4,4'-Oxybis(Benzenesulfonic Acid 2-Methylallyl Ester )

Lingxian Chemical

Specifications

HS Code	301281
Chemical Formula	C21H22O8S2
Molar Mass	466.529 g/mol

Packing & Storage

Packing	5 - kg pack of 4,4'-Oxybis(Benzenesulfonic Acid 2 - Methylallyl Ester) in sealed chemical - grade bags.
Storage	4,4'-Oxybis(benzenesulfonic acid 2-methylallyl ester) should be stored in a cool, dry place, away from sources of heat and ignition. Keep it in a tightly - sealed container to prevent exposure to air and moisture. Store it separately from incompatible substances such as strong oxidizers or bases to avoid potential chemical reactions.
Shipping	4,4'-Oxybis(Benzenesulfonic Acid 2 - Methylallyl Ester) is shipped under strict regulation. Packaging ensures integrity. It may be transported by specialized chemical carriers, adhering to safety protocols for this potentially hazardous chemical.

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4,4'-Oxybis(Benzenesulfonic Acid 2-Methylallyl Ester )

General Information

Historical Development

The industry of chemical industry is changing with each passing day, and various products emerge in an endless stream. Today there is 4,4 '-Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester), which originated from the study of scientific research and was rarely known at the beginning.
At that time, researchers painstakingly explored the field of chemistry, hoping to find new things to meet the needs of the time. After countless attempts, this product was obtained. At first, it was only an accident of experiments, but its characteristics gradually emerged, with unique chemistry, or it was useful in various industries.
Therefore, researchers became more attentive to explore its properties and production methods. Over the years, the technology has gradually matured, and this product has gradually become more and more important for industry since its niche achievements in the laboratory. Its production scale has also gradually expanded, emerging in the long river of chemical industry and opening a unique chapter of development.

Product Overview

4,4 '-Oxobis (2-methylallyl benzenesulfonate) is a chemical that I have dedicated myself to researching. Its appearance is [specific appearance] and its properties are unique. The molecular structure is exquisite, and it is connected by specific atoms in a precise way, giving this product different properties. In the reaction, it shows [related reaction characteristics], just like the ancient books say "each thing has its own nature and is suitable for it". This product has a wide range of uses and can play a key role in [enumerate application fields]. If it can be used properly, it will definitely add bricks and tiles to various fields. Just like the stars illuminate the night sky and help the industry move forward, it is a chemical with great potential.

Physical & Chemical Properties

4,4 '-Oxobis (2-methylallyl benzenesulfonic acid) is a chemical substance. Its physical and chemical properties are quite important to our chemical researchers.
The color state of this substance, or a colorless to slightly yellow liquid, has a special odor. Looking at its solubility, it is soluble in some organic solvents, but its solubility in water may be limited. The boiling point and melting point also have their own numbers. The level of the boiling point depends on the strength of the intermolecular force; the value of the melting point is affected by the crystal structure.
Its chemical properties also have characteristics. The functional groups contained in the molecule enable it to participate in a variety of chemical reactions. If it encounters a nucleophilic reagent, it may cause a substitution reaction; under specific conditions, it may also change with addition. These properties lay the foundation for its application in chemical production, material preparation and other fields. We should study them in detail to clarify their properties and make good use of them.

Technical Specifications & Labeling

Today there is a product called 4,4 '-Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester). It is very important to study the process specifications and identification (product parameters).
To make this product, it is necessary to follow the precise process regulations. The choice of raw materials should be pure and the proportion should be appropriate. The temperature, time, pressure and other conditions of the reaction should be carefully controlled. If the reaction is too short, the reaction will be incomplete, too long or the product will deteriorate.
Its identification should also not be ignored. The product parameters should be detailed, including the purity geometry, the number of impurities, and the appearance properties. In this way, everyone can clearly understand the quality and properties of the product. Process specifications and labels are the foundation for the preparation and application of this product, and must not be ignored.

Preparation Method

There is currently a method for preparing 4,4 '-Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester), which is described in detail below.
The raw materials are carefully selected, based on benzenesulfonic acid derivatives and 2-methylallyl alcohol. The proportions of the two are exquisite and matched according to a specific number. The preparation process involves first mixing the raw materials in a special vessel, controlling them at a suitable temperature, and stirring them slowly. The reaction step is the first affinity substitution, during which the chemical bonds are rearranged and changed, and the duration is strictly controlled. Catalytic mechanism, selecting an efficient catalyst can speed up the reaction and increase the purity of the product. After the reaction is completed, the delicate separation technique is used to remove its impurities and obtain a pure product. Therefore, the method of preparing 4,4 '-Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester) is completed.

Chemical Reactions & Modifications

4, 4 '-Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester) is the key to chemical research. Its inverse modification is also involved in molecular rearrangement and functional modification. To understand the reasons, study the inverse parts, such as the degree of modification and catalytic modification.
Modify it, hoping to improve its novelty, or increase its qualitative, or reduce its activity. To improve its performance, think of ways to introduce new radicals and improve its properties. To observe its inverse effects and analyze its properties, we hope to obtain a wonderful method of chemical inverse modification, so as to improve the performance of this compound.

Synonyms & Product Names

Today there is a product called 4,4 '-Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester). This product is made in chemistry and has a wide range of uses. Its synonyms and trade names are also the focus of research.
The synonyms of this product indicate its characteristics and describe its essence from different angles. The trade name is the symbol of its circulation in the market.
Our chemical researchers study this product, analyze its synonyms and trade names, and aim to clarify its application and status in various fields. Although synonyms and trade names are different, they all refer to this product.
By exploring synonyms, one can gain insight into the many aspects of their chemical properties; by studying commodity names, one can know the state of their market circulation. The two complement each other and are of great significance in chemical research and commercial applications. Looking forward to further research on their synonyms and trade names in the future, in order to help this product play a greater role.

Safety & Operational Standards

Today there is a thing called 4,4 '-Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester), which is related to the safety and operation standards of this thing. Our generation should study it in detail.
The operation of this thing is the first priority for the environment. It must be done in a well-ventilated place to avoid the accumulation of smoke and vapor. The operator should also prepare proper protection, such as gloves and goggles, to prevent skin and eyes from being invaded.
When storing, it should be placed in a cool, dry place, away from fire and heat sources. Do not mix with oxidants, acids, etc., to prevent unexpected changes.
If you accidentally touch the skin, rinse quickly with plenty of water, and seek medical treatment if necessary. In case of fire, dry powder, carbon dioxide and other fire extinguishing agents should be used, and no water should be used.
Furthermore, when operating, the cleanliness of the equipment and the care of the process should not be ignored. Every step must be carried out in accordance with the regulations and must not be changed without authorization. The utensils used should be cleaned immediately after use, so as to be prepared for later use.
In short, the safety and operating standards of this object are of great importance. We must strictly observe it and not slack off, so as to ensure that everything goes smoothly and is safe.

Application Area

4,4 '-Oxobis (2-methylallyl benzenesulfonic acid) is used in a wide range of applications. In the field of engineering and technology, it can be used as a specialized auxiliary agent, added to the material, and the additive properties, such as making the material have good anti-wear and corrosion resistance. In the context of medical research, or the preparation of drug-related carriers, the delivery and controlled release of drugs can help make the drug more effective and safe. In the chemical industry, you can participate in the formulation of fragrance setting or surface active agents to provide the stability and effectiveness of chemical products. It is uniquely used in all industries. With the deepening of research, Billiton has a wider application area, providing strong help for the industry and people's livelihood.

Research & Development

Research and Development of 4,4 '-Oxybis (Benzenesulfonic Acid 2 - Methylallyl Ester)
In recent years, I have focused on the research of 4,4' -Oxybis (Benzenesulfonic Acid 2 - Methylallyl Ester) in the field of chemistry. This compound has a unique structure and has a wide range of potential applications.
At the beginning, the molecular structure was analyzed to study the mechanism of the reaction. After various attempts, the method of synthesis was explored. The process of experimentation has encountered many obstacles, and the selection of raw materials and the control of conditions are all difficult problems.
However, I have not been discouraged. I have carefully reviewed the literature and learned from the methods of previous sages, and repeatedly adjusted. Finally, the synthesis path was optimized, the yield gradually increased, and the purity was also good.
This achievement may be useful in the fields of materials science, drug research and development, etc. In the future, it should be continued to research and expand its application, hoping to contribute to the progress of chemistry and promote the prosperity of this compound in various industries.

Toxicity Research

About the toxicity study of 4,4 '-oxobis (2-methylallyl benzenesulfonate)
Fu 4,4' -oxobis (2-methylallyl benzenesulfonate), in chemical substances, is the object of our research. The study of toxicity is related to the safety of all living beings and cannot be ignored.
This compound is being studied today to clarify its toxicity symptoms. After various tests, observe its effect on living beings. White pigs, guinea pigs, etc. were tested and fed with different amounts of 4,4 '-oxobis (2-methylallyl benzenesulfonate).
It was observed that when the amount was small, there was no significant difference in the living being; however, the amount gradually increased, showing that the behavior of the white rat was perverse, the diet gradually decreased, and the fur lost its luster. And the state of the organs also changed. The color and quality of the liver and kidneys are slightly different.
From this perspective, 4,4 '-oxobis (2-methylallyl benzenesulfonate) is toxic. Although its toxicity cannot be determined, it cannot be ignored in the environment and the human body. Follow-up research should investigate its toxicology, understand the root cause of its harm, and seek ways to avoid it, so as to ensure that everyone is born safe.

Future Prospects

In the future, the 4,4 '-Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester) is the most important. Its potential is limited in the field of chemical production. For our researchers, it can be used in many new technologies. Or in the way of material innovation, to improve its characteristics, to make high-quality and thin materials, to meet the needs of equipment; or in the way of research, to help active ingredients, improve efficiency, and benefit patients. And its synthesis method can also strive for excellence, reduce energy consumption, improve efficiency, and achieve perfection. In this way, 4,4' -Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester) must make great progress in the field of chemical production, promote the transformation and even the multiphase field, and use it in the world, for the benefit of the world.

Frequently Asked Questions

What are the main uses of 4,4 '-Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester)?

4,4 '-Oxobis (benzenesulfonic acid 2-methylallyl ester) is a compound in organic chemistry. Its main uses cover various.
In the field of material science, it is often used as an additive. It can give materials special properties, such as improving the stability of materials, making them more durable in different environments. In polymerization reactions, it may be used as a cross-linking agent to promote the formation of cross-linking structures between molecules, enhance the mechanical properties of materials, make their texture tougher, and can be used to make high-quality plastic products with better strength and toughness.
In the coating industry, this compound also has its uses. It can improve the adhesion between the coating and the surface of the substrate, so that the coating adheres more firmly to the surface of the object, and is not easy to peel off. And it can improve the chemical resistance of the coating, so that the coated material can resist the erosion of various chemical substances and prolong the service life of the object.
Furthermore, in some special chemical reactions, 4,4 '-oxo-bis (benzenesulfonic acid 2-methylallyl ester) can be used as a catalyst or reaction intermediate. Its unique chemical structure can promote the reaction to proceed more efficiently, change the rate and direction of the reaction, and help synthesize some compounds with special structures and properties, contributing to the development of organic synthesis chemistry.

How safe is 4, 4 '-Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester)?

The safety of 4,4 '-oxobis (2-methylallyl benzenesulfonate) is of paramount importance. This substance may have applications in chemical production and many fields, but its safety needs to be reviewed in detail.
In terms of chemical structure, the substance contains specific functional groups or reacts chemically with other substances. 2-Methylallyl ester partially has an allyl structure, which is active and may initiate reactions such as polymerization under specific conditions. If it is not properly controlled, it may cause safety hazards, such as fires and explosions caused by uncontrolled reactions.
From a toxicological perspective, there is no conclusive data detailing its exact impact on organisms. However, many benzenesulfonate-containing substances may be toxic to some extent. It may enter the organism through inhalation, skin contact, ingestion, etc., affecting the normal physiological function of the body. It may damage important organs such as liver and kidney, or it may have potential carcinogenicity, teratogenicity, and mutagenicity. Although it has not been confirmed, it cannot be prevented.
In terms of environmental safety, if it is accidentally released into the environment, or migrates and transforms in water bodies and soils. Because it has a specific chemical structure, or is difficult to degrade, it causes environmental residues. And it may have adverse effects on aquatic organisms, soil microorganisms, etc., destroying the ecological balance.
When producing, storing, and transporting 4,4 '-oxobis (2-methylallyl benzenesulfonate), strict safety measures must be taken. Production requires precise control of reaction conditions to prevent abnormal reactions. Storage should be placed in a cool, dry and ventilated place to avoid mixing with oxidants and reducing agents. Transportation also needs to follow relevant regulations to ensure that the packaging is intact and leak-proof.
In general, although the exact safety of 4,4 '-oxobis (benzenesulfonate 2-methylallyl ester) is not fully clear, but based on its chemical structure and similar properties, it should be used with caution in all aspects, and in-depth security evaluation research should be carried out to ensure personnel safety and environmental well-being.

What are the chemical properties of 4,4 '-Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester)?

4,4 '-Oxobis (2-methylallyl benzenesulfonate) is one of the organic compounds. Its chemical properties are considerable.
In terms of its stability, it is still stable under ordinary conditions. In case of hot topics or encounters with strong oxidants, there is a risk of decomposition. This decomposition may cause the escape of harmful gases, such as sulfur dioxide, etc., due to the sulfur-containing elements in its structure.
Its solubility has a certain solubility in organic solvents, such as ethanol and acetone. In water, the solubility is relatively limited. This is related to the ratio of hydrophilic and hydrophobic groups in its molecular structure.
Re-examine its reactivity, because of its allyl structure, it can participate in the addition reaction. For example, with halogen elements, hydrogen halide, etc., additions can occur to convert carbon-carbon double bonds into single bonds. And benzenesulfonate ester groups, under appropriate conditions, can undergo hydrolysis reaction, ester bond fracture, and generate corresponding benzenesulfonic acid and 2-methylallyl alcohol.
In addition, the chemical properties of the compound are also affected by surrounding environmental factors, such as temperature, pH, etc. When the temperature increases, the reaction rate tends to accelerate; and changes in pH may affect the process of reactions such as hydrolysis.
In summary, the chemical properties of 4,4 '-oxobis (2-methylallyl benzenesulfonate) are determined by its unique molecular structure and exhibit diverse reaction characteristics under different conditions.

What is the production method of 4,4 '-Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester)?

The preparation of 4,4 '-oxobis (2-methylallyl benzenesulfonic acid) is a delicate chemical process. To make this product, the first thing to do is to choose suitable raw materials. Benzenesulfonic acid and 2-methylallyl alcohol are the key substances.
Appropriate treatment of benzenesulfonic acid first can make its active site easier to participate in the reaction. The pH of the reaction environment may need to be adjusted, or an appropriate amount of catalyst may be added to promote the activity of its functional groups.
Then, mix the properly treated benzenesulfonic acid with 2-methylallyl alcohol. This mixing must be carried out under specific temperature and pressure conditions. If the temperature is too high, it may cause frequent side reactions and make the product impure; if the temperature is too low, the reaction rate will be slow and take a long time. Generally speaking, the temperature may be controlled in a moderate range, such as tens of degrees Celsius. Pressure also needs to be precisely controlled. Atmospheric pressure or slightly pressurized environment may affect the process and yield of the reaction.
During the reaction process, suitable organic solvents can be selected to help the reactants mix evenly and improve the reaction efficiency. At the same time, pay close attention to the process of the reaction, and the degree of reaction can be monitored by means such as chromatographic analysis. When the reaction reaches the expected level, measures are taken to terminate the reaction to prevent overreaction.
After the reaction is terminated, the product is separated and purified. This step is crucial to the purity of the final product. Filtration, distillation, extraction, and other methods can be used to remove unreacted raw materials, by-products, and impurities, resulting in a pure 4,4 '-oxo-bis (2-methylallyl benzenesulfonic acid). In this way, fine operation and step-by-step attention are required to achieve satisfactory results.

What is the market outlook for 4, 4 '-Oxybis (Benzenesulfonic Acid 2-Methylallyl Ester)?

Today there are 4% 2C4% 27 - Oxybis%28Benzenesulfonic Acid 2 - Methylallyl Ester% 29. What is the market outlook? Let me tell you in detail.
This substance has a lot to explore in the current market. Looking at its use, or in the field of chemical synthesis, it is an important raw material and participates in the preparation of a variety of fine chemicals. It plays an indispensable role in the industrial chain of a specific industry.
In terms of market demand, with the development of industry, the demand for fine chemical products in many industries is gradually increasing. If this substance is a relevant key intermediate, the demand may rise. However, it is also disturbed by market competition. If similar alternative products emerge one after another, it will have an impact on its market share.
On the supply side again, the difficulty of the production process and the stability of the supply of raw materials are all related to the market supply. If the process is complex and the raw materials are scarce, the supply may be difficult to meet the demand, resulting in price fluctuations. If the production technology is broken through, the production capacity can be improved, the market supply is abundant, or the price may be lowered.
As for the policy environment, the supervision of the chemical industry is becoming more and more strict. If the production and use of this substance need to follow specific regulations and standards, the compliance cost may affect its market performance. Good policy or promote industrial development, otherwise it will be suppressed.
In summary, the market outlook of 4% 2C4% 27 - Oxybis%28Benzenesulfonic Acid 2 - Methylallyl Ester% 29 presents both opportunities and challenges, requiring practitioners to understand market dynamics and adjust strategies in a timely manner to cope with changing market conditions.