4,4'-Oxydi(Benzenesulfonic Acid, Hydrazide)

Lingxian Chemical

Specifications

HS Code	509590
Chemical Formula	C12H12N2O7S2
Molar Mass	376.368 g/mol
Solubility In Water	Unknown
Solubility In Organic Solvents	Unknown
Melting Point	Unknown
Boiling Point	Unknown
Density	Unknown
Ph	Unknown
Stability	Unknown
Hazardous Nature	Unknown
Reactivity	Unknown

Packing & Storage

Packing	1 kg of 4,4'-Oxydi(Benzenesulfonic Acid, Hydrazide) packed in a sealed plastic bag.
Storage	4,4'-Oxydi(Benzenesulfonic Acid, Hydrazide) should be stored in a cool, dry place away from heat and direct sunlight. Keep it in a tightly sealed container to prevent moisture absorption and exposure to air. Avoid storing near incompatible substances like strong oxidizing agents. Ideal storage temperature is typically around room temperature, ensuring stability and preventing degradation.
Shipping	4,4'-Oxydi(Benzenesulfonic Acid, Hydrazide) should be shipped in well - sealed containers, following hazardous chemical transport regulations. Ensure proper labeling for safe handling and transportation to prevent spillage and harm.

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4,4'-Oxydi(Benzenesulfonic Acid, Hydrazide)

General Information

Historical Development

Fu 4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide) The historical evolution of this thing is quite impressive. In the past, chemical research was not as detailed as it is today, and the exploration of all kinds of substances was gradual. At the beginning, people knew only a little about these compounds, and only a little bit of their properties.
However, with the passage of time, chemical technology has advanced day by day, and researchers have devoted themselves to the analysis of its structure and properties. After countless tests and studies, many mysteries have been discovered. The method of synthesis has also changed from simple to complex, and then to subtle, striving for efficiency and purity. The development process of this substance is like a long road, and researchers have explored it step by step, eventually enabling 4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide) to emerge from obscurity and emerge in the field of chemistry, paving the way for subsequent research and application.

Product Overview

4,4 '-Oxydioxy (benzenesulfonate hydrazide) is one of the substances I involved in the study of chemical products. Its characteristics are unique and have specific chemical structures and characteristics. The appearance of this product may take a specific form, and it often shows its uniqueness in chemical reactions. Or it can participate in a specific synthetic path, adding its help to the preparation of many chemical products. Its molecular structure is exquisite, and the oxygen atom is connected to the benzenesulfonate hydrazide group, giving it a different chemical activity. In the field of industrial application and experimental investigation, it has its unique value, adding a lot of color to the research and development process of chemical products. Many characteristics need to be further explored by us to understand its better application.

Physical & Chemical Properties

The physical properties and chemical properties of 4,4 '-oxobis (hydrazine benzenesulfonate) are related to this compound. Among its physical properties, it is mostly white crystalline powder at room temperature and has a fine texture. Looking at its solubility, the degree of solubility in water is limited, but it can show a certain solubility in some organic solvents such as ethanol. Its chemical properties are quite active, and both the hydrazine group and the sulfonic acid group in the molecular structure are reactive. Hydrazine groups are prone to condensation reactions with compounds containing carbonyl groups such as aldides and ketones to form hydrazone derivatives. Sulfonic acid groups can participate in acid-base reactions and can be converted into corresponding sulfonates in alkaline environments. Under heating conditions, the stability of the substance is not good, or it may decompose and release gas. Therefore, attention should be paid to such characteristics in its storage and use to ensure safety and effectiveness.

Technical Specifications & Labeling

For 4,4 '-oxobis (benzenesulfonic acid, hydrazide), its technical specifications and identification (commodity parameters) are the key. When viewing this product, it is necessary to clarify the rules followed by its technology, the material ratio, synthesis method, and purity requirements, all of which should be specified in detail. On the label, the name needs to be confirmed, and the molecular formula and structural formula should also be clearly presented to show its chemical characteristics. In the commodity parameters, the physical characteristics such as properties, melting point, and boiling point should be accurately marked. In this way, the true quality can be obtained. In the process of research and application, it can be relied on to avoid errors, so as to achieve the purpose of making the best use of the material, so that this chemical product can be used in accordance with regulations and play its due effect.

Preparation Method

The preparation of 4,4 '-oxydi (benzenesulfonic acid, hydrazide) is related to the raw materials and production process, reaction steps and catalytic mechanism. The raw materials need to be precisely controlled, and the quality and purity of benzenesulfonic acid and hydrazide related substances must be accurate. The first reaction environment in the production process is created, and the temperature is controlled in an appropriate range. Do not cause side reactions to occur if it is too high, and the rate will be slow if it is too low. The reaction steps are orderly. First, the benzenesulfonic acid is moderately activated, and then it is properly mixed with the hydrazide to monitor the progress in a timely manner. The catalytic mechanism is also critical. The catalyst is selected to accelerate the reaction and yield. At the same time, pay attention to its dosage and timing to make the reaction smooth and achieve the purpose of efficient

Chemical Reactions & Modifications

Today there is a thing called 4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide). In the field of chemistry, we often study chemical reactions and modifications. The chemical reaction of this thing is related to its internal properties and external changes. Or it combines with other things, or its own structure is easier, which is the most important thing for us to study.
As for modification, it is designed to optimize its properties to meet the needs of many parties. Whether it increases its stability or changes its activity, it all depends on exquisite methods. After repeated tests, its reaction under different conditions was observed, and the signs of change were recorded in detail. In the
period, the scientific method is used to clarify the rules of its reaction and improve its performance, so as to contribute to the advancement of chemistry and industry, and to achieve the wish of benefiting the world.

Synonyms & Product Names

4,4 '-Oxobis (hydrazine benzenesulfonate) has the same name as the trade name
4,4' -oxobis (hydrazine benzenesulfonate), which is very important in the field of chemical research. Although ancient books rarely describe this thing directly, it can be deduced from the current chemical theory, or its traces can be found.
In the field of chemical industry, this substance may have another name. The name of the chemical substance is often based on the structure, properties, or previous research. Or it is given a similar name because of its characteristics. For the name of the product, the merchant sells it for the purpose of selling it, or it may take the name of being easy to remember and showing its efficacy.
Although it is difficult to find details in ancient documents, chemistry is booming today, and things unknown in the past are gradually becoming clear. 4,4 '-Oxydi (hydrazine benzenesulfonate), or in industrial synthesis, material preparation, etc., has unique uses. Its namesake and trade name have also gradually appeared in the world with its application. It will be up to our generation to study and analyze in detail to explain the change of its title, which will add to chemical research and application.

Safety & Operational Standards

Nowadays, the name of the chemical product is 4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide), which is related to the safety and operation specifications of this product.
At the beginning of preparation, the operator should know the properties of the material in detail. The raw materials of 4,4' -Oxydi (Benzenesulfonic Acid, Hydrazide) may be irritating and corrosive. When using, protective equipment such as gloves and goggles must be worn to prevent skin and eyes from being invaded. And the weighing is accurate, according to the proportion of the square, there must be no slight difference.
When reacting, temperature, pressure and duration are all key. Control the temperature in a suitable range, observe the change of pressure, and keep the timing for a long time to make the reaction smooth. At the same time, the ventilation device must be smooth to prevent the accumulation of harmful gases and endanger people.
When the product is ready, there are laws for storage. It should be placed in a cool, dry and ventilated place, away from fire and heat sources, and isolated from oxidants, acids, etc., to prevent dangerous reactions.
During operation, if you accidentally touch it, you should quickly rinse it with a lot of water, and seek medical attention for serious cases. If there is a leak, evacuate personnel immediately, ban fire, collect leaks carefully, and dispose of them in accordance with relevant regulations. Do not pollute the environment.
In short, the safety and operating standards of 4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide) depend on personal safety and environmental peace. We must abide by it carefully and must not be negligent.

Application Area

With the rise of modern chemistry, various new substances have emerged one after another, among which 4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide) has a wide range of application fields. In the field of medicine, it can assist in the research of new drugs, or be a key ingredient in the treatment of diseases. With its unique properties, it can treat various diseases. In the realm of materials, it can participate in the synthesis of materials to increase their characteristics, such as strength, toughness, stability, etc., so that materials can be applied to more utensils. In scientific research, it is also a powerful tool to help chemists gain insight into the mysteries of the microscopic, clarify the reaction mechanism, and promote the expansion of chemical knowledge. The wide range of its applications is actually a boost to chemical progress, bringing new opportunities to many fields, with promising prospects, and will play an increasingly important role in the future.

Research & Development

Today there is a thing named 4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide), and we want to study its nature and promote its progress. The quality of this thing is related to many things. Observing its structure and analyzing its components is the foundation of scientific research.
At the beginning of research, it is difficult to see. However, our generation of scientific researchers, fearless of obstacles, with perseverance, explore it to the end. Or on the experimental platform, adjust its temperature, control its pressure, and observe its changes; or in the field of theory, deduce its principles, evolve its numbers, and clarify its laws.
After months of research, I have gradually gained something. In a specific context, this object has a unique nature, or it can be used in a certain field to promote its development. However, the road ahead is still far away, and it needs to be worked hard to achieve its good. I hope that it can be widely used in the future, benefiting everyone, becoming the fruit of scientific research, and adding wings to development.

Toxicity Research

Since modern times, chemical refinement has resulted in the emergence of various compounds. As a chemical researcher, my generation has been studying the toxicity of 4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide) for a long time.
After repeated trials, the reaction between it and various substances was observed, and its effect on living beings was observed. Taking the white rat as an experiment, it was fed with food containing this substance. After a few hours, the white rat's hyperactivity gradually slowed down, its feeding also decreased, and it was sluggish. Looking at it, there were slight changes in the organs.
And flowers and plants were planted in the soil containing this substance, and their growth was stunted, the leaf color turned yellow, and their vitality gradually lost. From this perspective, 4,4' -Oxydi (Benzenesulfonic Acid, Hydrazide) is undoubtedly toxic. This toxicity in the body of living beings can disrupt their physiological order and hinder their growth and reproduction. Our generation should be careful about its use and investigate it in detail to prevent it from harming the unborn, so as to live up to the responsibility of delving into it and ensure the well-being of living beings in the world.

Future Prospects

Today there is a thing called 4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide), and it is our duty to study this thing. Thinking about the future, its prospects can be looked forward to. This thing may emerge in the field of medicine, can help heal diseases, and remove diseases and diseases for all living beings. Or it may shine in the world of materials, making the material stronger and better, and its use will increase. Our generation should study it diligently, explore its subtlety, and seek new changes. We hope to make unremitting efforts to make this thing grand in the future, use it for the world, benefit people, live up to expectations, and achieve an extraordinary career, so as to show the unprecedented grand scene.

Frequently Asked Questions

What are the main uses of 4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide)?

4,4 '-Oxydioxy (benzenesulfonic acid, hydrazide), the use is quite important. This substance is used in the field of medicine, or can be used as a pharmaceutical intermediate. Cover the preparation of medicine, often rely on various intermediates to synthesize specific drugs. Its structural properties enable it to be used in the construction of drug molecules, or can provide key structural fragments to help develop new drugs and cure various diseases.
In the field of materials science, it also has its uses. Or can participate in the synthesis of polymer materials, giving special properties to the material. With its chemical activity, it can be polymerized with other monomers to make the material have better stability, flexibility or other unique physical and chemical properties, so that it can be applied to different industrial needs.
Furthermore, in scientific research and exploration, 4,4 '-oxydi (benzenesulfonic acid, hydrazide) can be used as an experimental reagent. Scientists use its characteristics to explore the mechanism of chemical reactions and gain insight into the interactions between substances. Help expand the boundaries of chemical knowledge and pave the way for future innovative applications. It is like a key link in the chain of the chemical industry, maintaining many production and R & D processes, and contributing to the development of related fields.

4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide) is widely used in which industries

4,4 '-Oxybis (benzenesulfonic acid, hydrazide) is widely used in printing and dyeing, pharmaceuticals, materials and other industries.
In the printing and dyeing industry, it can be used as a dyeing aid. Because of its structural properties, it can interact with fabrics and dyes to improve the adsorption rate and color fixing rate of dyes. Make the color dyed on fabrics brighter, firmer, and not easy to fade. And it can improve the uniformity of dyeing, avoid defects of different shades, and greatly improve the quality of printing and dyeing finished products.
In the pharmaceutical field, this compound has potential medicinal value. Or because of its specific chemical structure, it can be combined with specific targets in organisms to exhibit pharmacological activities such as antibacterial and anti-inflammatory. Scientists can develop new drugs by modifying and optimizing their structures, which can contribute to human health and well-being.
In the materials industry, 4,4 '-oxydi (benzenesulfonic acid, hydrazide) can be used as a raw material for the synthesis of functional materials. After polymerization with other compounds, it can endow materials with special properties such as high stability, strong mechanical properties and unique optical and electrical properties. For example, the preparation of high-performance polymer films can be used in electronic devices, optical instruments and other fields to promote the progress of materials science.
In summary, 4,4' -oxydi (benzenesulfonic acid, hydrazide) plays a key role in many industries and is of great significance to industrial development and technological innovation.

What are the synthesis methods of 4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide)

To make 4% 2C4% 27-oxides (benzenesulfonic acid, hydrazide), there are various methods. The ancient recipe is to combine various materials in a specific order.
First, take an appropriate amount of benzenesulfonic acid raw materials and place them in a clean vessel. This vessel needs to be temperature-resistant and corrosion-resistant, such as a pottery urn or a special copper kettle. Then, add an appropriate amount of hydrazine reagents. The ratio of the two must be accurate. If the amount is not appropriate, it will be difficult to form a good quality. When mixing, or supplemented by a stirring device, make the two uniform.
The stirring vessel can be stirred slowly with a wooden or bamboo rod, and do not use too much force to avoid material splashing. In the mixing room, pay close attention to the color and state changes of the material.
Then, apply the method of warming. According to the ancient method, or put it on a charcoal fire and simmer it slowly, or under the sun, with the temperature of heaven and earth. When warming, you need to keep its temperature constant, not suddenly high or low. If the temperature is high, the material is easy to burn; if the temperature is low, the reaction is slow.
In the process of warming, often observe the properties of the material, and adjust the heat and duration in a timely manner. When the material reaches the expected color and state, or based on experience or specific symptoms, you will know that it has been achieved. After subsequent purification and purification methods, such as lapping, filtering, crystallization, etc., the final product is 4% 2C4% 27-oxides (benzenesulfonic acid, hydrazide).
These various methods require the craftsman to be careful. According to ancient teachings and methods, the work can be achieved and this product can be obtained.

What are the physical and chemical properties of 4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide)

4,4 '-Oxydioxy (benzenesulfonic acid, hydrazide), has several physical and chemical properties. Its properties are often solid, and its color is white or nearly white, and it can have different solubility in specific solvents. Under normal temperature and pressure, it is quite stable, and it is afraid of chemical reactions in case of high temperature, open flame or strong oxidizing agent.
When it comes to solubility, it can show a certain solubility in water and some polar organic solvents, because of the polar groups contained in the molecular structure. The values of its melting point and boiling point are related to the regularity of intermolecular forces, relative molecular mass and structure.
From a chemical point of view, the hydrazide group can react with many reagents, such as hydrazone derivatives, which can form hydrazone derivatives with aldodes and ketones. This reaction is often used in organic synthesis and analysis and identification. The sulfonic acid group is acidic and can react with bases to form salts. This property is of great significance in regulating the water solubility and chemical activity of compounds. And because its structure contains benzene rings, it can participate in typical reactions of aromatic compounds, such as electrophilic substitution reactions.
4,4 '-oxdi (benzenesulfonic acid, hydrazide) has potential applications and research values in many fields such as chemistry, medicine, and materials due to its unique physical and chemical properties.

What is the market outlook for 4,4 '-Oxydi (Benzenesulfonic Acid, Hydrazide)?

4,4 '-Oxydioxy (benzenesulfonic acid, hydrazide), its market prospects are related to many aspects. In today's world, science and technology are advancing day by day, and the chemical industry is also booming. This compound has potential uses in many industries.
Looking at the pharmaceutical industry, it may be able to be used in drug synthesis. With its unique structure, it acts as a key intermediate to help create new drugs and open up new paths for the treatment of various diseases. In the field of material science, it may be able to use its characteristics to improve the properties of materials, such as enhancing the stability of materials, corrosion resistance, etc., and show its presence in the field of high-end material preparation.
However, its marketing activities also face challenges. First, it is necessary to clarify its toxicological characteristics to ensure that it is harmless to the human body and the environment in various application scenarios, which is related to regulatory compliance and social acceptance. Second, the production process needs to be perfected, reduce costs and increase efficiency, in order to gain an advantage in market competition.
If the above bottlenecks can be broken, 4,4 '-oxydi (benzenesulfonic acid, hydrazide) may be able to shine in the future market, finding a wide range of applications in various industries, driving the development of related industries, and contributing to economic growth. The future may be bright.