parameters) are the key. The process of this product needs to follow precise procedures. The material selection should be carefully selected, and the proportion must be accurate. The reaction conditions should be strictly set, and the temperature and duration must meet the standards. As for the logo, the product name should be clear, and the name of 4,4' -oxo-dibenzenesulfonate dihydrazide should not be ambiguous. The appearance description should be accurate, and the color state and other characteristics should be detailed. And key parameters, such as purity geometry, and the number of impurities, should be marked so that the user can understand its quality. The precision of the process and the identification are accurate, so as to ensure that this product meets the needs and is popular in all industries.

Preparation Method

The preparation method of 4,4 '-oxo-dibenzenesulfonate dihydrazide is related to the raw materials and production process, reaction steps and catalytic mechanism.
To prepare this product, prepare the raw materials first. Based on benzenesulfonic acid compounds, take an appropriate amount of reactants according to precise proportions. The production process also needs to be rigorous. In a suitable reaction vessel, adjust the temperature to the appropriate temperature and control the reaction time.
At the beginning of the reaction step, the benzenesulfonic acid derivative is mixed with a specific reagent in the solvent, and the temperature is raised to initiate a preliminary reaction to build the infrastructure. Then, fine-tune the conditions according to the reaction process, or add additives, so that the reaction can advance to the formation of the target product.
In terms of catalytic mechanism, a high-efficiency catalyst is selected, which can reduce the activation energy of the reaction, accelerate the reaction, and improve the yield. And it can regulate the reaction path and increase the purity of the product. The whole preparation process must strictly follow the procedures to ensure the smooth reaction and obtain high-quality 4,4 '-oxydibenzenesulfonate dihydrazide.

Chemical Reactions & Modifications

4,4 '-Dihydroxydiphenylsulfone dihydrazide, the chemical reaction and modification of this substance are quite important in my chemical research.
To observe its chemical reaction, its molecular structure contains active groups, which can react with many reagents. If it is co-heated with aldose, it can form hydrazone derivatives, which should or can be used for the preparation of fine chemicals.
As for modification, its performance can be optimized by specific chemical modification. Treatment with specific reagents may improve its solubility and make it easier to operate in organic synthesis; or change its thermal stability, so that it can still exist stably in high temperature environments.
Such modification should be investigated and modified, or pave the way for the research and development of new materials, hoping to further study and achieve more results in the future.

Synonyms & Product Names

Today there is a thing called 4,4 '-Oxydibenzenesulfonic Acid Dihydrazide. It is also called by him, which is synonymous with the name of the commodity. This substance, in the field of my chemical research, has attracted much attention.
The name of the husband is synonymous, so its nature, shape and quality are clear. Although the names are different, they refer to one. As for the name of the commodity, it involves various commercial affairs, and is made by other families.
When we study this thing, we must study the names of various synonyms to understand its essence; we also investigate the name of the commodity to clarify its market situation. Hope to explore, clarify its characteristics, and develop its effectiveness. For the advancement of chemistry, do our best.

Safety & Operational Standards

Safety and Operating Specifications for 4,4 '-Oxydibenzenesulfonate Dihydrazide
F 4,4' -Oxydibenzenesulfonate Dihydrazide is also the object of chemical research. In order to clarify its safety and operating specifications, it is necessary to know its characteristics.
This material is special, and it is necessary to abide by the procedures during operation. When handling, the first priority is to keep the environment clean, so as not to be disturbed by dust and cause it to change. And the operator should wear protective equipment, such as gloves, eyepieces, and masks, to prevent it from touching the skin and entering the eye. Covering this material may be irritating, slightly careless, or cause injury.
As for the method of storage, choose a dry and cool place, avoid water and fire, and stay away from heat sources. Due to its nature or due to changes in temperature and humidity, there are accidents, so be careful. Storage devices should also be carefully selected to prevent leakage.
If there is accidental touch or aspiration during operation, don't panic. If you accidentally touch the skin, rinse it with water immediately, and then wash it with soap; if it enters the eye, use water to buffer it urgently, and seek medical attention quickly. If you aspire by mistake, leave the place quickly and go to a place with fresh air. If you feel unwell, you should also seek medical attention urgently.
Furthermore, the waste of the experiment should not be disposed of at will. It must be classified and stored according to regulations, and handled in an environmentally friendly manner to avoid polluting the environment.
In short, the handling of 4,4 '-oxo-dibenzene sulfonate dihydrazide, whether it is investigated or used, is based on safety, and it is done according to the operating specifications. Only in order to avoid accidents and achieve smooth research.

Application Area

4,4 '-Oxydibenzenesulfonic acid dihydrazide has specific properties and can be used in various application fields. In the field of medicine, or can assist in the research of new drugs, with its structure and characteristics, to explore ways to cure diseases. In materials science, or to give new materials, increase their toughness, corrosion resistance, etc., used in buildings, equipment, etc. In chemical synthesis, it can be a key raw material. Through exquisite reactions, a variety of compounds can be produced and the scope of chemical products can be expanded. And in the path of scientific research and exploration, it may be the key to enlightening new research directions, attracting researchers to study in depth, uncovering chemical mysteries, and contributing to progress in various fields. Its wide application and huge potential are waiting for our generation to explore in depth, so as to develop its brilliant ability.

Research & Development

In recent years, Yu devoted himself to the research of 4,4 '-Oxydibenzenesulfonic Acid Dihydrazide. At the beginning, explore its physicochemical properties, analyze its molecular structure, and understand its reaction rules.
Study its synthesis method, try various paths, and seek a high-efficiency and pure recipe. Or adjust the temperature and pressure, or select the right catalyst, in order to obtain the best yield. The process is difficult, and I have suffered many failures, but I have not been discouraged.
Now I have achieved success, the yield is gradually increasing, and the purity is also good. However, I did not dare to be complacent, thinking about the wide application of this substance. Or in medicine, it can help the treatment of diseases; or in materials, it can increase the difference in its properties.
In the future, we should make persistent efforts to expand the field of its application, with the hope of using this product as the foundation to promote the progress of the industry, and do our best for the cause of research and development.

Toxicity Research

The toxicity of 4,4 '-Oxydibenzenesulfonic Acid Dihydrazide has gradually become apparent in various experiments. After careful inspection, animals have been used as samples to observe their appearance after ingestion or exposure to this agent. It is seen that the tested animals have physiological abnormalities, such as slow movement, reduced food intake, and even signs of body lesions. To determine the exact degree of toxicity, it is necessary to apply multiple methods. Not only the short-term effects, but also the long-term effects should be investigated. And when considering the changes in the body under different doses, everything from biochemical indicators to behavioral habits needs to be carefully investigated. Environmental factors and individual differences must also be taken into account in order to obtain a comprehensive toxicity conclusion, which will provide a solid basis for future use of this substance or prevention of its harm.

Future Prospects

Today there is a thing named 4,4 '-Oxydibenzenesulfonic Acid Dihydrazide. Our generation is a chemical researcher, and we look forward to its future and have high hopes. This thing has unique properties, or in the field of materials, it has emerged. It can be used as a new type of polymerized monomer to make a high-strength and tough material, which can be used in aerospace construction to increase its quality and reduce its weight. Or in the road of medical research, make achievements, help the medicine to be delivered accurately, and heal the sinking disease. Although the road ahead is long, we uphold the spirit of research, explore its potential, and look forward to the future, shine brightly, be used by the world, benefit all beings, and open up unprecedented territory.

Frequently Asked Questions

What are the main uses -Oxydibenzenesulfonic Acid Dihydrazide?

4,4 '-Oxydibenzenesulfonate dihydrazide is a kind of organic compound. Its main use is quite extensive.
First, in the field of materials science, it is often used as a cross-linking agent. Because its molecular structure contains dihydrazide groups, it can cross-link with many polymer molecules, thereby improving the mechanical properties of the material. For example, when synthesizing polymer materials with special properties, adding this substance can significantly improve the strength, heat resistance and stability of the material, just like strengthening the structure of a building with mortise and tenon, making it more durable.
Second, it also has potential value in medical research. Due to its special chemical structure, it may participate in the design and synthesis of certain drug molecules. As part of the active group, it endows the drug with specific pharmacological activity, which is like injecting unique efficacy into the drug, helping it act more accurately on the target, and opening up new paths for the treatment of diseases.
Third, in the field of analytical chemistry, it can be used as an analytical reagent. With its characteristics of specific reactions with specific substances, the qualitative and quantitative analysis of certain compounds can be realized, which is like a precise scale to measure the content and properties of substances, and plays an important role in chemical analysis.

In which areas -Oxydibenzenesulfonic Acid Dihydrazide is widely used

4,4 '-Oxydibenzenesulfonate dihydrazide, which is widely used in many fields. In the field of materials science, it is often used as a cross-linking agent. Due to its unique chemical structure, it can interact with a variety of polymers to greatly improve the mechanical properties of materials, such as enhancing the strength and toughness of materials, making materials more solid and durable. It is widely used in the manufacture of high-performance plastic products and composites.
It can also be seen in the field of pharmaceutical chemistry. It can be used as an intermediate in drug synthesis. With its specific functional groups, it participates in the construction of complex drug molecules, helping to develop innovative drugs with specific curative effects and contributing to the progress of medicine.
In the field of surfactants, 4,4 '-oxydiphenylsulfonate dihydrazide can optimize the performance of surfactants. It can adjust the hydrophilic and lipophilic balance of surfactants, enhance their emulsification, dispersion and wetting ability, and play a key role in the manufacture of detergents, cosmetics and other products, making the product function better.
In the field of analytical chemistry, it may serve as an analytical reagent. By virtue of its selective reaction with specific substances, it realizes qualitative and quantitative analysis of target substances, providing an effective tool for scientific research and quality inspection work, and helps to accurately determine and analyze various sample components. It can be seen that 4,4' -oxydiphenylsulfonate dihydrazide has important value and wide use in many fields.

What are the physical properties -Oxydibenzenesulfonic Acid Dihydrazide?

The physical properties of 4,4 '-oxo-diphenylsulfonic acid dihydrazide are as follows.
Looking at its appearance, it is often in the form of white to light yellow powder. This state is easy to store and use, and it has good dispersibility. It can be evenly distributed in many reaction systems, which is conducive to the progress of the reaction.
When it comes to solubility, the solubility of this substance in water is limited, but it shows good solubility in some polar organic solvents, such as dimethyl sulfoxide (DMSO), N, N-dimethylformamide (DMF). This property makes it possible to process and react with suitable solvent systems in the fields of organic synthesis and material preparation.
Its melting point is also a key physical property. It has been determined that 4,4 '-oxo-dibenzenesulfonate dihydrazide has a specific melting point value. This melting point temperature marks the transition from solid to liquid state. During the material processing process, knowing the melting point helps to control the heating temperature and avoid the deterioration of the material due to excessive heating.
In addition, the density of this material is also one of its physical properties. The specific density gives it specific settling and dispersion behaviors in different media, which has important reference value for the formulation design and process optimization of related products. Its stability is also worthy of attention. Under normal storage conditions, it can maintain a relatively stable chemical structure and physical form. However, if exposed to extreme environments such as high temperature, high humidity, or strong light, certain physical or chemical changes may occur.

What are the chemical properties -Oxydibenzenesulfonic Acid Dihydrazide?

4,4 '-Oxydibenzenesulfonate dihydrazide, this is an organic compound. Its chemical properties are unique and valuable for investigation.
Looking at its structure, it contains a sulfonic acid dihydrazide group, which endows it with several properties. In terms of physical properties, it is usually in a solid form and has certain solubility in specific solvents.
In terms of chemical activity, the hydrazide group in the sulfonic acid dihydrazide part has high reactivity and can react with many compounds. If it can react with aldehyde and ketone compounds to form hydrazone derivatives, this reaction is of great significance in the field of organic synthesis and can be used to construct complex organic molecular structures.
At the same time, its sulfonic acid group makes the compound have a certain hydrophilicity. Under appropriate conditions, sulfonic acid groups can be ionized, which in turn affects the behavior of compounds in solution, such as participating in ion exchange reactions. In addition, due to the presence of oxo-diphenyl structures in the molecule, it is endowed with certain rigidity and conjugate properties, which may affect its optical properties, such as absorption or emission properties at specific wavelengths.
This compound may have potential applications in the fields of materials science, medicinal chemistry, etc. In the field of materials, it may be used to prepare functional materials, and specific functional groups can be introduced through their reactivity to meet different needs; in medicinal chemistry, its unique structure may provide ideas for the design of new drugs, and use its reactive properties to construct molecules with specific biological activities.

What are the synthesis methods -Oxydibenzenesulfonic Acid Dihydrazide?

In order to prepare 4% 2C4% 27 '-oxydiphenylsulfonic acid dihydrazide (4,4' -Oxydibenzenesulfonic Acid Dihydrazide), there are many methods, and the main one is selected.
First, 4,4 '-dihydroxydiphenyl ether can be sulfonated with fuming sulfuric acid to obtain 4,4' -oxydiphenylsulfonic acid, and then reacted with hydrazine. This way, attention should be paid to the control of the reaction conditions. When sulfonating, the concentration, dosage, reaction temperature and time of fuming sulfuric acid are all crucial. If the concentration of sulfuric acid is too high, the reaction may be too violent, resulting in a cluster of side reactions; if the concentration is too low, the sulfonation efficiency is not good. The reaction temperature also needs to be accurately grasped, usually within a suitable temperature range, the ideal yield can be obtained. When reacting with hydrazine, the choice of solvent, the ratio of reactants, and the pH of the reaction environment all affect the purity and yield of the product.
Second, 4,4 '-dichlorodiphenyl ether is used as the starting material, and the target product is obtained by sulfonation first, and then substitution reaction with hydrazine. In this process, the sulfonation step is slightly different from the previous method. Due to the difference in the structure of the starting material, the reaction conditions also need to be fine-tuned. During the substitution reaction, the activity of hydrazine is higher, the reaction rate is faster, but it is also easy to cause side reactions, so the reaction conditions need to be carefully controlled. If the reaction temperature is moderate, if it is too high, the product will be easy to decompose or other side reactions will occur. If it is too low, the reaction rate will be slow, and the time-consuming
The method of preparing 4,4 '-oxydibenzenesulfonate dihydrazide has its own advantages and disadvantages. It is necessary to choose the appropriate one according to the actual situation, such as the availability of raw materials, cost considerations, requirements for product purity and yield, etc., and carefully adjust the reaction conditions to achieve satisfactory results.