Ethylenesulphonyl Fluoride

Duxiu Chemical

Specifications

HS Code	910801
Chemical Formula	C2H3FO2S
Molecular Weight	108.107 g/mol
Appearance	Colorless liquid
Boiling Point	109 - 110 °C
Density	1.329 g/mL at 25 °C
Solubility	Soluble in organic solvents
Flash Point	35 °C
Stability	Stable under normal conditions
Hazard Class	Corrosive

As an accredited Ethylenesulphonyl Fluoride factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100 - gram vial packaging for Ethylenesulphonyl Fluoride chemical compound.
Storage	Ethylenesulphonyl Fluoride should be stored in a cool, dry, well - ventilated area away from heat sources, ignition sources, and incompatible substances. Keep it in a tightly closed container to prevent leakage. Due to its potential reactivity, store it separately from strong oxidizing agents, bases, and reactive metals. Regularly check storage conditions to ensure safety.
Shipping	Ethylenesulphonyl Fluoride, a chemical, is shipped in specialized, leak - proof containers following strict hazardous material regulations. Shipment is handled by certified carriers to ensure safe transportation.

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General Information

Historical Development

Ethylenesulphonyl Fluoride is a chemical product. The history of its development, at the beginning, the Fang family dedicated himself to the laboratory to explore its properties and reaction mechanism. At that time, it was only for academic curiosity, hoping to solve its chemical mysteries.
With the gradual progress of science and technology, scholars found that its unique properties can be applied. Therefore, the direction of research and development turned to practical. After many experiments and improvements, the process is becoming more and more mature.
Today, Ethylenesulphonyl Fluoride has been widely used in various fields, either for material improvement or for special chemical reactions. The niche research of the past has now become a practical thing, witnessing the wonderful process of chemical development, and it is also a new way for future research and development, with unlimited possibilities.

Product Overview

Ethylene sulfonyl fluoride is the newest and most valuable of chemical materials. Its purity and properties are different, and it is widely used in various chemical processes. Looking at its shape, it is colorless and clear, liquid, and gas is micro and special.
It is active in nature. In the field of organic synthesis, it can be a key reagent, promoting diverse reactions and complex structures. For material modification, it can increase the toughness, wear resistance and chemical resistance of materials to make the materials better.
The method of preparation, through multiple steps of delicate reactions, controls the temperature, pressure and the proportion of agents to achieve high-purity products. Although the application prospect is clear, when operating, it is necessary to abide by the procedures, because it has certain dangers and is related to safety and environment. This ethylene sulfonyl fluoride is an important part of chemical research, and it has infinite possibilities for the creation and reaction of new materials.

Physical & Chemical Properties

"The Physical Properties of Ethylenesulphonyl Fluoride"
Ethylenesulphonyl Fluoride is a special compound. In terms of physical properties, at room temperature, it is mostly colorless or a clear liquid. Looking at its appearance, it resembles clear water, but it has unique physical properties. Its density is different from ordinary water, and it has a specific value, which is related to its space proportion in various systems.
When it comes to chemical properties, this substance has a certain reactivity. In a specific chemical environment, the functional groups in its molecules can react with many reagents. In case of strong oxidants, the structure of sulfur, fluorine and other elements may cause the transfer of electrons, and then form new compounds. And because its structure contains alkenyl groups, it may participate in reactions such as addition, and may have unique uses in the field of organic synthesis.

Technical Specifications & Labeling

Ethylenesulphonyl Fluoride is a new chemical substance. Its technical specifications and labeling (product parameters) are the key.
In the technical specification, it is related to purity, which needs to reach a very high standard, and the impurity content should be minimal to ensure its stable performance. In terms of reactivity, there are also precise requirements to apply to various specific chemical reactions.
In terms of labeling, product parameters should be clearly presented. Key data from physical properties, such as color, taste, state, to chemical properties, need to be clearly marked. On the packaging, its dangerous characteristics should also be clearly marked to warn everyone and prevent problems before they occur. In this way, this Ethylenesulphonyl Fluoride product can be properly used in scientific research and application and exert its due effectiveness.

Preparation Method

Ethylenesulphonyl Fluoride is an important compound in the field of organic synthesis, and its preparation method needs to be carefully studied.
In the selection of raw materials, ethylene, sulfonyl fluoride, etc. should be used as the base. Ethylene needs to be of high purity to avoid impurities. Sulfonyl fluoride also needs to be finely purified to maintain its purity.
In the preparation process, the reaction step is crucial. First, ethylene and sulfonyl fluoride are reacted in the presence of a specific catalyst. This catalyst should have high activity and selectivity, which can promote the effective combination of the two. Control the reaction temperature and pressure, and the temperature should be maintained at a certain range to make the reaction smooth and efficient; the pressure also needs to be precisely regulated to ensure that the reaction is carried out in the direction of generating Ethylenesulphonyl Fluoride.
In terms of activation mechanism, the catalyst interacts with the reactant to change the reaction path and reduce the activation energy of the reaction. The reactant molecules are adsorbed and activated on the surface of the catalyst to increase the reaction probability. Ethylenesulphonyl Fluoride was efficiently prepared through a series of steps, and then separated and purified to obtain a high-purity product.

Chemical Reactions & Modifications

The industry of chemical industry is related to people's livelihood. As for Ethylenesulphonyl Fluoride, its chemical reaction and modification are quite important to scholars.
Ethylenesulphonyl Fluoride, when participating in the reaction, may vary depending on the conditions. In the environment of moderate temperature and suitable catalyst, its molecular structure may have subtle changes, which in turn affects its chemical properties.
If you want to improve its performance, you must study the mechanism of the reaction in detail. Observing the ratio of reactants and examining the environment of the reaction are all key. Only by making the reaction precise and effective modification can this product have excellent performance. Scholars should be rigorous, study unremitting, in order to Ethylenesulphonyl Fluoride chemical reaction and modification together, to promote the prosperity of the chemical industry.

Synonyms & Product Names

Ethylenesulphonyl fluoride (Ethylenesulphonyl Fluoride), the synonym and trade name of this substance, is the key to our chemical research. In the field of chemistry, there are many terms for the same substance, which may vary depending on the region, use, and research and development process.
Ethylenesulphonyl fluoride, or another name such as fluorovinyl sulfonyl, or in a specific trade list, appears in the world under a unique trade name. This is determined by the long-term practice and research of colleagues in the industry to facilitate communication and distinguish uses.
When we explore the properties and applications of ethylenesulphonyl fluoride, we must clarify many synonyms and trade names. In this way, we can accurately locate the required information in the complex literature and materials, gain insight into the whole picture, and then promote the deepening of relevant research, so that it can play a greater role in the fields of materials science, medical chemistry, and so on.

Safety & Operational Standards

Safety and Practice of Ethylenesulphonyl Fluoride
Ethylenesulphonyl Fluoride is an important substance in chemical research. During its experiment and use, safe and standardized operation is the top priority.
In terms of safety, this substance has certain dangers. It may have an irritating effect on the human body, and contact with the skin can cause discomfort or even damage. If inhaled inadvertently, it may affect the respiratory tract, causing coughing, asthma and other diseases. Therefore, protective measures are essential during operation. Protective clothing, such as lab clothes and gloves, must be worn to prevent it from coming into contact with the skin. A protective mask is also required to prevent inhalation.
In terms of operating specifications, the first test environment. When the laboratory is well ventilated, set up ventilation equipment to allow the volatile gas of Ethylenesulphonyl Fluoride to be discharged in time, reduce the concentration in the air and reduce the danger. During operation, the action should be stable and accurate, and do not splash out substances. Take the appropriate amount and measure it accurately according to the experimental requirements. Do not take too much waste and increase danger.
After the experiment is completed, properly dispose of the remaining Ethylenesulphonyl Fluoride. Do not dump it at will. According to the specified process, dispose of it at the designated place to prevent pollution of the environment. For the use of appliances, it is also necessary to carefully clean to remove residual substances to ensure the safety and accuracy of the next experiment.
In short, although Ethylenesulphonyl Fluoride is helpful for research, its safety and operation standards should not be ignored. Strictly abide by the norms to ensure the safety of the experiment and achieve the purpose of research.

Application Area

Ethylenesulphonyl Fluoride is also a chemical substance. Its application domain is wide. In the field of engineering, it can be used in the synthesis of special materials. With its unique properties, it can make the material have better qualitative and durability.
In the field of research and development, it also has its uses. Or it can be used to build new molecules and help materials to be more effective. Its anti-reactive properties can provide a new way for the synthesis of materials.
And in terms of sub-materials, Ethylenesulphonyl Fluoride also has an outstanding performance. It can be used to fabricate sub-components such as semi-, providing the required specialization and improving the performance of components. In other words, it has important values in many fields, and it is important to push the steps of each line.

Research & Development

Ethylenesulphonyl Fluoride is a promising compound. I have been studying it for a long time. Looking at its structure, it is unique, and its fluorine and sulfonyl properties endow it with many specific properties.
At the beginning of the research, many problems were in front of us, such as the precise control of the synthesis and the strict requirements of the reaction conditions. However, I kept exploring and testing, and finally found a suitable method.
After many inquiries, it was found that it has great potential in the field of modified materials. It can significantly improve the stability and corrosion resistance of materials. Looking to the future, it is expected that this achievement will be widely applied to promote the vigorous development of related industries, contribute to the progress of materials science, and open up a broader world for the development of Ethylenesulphonyl Fluoride.

Toxicity Research

The chemical industry is related to people's livelihood, but the study of poisons in it should not be careless. Ethylenesulphonyl Fluoride is particularly important in the study of toxicity.
We study it and observe its properties in detail. Observe its response to various things and test the changes in its entry into the body. Or touch the skin, or breathe, all of them are carefully investigated. Observe its symptoms, observe its appearance, remember its changes, and want to understand the depth of its poison and the urgency of its harm.
After repeated tests, we know that its toxicity is not light. When touched, the skin may burn or itch; when inhaled, the lungs may be painful or stuffy. And if you touch it for a long time or inhale it often, the harm is particularly serious, which can cause damage to the viscera and disorder of function. Although the rise of chemical industry requires the help of new substances, Ethylenesulphonyl Fluoride is so toxic that it should be used with caution to prevent the disaster from happening, ensure the well-being of everyone, and protect the tranquility of the environment.

Future Prospects

In the future, Ethylenesulphonyl Fluoride is a useful product. Nowadays, we are trying our best to research it.
In the future, Ethylenesulphonyl Fluoride is the first to be used in many fields. On the way, it may help the delicate synthesis of materials to make the effect more outstanding; in the field of materials, it can improve the properties of materials, improve their properties, and increase their functions.
Looking forward to the future, its development will be like the real world. Scientific technology is new and new, and Ethylenesulphonyl Fluoride is also evolving. It may be able to explore new applications and expand its brilliance in cutting-edge fields such as new energy and new energy. Presumably, it is as convenient as the world, pushing all walks of life to make great strides forward, and it will benefit the well-being of people.

Where to Buy Ethylenesulphonyl Fluoride in China?

As a trusted Ethylenesulphonyl Fluoride manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading Ethylenesulphonyl Fluoride supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What are the main uses of Ethylenesulphonyl Fluoride?

Ethylenesulphonyl fluoride (Ethylenesulphonyl Fluoride) has a wide range of uses and is useful in various fields.
In the field of organic synthesis, ethylenesulphonyl fluoride is often a key reagent. It can react with many compounds to construct novel organic structures. If it encounters nucleophiles, it can lead to nucleophilic substitution reactions, whereby a sulfonyl fluoride group can be introduced on the target molecule. This group has unique characteristics and can be converted into various forms in subsequent reactions, or lay the foundation for further modification of molecular structures, making the strategy of organic synthesis more diverse.
In the field of materials science, ethylenesulphonyl fluoride also has outstanding performance. It can be used for surface modification of materials. Through appropriate treatment, the surface of the material is grafted with ethylene sulfonyl fluoride-related structures, thereby changing the physical and chemical properties of the material surface. For example, it can adjust the wettability of the material, or enhance its anti-fouling properties, or improve its adhesion to other substances. In coatings, fibers and other materials, the material properties can be improved and the application scope can be broadened.
In the field of medicinal chemistry, the value of ethylene sulfonyl fluoride should not be underestimated. Due to the special biological activity of sulfonyl fluoride groups, compounds containing this group may have potential pharmacological activities. Based on this, the design and synthesis of drug molecules may be carried out, and new specific drugs may be developed. At the same time, in the process of drug development, ethylene sulfonyl fluoride can be used as a tool to label and track biomolecules, enabling scientists to gain deeper insight into the chemical reactions and physiological processes in organisms, and providing a powerful means for exploring the mechanism of drug action.
In summary, ethylene sulfonyl fluoride plays an important role in many fields such as organic synthesis, materials science, and medicinal chemistry, and has made a lot of contributions to the development of various fields.

What are the Physical Properties of Ethylenesulphonyl Fluoride?

Ethylenesulphonyl fluoride (Ethylenesulphonyl Fluoride) has unique physical properties. It is usually a colorless to light yellow liquid with a clear appearance. Under normal temperature and pressure, this substance is relatively stable, and it can change its properties when exposed to heat or a specific chemical environment.
In terms of boiling point, the boiling point of ethylenesulphonyl fluoride is within a specific range. This value is crucial in the separation, purification and application of substances. The characteristics of its boiling point enable the transformation of gas and liquid under corresponding temperature conditions, which provides convenience for chemical operations.
In addition, the density of ethylenesulphonyl fluoride is also an important physical property. Its density may be different from that of common solvents or reaction media. This difference is significant in the process of mixing and delamination. In a chemical reaction system, the different densities affect the distribution and contact of substances, which in turn affects the process and result of the reaction.
In terms of solubility, ethylene sulfonyl fluoride is soluble in some organic solvents, but its solubility in water may be limited. This solubility characteristic determines its applicability in different solvent systems. In organic synthesis reactions, selecting a solvent that is compatible with it can promote the progress of the reaction and improve the reaction efficiency.
In addition, the volatility of ethylene sulfonyl fluoride is also worthy of attention. It has a certain degree of volatility and can gradually evaporate into the air in an open environment. This characteristic needs to be carefully considered during storage and use, and appropriate measures must be taken to prevent its volatilization and escape, to ensure safe operation and environmental friendliness. Overall, the various physical properties of ethylene sulfonyl fluoride are of great significance in its chemical applications, storage, and transportation, and require careful understanding in order to make good use of them.

What are the Chemical Properties of Ethylenesulphonyl Fluoride?

Ethylene sulfonyl fluoride is also an organic compound. It is active and often used as a key reagent in many chemical reactions.
Ethylene sulfonyl fluoride has high reactivity, and the existence of fluorine atoms makes the molecule have unique electronic effects and spatial effects. Its fluorine atom has strong electronegativity, which makes the carbon-fluorine bond highly polarized, which is easy to attract nucleophilic reagents to attack and cause substitution reactions to occur. And because the fluorine atom has a small radius and relatively small steric resistance, it is beneficial for the reaction to proceed.
In nucleophilic substitution reactions, the sulfonyl fluoride group of ethylene sulfonyl fluoride (-SO 2O F) can be replaced by various nucleophilic reagents. For example, when reacted with alcohols, sulfonates can be formed; when reacted with amines, This property makes ethylene sulfonyl fluoride an important raw material for the construction of compounds containing sulfur-oxygen or sulfur-nitrogen bonds in organic synthesis.
And because of its vinyl group, it can participate in the addition reaction. The alkenyl group is electron-rich and can be added to electrophilic reagents to expand the diversity of molecular structures. It can be added to electrophilic reagents such as hydrogen halide and halogen to introduce new functional groups to realize the functionalization of compounds.
However, it should be noted that ethylene sulfonyl fluoride has high reactivity and should be stored and handled with caution. It may react rapidly with compounds containing active hydrogen such as water and alcohol, so it needs to be stored and used in a dry environment to prevent failure or accidental reaction. Overall, ethylene sulfonyl fluoride has important application value in organic synthesis, medicinal chemistry and other fields due to its unique chemical properties.

What is the Production Method of Ethylenesulphonyl Fluoride?

The method of making ethylenesulphonyl fluoride (Ethylenesulphonyl Fluoride) is not detailed in ancient books, but people today can use chemical methods to explore.
To make ethylenesulphonyl fluoride, ethylene is often reacted with a sulfonyl fluoride reagent. First prepare ethylene gas, which can be prepared by dehydration reaction of ethanol. Take an appropriate amount of ethanol, place it in a reactor, add concentrated sulfuric acid as a catalyst, heat it to an appropriate temperature, ethanol loses water to form ethylene, and purify and dry the resulting ethylene gas for later use.
At the same time, prepare a sulfonyl fluoride reagent. Sulfonyl fluoride is usually obtained by reacting sulfur dioxide and fluorine gas under specific conditions. In a special reaction vessel, sulfur dioxide and fluorine gas are mixed in appropriate proportions to control the reaction temperature and pressure to generate sulfonyl fluoride gas, which is purified and then used.
The prepared ethylene gas and sulfonyl fluoride gas are introduced into the reaction device, and under the presence of a catalyst and suitable temperature and pressure conditions, the two undergo an addition reaction. Metal halides such as aluminum chloride are commonly selected for catalysts. During the reaction, each reaction parameter is carefully regulated to increase the reaction efficiency and product purity. After the reaction, the product is separated and purified. By distillation, extraction and other methods, the unreacted raw materials and by-products are removed to obtain pure ethylene sulfonyl fluoride.
This preparation method is based on today's chemical knowledge and technology, but it is based on the characteristics and reaction laws of substances. Although the ancient chemical exploration was simple, it also laid the foundation for such production methods. Today's people have inherited the wisdom of ancient scholars and created more new ways with scientific methods to produce vinyl sulfonyl fluoride and other useful substances.

What are the precautions for Ethylenesulphonyl Fluoride during use?

Ethylene sulfonyl fluoride, when using, many things need to be paid attention to. The first priority is safety, because it is toxic and corrosive to a certain extent, and contact can cause damage to the human body. When taking it, it is necessary to wear protective equipment, such as gloves, goggles, protective clothing, etc., to avoid touching the skin and eyes. If you come into contact accidentally, rinse with plenty of water quickly and seek medical attention immediately.
Furthermore, its reactivity is quite high. When storing and using, it should be avoided to mix with strong oxidants, strong alkalis and other substances, otherwise it is easy to cause violent reactions and risk fire or explosion. The storage environment should also be dry, cool and well ventilated, away from fire and heat sources.
During use, precise control of dosage is crucial. Due to its strong reactivity, improper dosage, or runaway reaction, it affects the quality of the product, or increases the chance of side reactions. Operate according to established procedures, and strictly control the reaction conditions, such as temperature, pressure, reaction time, etc. Temperature is particularly affected. If it is too high or causes decomposition or side reactions, if it is too low, the reaction will be slow or incomplete.
In addition, the ventilation facilities of the experimental site or production workshop must be perfected. The gases produced by the volatilization of ethylene sulfonyl fluoride are harmful to health. Good ventilation can discharge harmful gases in time, reduce the concentration in the air, and ensure the safety of operators.
Waste disposal should not be underestimated. Waste containing ethylene sulfonyl fluoride should not be discarded at will. It needs to be properly disposed of in accordance with relevant regulations and environmental protection requirements to prevent environmental pollution. Or use specific chemical methods for degradation, or hand it over to a professional treatment agency for disposal. In this way, the use process can be guaranteed to be safe and achieve the desired effect, while also taking into account the safety of the environment and personnel.