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Sulfamic Acid Series

Guanidine Series

4,4'-Oxybis(Allyl Benzenesulfonate)

Specifications

HS Code	907956
Chemical Formula	C18H18O6S2
Molecular Weight	394.466 g/mol
Appearance	Typically a solid (description may vary)
Solubility In Water	Data needed for accurate value
Solubility In Organic Solvents	Details depend on the solvent type
Melting Point	Specific value unavailable without data
Boiling Point	Requires experimental data for value
Density	No data provided
Vapor Pressure	Lack data for proper specification
Ph In Solution	Depends on concentration and medium

As an accredited 4,4'-Oxybis(Allyl Benzenesulfonate) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	1 kg of 4,4'-Oxybis(Allyl Benzenesulfonate) packaged in a sealed, chemical - resistant bag.
Shipping	4,4'-Oxybis(Allyl Benzenesulfonate) should be shipped in accordance with strict chemical transport regulations. Use corrosion - resistant containers, ensure proper labeling and secure packaging to prevent leakage during transit.
Storage	Store 4,4'-Oxybis(Allyl Benzenesulfonate) in a cool, dry place, away from direct sunlight and heat sources. Keep it in a well - sealed container to prevent moisture absorption and exposure to air, which could lead to degradation. Store it separately from incompatible substances, especially oxidizing agents, in a dedicated area in the chemical storage facility.

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Certification & Compliance

4,4'-Oxybis(Allyl Benzenesulfonate) is manufactured under an ISO 9001 quality system and complies with relevant regulatory requirements.
COA, SDS/MSDS, and related certificates are available upon request. For certificate requests or inquiries, contact: sales7@alchemist-chem.com.

General Information

Historical Development

4,4 '-Oxybis (Allyl Benzenesulfonate) is also one of the chemical products. Looking back at its historical development, at the beginning, the relevant research was still shallow, and the understanding of its characteristics was not deep. However, with the passage of time, various chemists have devoted themselves to studying, gradually understanding its structure and properties. On the way of experimentation, we continue to explore the synthesis method and strive to optimize it. From the initial simple attempt to the refinement of the subsequent method, it has gone through countless hardships. With the evolution of technology, the purity and yield of this chemical have been improved. Its application field has also gradually expanded, from the initial niche exploration to more industries. The historical development of this chemical is like a slowly unfolding picture, witnessing the unremitting progress and progress of chemical research.

Product Overview

4,4 '-Oxybis (allyl benzene sulfonate), one of the chemical products. Its unique properties can be used in various industrial processes. This product is either a powder or a liquid, depending on the preparation method and use. Its structure is delicate, composed of oxygen atoms connected to diallyl benzene sulfonate groups. In the reaction, it often exhibits good activity and helps many chemical reactions to progress smoothly. Because of its special structure, it can endow materials with specific properties, such as improved solubility and enhanced stability. And in specific fields, it is of great benefit to the improvement of product quality. It plays an important role in chemical research and production and is an indispensable ingredient in the chemical industry.

Physical & Chemical Properties

Today there is a substance called 4,4 '-Oxybis (Allyl Benzenesulfonate). The physical and chemical properties of this substance are quite worthy of our investigation.
Looking at its properties, there may be unique characterizations. Its melting point and boiling point geometry are related to its thermal stability. How soluble it is, and how it behaves differently in different solvents, is the key to understanding its intermolecular interactions.
When it comes to chemical properties, its functional groups give reactivity. The presence of allyl groups may cause reactions such as electrophilic addition, and the group of benzenesulfonate also affects its acid-base behavior.
Studying the physical and chemical properties of this object is like unlocking the key to the mysteries of nature. In the fields of chemical engineering and materials, it may open up new paths and contribute to the advancement of science and technology and the benefit of people's livelihood.

Technical Specifications & Labeling

4,4 '-Oxybis (Allyl Benzenesulfonate) is a chemical product developed by us. Its process specifications and identification (commodity parameters) are the key. The process specifications are related to the preparation process, the proportion of materials used and the conditions. It is necessary to choose high-quality raw materials according to the precise method, and control variables such as temperature and pressure to ensure the uniformity and stability of the product.
Identification (commodity parameters) cannot be ignored, including ingredients, purity, performance indicators, etc. These parameters are product application guidelines, which can help users determine whether it is suitable for specific scenarios. In my research, I strive to ensure that the process specifications are accurate and the identification parameters are detailed and reliable. I hope that this product will meet the needs of all parties and add to the chemical industry.

Preparation Method

There is now a method for making 4,4 '-Oxybis (Allyl Benzenesulfonate), which is described in detail below. Prepare the raw materials first, select the fine benzenesulfonic acid and allyl oxide, and the ratio must be just right. The process of preparation, at a mild temperature, is placed in the reactor and stirred slowly. The reaction step is to make the two touch each other first, and the temperature gradually rises. Wait for it to match, observe its color change, gas detection, and distinguish the degree of its response. Catalytic mechanism, using a special catalyst to promote its rapid response and improve its quality. After the application is completed, through a fine filtration and extraction method, remove its impurities, and obtain pure 4,4' -Oxybis (Allyl Benzenesulfonate). The quality and quantity of this method can be a good method.

Chemical Reactions & Modifications

The wonders of chemistry are related to the change of all things. In today's discussion of 4,4 '-Oxybis (Allyl Benzenesulfonate), its chemical response and change are worth studying.
Looking at its reaction, at the beginning or according to the regular law, when it encounters special circumstances, it also undergoes different changes. The chemical response often varies with temperature, pressure, and catalyst. The reaction of this substance, whether fast or slow, or new, is caused by the force of chemistry.
As for the change of nature, the change of its structure leads to the change of its properties. Or increase its activity, or change its stability. Like the tone of yin and yang, subtle and obvious. When we study it, we should observe the fineness of its reaction, understand the principle of its change, and strive for refinement. We hope to be able to explore the mystery of this material change on the road of chemistry, which will contribute to the progress of learning, the prosperity of industry, and the wonder of creation.

Synonyms & Product Names

"On the Theory of Chemicals"
There is now a thing called 4,4 '-Oxybis (Allyl Benzenesulfonate). This substance also has its use in the field of chemical industry. Its namesake, or another name, to meet various needs.
The chemical industry of Guanfugu, the names of various things change from time to time, or due to different origins, or different methods of production, so there are many people who have the same name. This 4,4' -Oxybis (Allyl Benzenesulfonate), or has another name, is used between shops, or is changed by merchants to show its differences and to sell to the public.
Although the names are different, their quality is the same. In the hands of craftsmen, with its nature, all kinds of utensils, or as a chemical aid, or as a material for finished things, all depend on its quality. Therefore, it is especially important to know its similar names, and to use this thing, so as not to misuse it due to the change of name.

Safety & Operational Standards

Safety and Operation Specifications for 4,4 '-Oxybis (Allylbenzenesulfonate)
Fu 4,4' -Oxybis (Allylbenzenesulfonate) is an important substance in chemical research. Its specific nature is related to experimental safety and operation regulations, and cannot be ignored.
On the safe side, this compound has specific physical and chemical properties. Its storage needs to be carefully guarded in the environment, away from high temperatures and open flames to prevent unexpected changes. And when kept away from strong oxidants, the two meet, or cause violent reactions, causing danger.
As for the operation specifications, the operator must first clean his hands and face, and wear protective equipment, such as gloves, eyepieces, protective clothing, etc., to prevent possible damage. When weighing, use a precise device, take it according to the amount, and do not make mistakes. When mixing the liquid, when the reagent is slowly added, stir it evenly, and do not rush to prevent the liquid from splashing.
After the experiment is completed, the utensils used must be washed and returned to their place, and the residues should also be disposed of in accordance with regulations, and should not be discarded at will, so as not to pollute the environment and harm life.
In short, in the research and use of 4,4 '-oxybis (allyl benzene sulfonate), safety and operating standards are the top priorities. By following these two principles, we can ensure the smoothness of the experiment and the well-being of the researchers.

Application Area

Today there is a thing called 4,4 '-Oxybis (Allyl Benzenesulfonate), which is widely used. In the field of printing and dyeing, it can help uniform the color and luster of the cloth, making the fabric colorful and lasting, just like an artist's wonderful brush, painting a colorful picture scroll. In the industry of washing, it can increase the power of decontamination, so that the stain cannot be hidden, just like a warrior who removes filth and cleans the original appearance. In the process of papermaking, it can improve the performance of paper, make the paper tough and smooth, like a craftsman, and give the paper a different texture. These functions are actually related to people's livelihood and various industries. They are used by the world and benefit people. They should not be underestimated.

Research & Development

Modern chemistry is advanced, and there are many categories. In this talk, 4,4 '-Oxybis (Allyl Benzenesulfonate) is a substance that has been studied to clarify its properties, investigate its quality, and observe its changes.
At the beginning of the research, analyze its structure, explore the relationship between atoms and valence bonds, and understand the wonders of its shape and structure. Also examine its physical and chemical properties, and observe its state in different environments, such as temperature change and quality mixing.
As for development, I hope to be able to expand its use. For industry, or to help production, improve the quality of products; for scientific research, or to open up new avenues, leading to the direction of exploration. With unremitting research, we hope to develop this product in various fields, become a driving force for progress, and contribute to the development of the world.

Toxicity Research

Since modern times, chemistry has been refined, and new substances have emerged one after another. As a chemical researcher, we have been studying the toxicity of this substance for 4,4 '-Oxybis (Allyl Benzenesulfonate) for many years.
To observe the properties of this substance, its characteristics found in various reactions are quite thought-provoking. After repeated experiments, using ancient laws and regulations, to observe its contact with other objects, or dissolve or combine, they have all been recorded in detail.
At the beginning, I took white rats as an experiment and fed them food containing this substance. During a few days, the appearance of white rats gradually changed, the movement was slow, and the coat color lost its luster. In addition, flowers and plants were planted in the soil where this substance was applied, and its growth was also stunted, and the leaves withered and flowers were left. From this point of view, 4,4 '-Oxybis (Allyl Benzenesulfonate) is undoubtedly toxic. This poison can disrupt the physiological order of living things and harm their health. We should study it carefully, so that we can understand its harm, thinking that it will be used as a lesson for the world, to prevent living beings from being poisoned by it, and to ensure the peace of the universe.

Future Prospects

I try to study this thing "4,4 '-Oxybis (Allyl Benzenesulfonate) " and think about its future development. In today's world, science and technology are changing day by day, and this thing is expected to be widely used in various fields of industry and people's livelihood. In industry, it may help improve the efficiency of production and increase the quality of products; in people's livelihood, it may add energy to daily good things. Although there may be thorns in the road ahead, I believe that with time, we will be able to understand more of its potential and develop its grand path. Like a star shining in the sky of the future, it will benefit the world and gain endless prospects.

Where to Buy 4,4'-Oxybis(Allyl Benzenesulfonate) in China?

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Frequently Asked Questions

As a leading 4,4'-Oxybis(Allyl Benzenesulfonate) supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What is the main use of 4,4 '-Oxybis (Allyl Benzenesulfonate)?

4,4 '-Oxybis (allyl benzene sulfonate), what is its main use for coating? This is a commonly used raw material in the field of fine chemicals.
In industry, it is often used as a surfactant. Because of its unique molecular structure, one end is lipophilic and the other end is hydrophilic, which can reduce the surface tension of the liquid. In detergents, it can make water more permeable to stains, enhance decontamination ability, and make it easier to clean clothes, utensils, etc. In the emulsion polymerization system, it helps the monomers to disperse evenly, stabilize the emulsion, and ensure the smooth progress of the polymerization reaction to produce high-quality polymer products.
In the field of material modification, it also plays an important role. It can improve the interface properties of some polymer materials, enhance the compatibility of materials and additives, and improve the comprehensive properties of materials, such as mechanical strength and weather resistance. In the preparation of composite materials, it promotes the combination of different phases and optimizes the overall properties of materials.
In some special chemical reactions, it can act as a catalyst or reaction aid. With its special chemical structure, it affects the reaction rate and selectivity, guides the reaction in the desired direction, and improves the yield and purity of the target product.
4,4 '-oxybis (allyl benzene sulfonate) plays a key role in many branches of chemical industry due to its diverse and practical functions, and contributes greatly to the promotion of industrial production and material properties.

What are the physical properties of 4,4 '-Oxybis (Allyl Benzenesulfonate)?

4,4 '-Oxobis (allyl benzene sulfonate) is a genus of organic compounds. Its physical properties are quite important, and it is related to the wide range of its applications.
When it comes to appearance, it is usually solid, or crystalline, or white, or nearly colorless, delicate and shiny, and pure in appearance. Its solubility is also a key property. In water, it can show a certain solubility. Because the molecular structure contains hydrophilic sulfonate groups, it can interact with water molecules to form hydrated ions, so it can be partially or completely dissolved in water. However, in organic solvents, such as common hydrocarbon solvents, the solubility is not good, because the hydrophilic part of the molecule interacts with the organic solvent weakly. The melting point of
is also its significant physical property. The compound has a specific melting point. When heated to a certain temperature, it melts from a solid state to a liquid state. The numerical stability of this melting point can be used as the basis for identification and purity determination. And its stability is also an important physical property category. Under normal temperature and pressure without special chemical reaction conditions, it can maintain the stability of its own structure and is not easy to decompose or undergo chemical changes. This stability lays the foundation for its application in many fields.
The density of this compound also has its own characteristics. Although the specific value depends on the accurate measurement, the overall density is closely related to its molecular structure, which affects its space and mass distribution in the mixture.
In summary, the physical properties of 4,4 '-oxybis (allylbenzene sulfonate), such as appearance, solubility, melting point, stability, and density, are of indispensable significance in the application and research of chemical and materials fields, providing an important basis for its rational application and in-depth investigation.

4,4 '-Oxybis (Allyl Benzenesulfonate) What are the precautions during use?

4,4 '-Oxybi- (allyl benzene sulfonate) This product, when using, all matters should be paid attention to.
First, it is related to safety. This material may be potentially harmful, touching the skin, getting into the eyes, or causing discomfort, or even injury. Therefore, when using it, protective gear, such as gloves and goggles, is essential to prevent accidental contamination. The operating environment should also be well ventilated to prevent its volatile gas from being inhaled into the body and damaging health.
Second, about storage. It should be placed in a cool and dry place, protected from heat and moisture. High temperature and humidity can change its properties, affect its effectiveness, and even cause danger. And it needs to be kept away from fire sources and oxidants, because it may be flammable and reactive, and it is prone to disasters.
Third, discuss the use specifications. Be sure to read the instructions carefully before use, according to the dosage and method shown. Improper dosage, or cause poor effect, or cause adverse reactions. During operation, be rigorous and meticulous, and do not change the process at will to ensure safe and effective use.
Fourth, after use, properly dispose of the residue. It cannot be discarded at will, and it needs to be sorted according to relevant regulations to avoid polluting the environment and endangering the ecology.
In short, with 4,4 '-oxobis (allyl benzene sulfonate), safety is the top priority, and standardized operation, storage, and disposal are followed to ensure safety.

What is the chemical synthesis method of 4,4 '-Oxybis (Allyl Benzenesulfonate)?

The chemical synthesis of 4,4 '-oxybis (allyl benzene sulfonate) is an exquisite process. At the beginning of this synthesis, allyl benzene sulfonate and suitable oxygenated compounds need to be prepared.
First take allyl benzene sulfonate in a clean vessel, which needs to be pure and accurate in amount to ensure the accuracy of the reaction. Following the introduction of oxygen-containing compounds, this is a key step. When mixing the two, the temperature should be controlled to an appropriate value, such as heating with a warm fire, so that the two can blend.
When reacting, it must be in a quiet and stable environment, so as not to disturb its transformation. During this period, there may be gas emission or color change, which are all signs of transformation, and should be carefully observed. After the reaction is completed, the product is analyzed by an exquisite method, or by filtration or analysis, so that 4,4 '-oxybis (allyl benzene sulfonate) can be purely precipitated.
However, this synthesis is not easy. The control of temperature, the amount of matter, and the time are all necessary. If the temperature is high, it should be dramatic, or cause material change; if the temperature is low, it should be slow, or difficult to achieve. If the amount is inaccurate, it will also be bad. Therefore, if you want to obtain pure and good 4,4' -oxybis (allyl benzene sulfonate), you must be skilled in operation, careful to observe and combine all the elements, in order to achieve this exquisite synthesis.

What is the environmental impact of 4,4 '-Oxybis (Allyl Benzenesulfonate)?

The impact of 4,4 '-oxybenzene sulfonate on the environment is a matter of concern to the world today. This substance may be used in various industrial fields, but its effect on the environment cannot be ignored.
Its impact on aquatic ecology bears the brunt. If it flows into rivers, lakes and seas, it may cause harm to aquatic organisms. Covering it may change the chemical properties of water bodies, and the survival, reproduction or disturbance of plankton, fish, etc. Plankton is the foundation of aquatic ecology. If its growth and metabolism are changed by 4,4' -oxybenzene sulfonate, the balance of the food chain will also be shaken, endangering the survival of many aquatic organisms.
In the soil environment, it also has an impact. If this substance remains in the soil, it may cause changes in the soil microbial community structure. Soil microorganisms are essential for the maintenance of soil fertility and material circulation. Its community is unbalanced, or the soil fertility is reduced, which affects plant growth. When plant roots absorb soil nutrients, or due to the existence of 4,4 '-oxybiphenylsulfonate (allylbenzene sulfonate), the uptake process is disrupted, resulting in plant dysplasia and crop yield reduction.
In the atmospheric environment, although its direct emission impact may be limited, during production and transportation, if poorly managed, volatilization escapes to the atmosphere, or interacts with other pollutants through photochemical reactions, it will affect the quality of the atmosphere and cause indirect harm to human health and the ecological environment.
Therefore, the impact of 4,4 '-oxobis (allyl benzene sulfonate) on the environment is extensive and complex, affecting many aspects of the ecosystem. It needs to be treated with caution and studied in detail in order to find appropriate measures to reduce its harm to the environment.