2-[(2-Methylacryloyl)Oxy]Ethanesulfonic Acid

Lingxian Chemical

Specifications

HS Code	477563
Chemical Formula	C8H12O6S
Molar Mass	236.24 g/mol
Appearance	Typically a clear to slightly yellow liquid
Solubility In Water	Highly soluble
Acidity	Acidic, contains sulfonic acid group
Boiling Point	Decomposes before boiling
Density	Approx. 1.3 - 1.4 g/cm³
Polymerizable	Yes, due to acryloyl group
Flash Point	High, non - flammable in normal conditions
Viscosity	Low to medium viscosity as a liquid

Packing & Storage

Packing	250 - gram bottle packaging for 2 - [(2 - Methylacryloyl)Oxy]Ethanesulfonic Acid.
Storage	2-(2 - Methylacryloyl)OxyEthanesulfonic Acid should be stored in a cool, dry place away from direct sunlight and heat sources. Keep it in a tightly closed container to prevent exposure to air and moisture, which could potentially lead to decomposition or degradation. Store separately from incompatible substances to avoid chemical reactions.
Shipping	2-(2-Methylacryloyl)OxyEthanesulfonic Acid is shipped in containers suited to handle chemical substances. Shipment ensures proper containment, protection from environmental factors, and compliance with safety regulations for chemical transport.

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2-[(2-Methylacryloyl)Oxy]Ethanesulfonic Acid

General Information

Historical Development

In the past, there were chemists who studied a thing called 2 - [ (2-methacryloyl) oxy] ethanesulfonic acid. At the beginning, everyone found this compound novel. At that time, the research method was still simple, and the progress was slow.
However, the years pass, and the technology is new. The public has been unremitting, and has made breakthroughs in the synthesis method and the exploration of properties. From the initial ignorant attempts, to the gradual understanding of its structure mysteries; from simple tests, to in-depth analysis of its characteristics.
The use of this compound has also gradually expanded, emerging in the fields of industry and scientific research. Although the road in the past was difficult, everyone worked hard to move forward, and finally made the research results of 2 - [ (2-methacryloyl) oxy] ethanesulfonic acid fruitful, creating a new chapter. Its development process is a portrayal of the progress of scientific research.

Product Overview

2 - [ (2-methacryloyl) oxy] ethanesulfonic acid is an important object of chemical research. Its unique properties and appearance often take on a specific state. In the reaction, it exhibits extraordinary activity and can interact ingeniously with many substances to derive a variety of products. Its delicate structure, the combination of (2-methacryloyl) oxygen and ethanesulfonic acid, gives it special chemical properties. In industrial applications, it has a wide range of uses, or participates in material synthesis to add unique properties to the material; or in specific reactions as key additives to promote the efficient progress of the reaction. In-depth exploration of it can open up a new path for the chemical industry, bring more possibilities, and help related industries to reach new heights.

Physical & Chemical Properties

2-Methylacryloyloxyethanesulfonic the physicalization of Acid (2 - (methacryloxy) ethanesulfonic acid) is of great importance. This compound has unique properties, and its molecules are susceptible to specific reactivity. In terms of physical properties, its properties, melting boils, etc., are affected by molecular forces. In terms of chemical properties, due to the presence of alkenyl sulfonic acid groups, it can be used for multiple reactions. The alkenyl group can be added to form a reaction. In the polymerization reaction, it can be copolymerized with other groups to form a polymer material with special properties. The sulfonic acid group makes the compound have certain water-based and acidic properties, which affect its solubility and reactivity in different media. The investigation of this property is essential in the fields of materials science, chemical engineering, etc., and can provide a basis for the development of new products.

Technical Specifications & Labeling

Today there is a thing called 2 - [ (2 - methacrylonyl) oxy] ethanesulfonic acid. Our generation is a chemical researcher, and its technical specifications and identification (product parameters) cannot be ignored.
The technical specifications of this substance are related to purity and properties. The purity needs to be high, and the impurities should be minimal to meet the requirements. Its properties should have specific colors and states, and there should be no variegated colors or abnormal shapes.
The identification (product parameters) is also critical. The name should be accurate, and the molecular formula, molecular weight and other parameters must be clear. On the packaging, the characteristics and precautions of this substance should also be clearly marked to prevent misuse. In this way, we can ensure that this product is properly disposed of in various applications to achieve its effectiveness.

Preparation Method

The method of preparing 2 - [ (2-methacryloyl) oxy] ethanesulfonic acid is as follows:
For raw materials, take an appropriate amount of 2-hydroxyethanesulfonic acid and 2-methacryloyl chloride as binders. Synthesis process, in a suitable reactor, temperature control at [X] ℃, 2-methacryloyl chloride is slowed into 2-hydroxyethanesulfonic acid solution, during which stirring is continuous. The reaction step is first nucleophilic substitution of acid chloride and hydroxyl group, and then a series of conversions. Catalytic mechanism, a little organic base catalyst can be added to promote the reaction speed and increase the yield. After these steps, the product of 2- [ (2-methacryloyl) oxy] ethanesulfonic acid can be obtained.

Chemical Reactions & Modifications

Recently, the research on the compound of 2 - [ (2 - methacrylonyl) oxy] ethanesulfonic acid has been quite fruitful. Its transformation is wonderful, and it is related to the change of the product. This should also be done, or it is necessary to choose a good agent, control the temperature appropriately, in order to promote its formation. The rate of reaction is related to various causes, the amount of agent, the degree of temperature, and the duration of time can be controlled.
If you want to change its properties, you can adjust it in the application. Adding other agents and changing the order are expected to obtain heterogeneous things. After many tests, it is known that the amount of additive should be slightly faster, but if it passes, it will respond. The temperature control is in the appropriate area, and the purity and rate of the product are excellent.
This compound should be studied with modification, and the road ahead is still long. It is necessary to study the causes carefully and find better methods to expand its use and increase its value.

Synonyms & Product Names

The synonymous name of 2 - [ (2 - methacryloyl) oxy] ethanesulfonic acid and the name of the commodity are quite important in the field of my chemical research.
In the world of Guanfu chemistry, the names of various substances often vary according to time, place and use. 2 - [ (2 - methacryloyl) oxy] ethanesulfonic acid also has other names parallel to the world. Its synonymous name, or derived from its structure and characteristics, is in recognition of its chemical quality; the name of the commodity, or due to the needs of merchants and markets, in order to recognize and use.
For our researchers, knowing the name of this thing is synonymous with the name of the product is the basis for in-depth exploration of its performance, performance and use. From its name, we can see its chemical signs, preparation methods and application paths. And in academic exchanges and industrial production, precise use of names can convey information without error, promote the progress of chemical research and the prosperity of industry.

Safety & Operational Standards

Regarding 2 - [ (2 - methacryloyl) oxy] ethanesulfonic acid product safety and operating specifications
2 - [ (2 - methacryloyl) oxy] ethanesulfonic acid, this chemical is related to safety and operating standards and is extremely important.
When storing, choose a cool, dry and well-ventilated place. Because it is afraid of moisture and heat, if it is in a place with high temperature and humidity, it may cause changes in its nature. When kept away from fire, heat sources, and stored separately from oxidants, alkalis, etc., to prevent their interaction and dangerous changes.
When it comes to operation, operators must be professionally trained and follow strict procedures. It is advisable to wear appropriate protective clothing, goggles and gloves, because the substance may be irritating to the skin and eyes. The operating site should be well ventilated. If possible, it is better to set up local exhaust facilities to remove volatile gas and keep the air fresh.
During handling, be careful to prevent damage to the packaging container. If the packaging leaks, chemicals may leak out, or it may be dangerous. In the event of a leak, quickly isolate the leakage area and restrict personnel from entering and leaving. Emergency responders should wear self-contained positive pressure breathing apparatus and anti-acid and alkali work clothes. Do not let leaks come into contact with combustible substances. Small leaks should be mixed with sand, dry lime or soda ash and collected in a dry, clean, covered container. If there is a large amount of leakage, build a dike or dig a pit to contain it, transfer it to a tanker or a special collector with a pump, and recycle it or transport it to a waste treatment site for disposal.
In short, the safety and operation specifications of 2 - [ (2-methacryloyl) oxy] ethane sulfonic acid, from storage to operation, to emergency treatment, need to be strictly treated, and there should be no slack, so as to ensure the safety of personnel and the environment.

Application Area

In the field of industry, it can be used as a surfactant to help materials disperse and emulsify, making the production process smooth and improving product quality. In the field of materials science, it can participate in the polymerization reaction to produce special performance materials, such as polymers with high hydrophilicity and anti-fouling properties, which are used for fabric finishing, coating improvement, and material practicality. In the field of biomedicine, because of its special structure and properties, it can be used for drug carrier research and development to help drug targeted delivery, improve curative effect, reduce side effects, and bring new opportunities for disease treatment. Its application in many fields shows broad prospects, and researchers need to explore and dig deeper to show greater effectiveness.

Research & Development

Nowadays, there is a chemical called 2 - [ (2 - methacryloyl) oxy] ethanesulfonic acid, and its research and development are related to many fields. Our generation is a researcher to explore its mysteries. This substance has unique properties, or can be used in materials science, biomedicine, etc.
Study its synthesis method, strive for high efficiency and environmental protection. Optimize the reaction conditions, control the temperature, select the agent, and obtain high-purity products. Looking at its structure and analyzing its properties, it is hoped that it can improve existing materials or create new applications.
In the future, this chemical has great potential for development. It may lead the trend of new technology and contribute to the progress of the industry. We should make unremitting efforts to promote its wide application for the benefit of all.

Toxicity Research

Recently, in my chemical research, there is a substance called 2 - [ (2 - Methylacryloyl) Oxy] Ethanesulfonic Acid, and I am very serious about its toxicity.
covers the wider application of this substance, which is involved in various industrial fields. However, its toxicity is unknown, or endangers living beings and the environment. Therefore, I will focus my efforts to explore its impact on organisms under different conditions, observe whether it has the possibility of mutation, and observe its effect on cell structure and function.
After many experiments, record the data in detail, and analyze the results. It is hoped that the degree of toxicity and mechanism of action of this substance can be determined. If the toxicity is significant, it is necessary to quickly find protective measures and alternatives to ensure the safety of people and nature. Only by knowing its toxicity can we make good use of this substance, avoid its harm and pursue its benefits, and ensure foolproof between chemical research and industrial practice.

Future Prospects

Today there is a thing called 2 - [ (2 - methacrylonyl) oxy] ethanesulfonic acid, which holds great promise for future development in the eyes of our chemical researchers. This thing has unique characteristics, or it can develop its talents in many fields. Looking at the moment, although its application is still in the period of development, the future prospects can be looked forward to.
In the field of materials, it may be able to improve materials and endow things with new energy; in the road of medicine, it may also help research and development, for health and well-being. Although there may be thorns ahead, with the heart of our generation's research and determination, we will definitely be able to explore its potential, develop its future grand vision, and make it useful to the world, for the benefit of all.

Frequently Asked Questions

What are the main application fields of 2- [ (2-methacryloyl) oxy] ethanesulfonic acid

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- ** 5.1 Pharmaceutical field **: This compound has unique biological and active properties, and can produce and affect some special biological processes in the human body. In drug research and development, it may be used as a new type of drug, precursor, substance. For example, by modifying and optimizing its structure, specific drugs can be designed for certain refractory diseases, such as certain types of cancer, autoimmune diseases, etc. It may participate in the process of cell proliferation, differentiation and death, etc., so as to achieve the purpose of treating diseases.
- ** 5.2 Pharmaceutical, industrial **: In, pharmaceutical, industrial, 2-%5B%282-%E7%94%B2%E5%9F%BA%E4%B8%99%E7%83%AF%E9%85%B0%29%E6%B0%A7%5D%E4%B9%99%E7%83%B7%E7%A3%BA%E9%85%B8 can be used as an important intermediate body. It has relatively stable chemical properties and easy to modify structural characteristics, making the drug synthesis process easier and more efficient. Pharmaceutical companies can use it to build more complex drug molecular structures, improve drug yield and purity, reduce production costs, and thus increase their competitiveness in the market.
- ** 5.3 Chemical Industry **: In the chemical industry, the compound can be used to synthesize some materials with special properties. For example, polymerization with other organic substances can produce high-molecular materials with excellent heat resistance, corrosion resistance, and corrosion resistance. These materials are widely used in aerospace, aerospace, automobile manufacturing, electronics, and other industries. In addition, it may also be used as a catalyst or auxiliary agent to improve the rate and selectivity of chemical reactions and promote the optimization of chemical production processes.
- ** 5.4 Biology, Technology, Research **: In, Biology, Technology, Research, 2-%5B%282-%E7%94%B2%E5%9F%BA%E4%B8%99%E7%83%AF%E9%85%B7%29%E6%B0%A7%5D%E4%B9%99%E7%83%B7%E7%A3%BA%E9%85%B8 can be used as, a, biological, marker. By measuring its content, or distribution, in an organism, researchers can better understand the biological, morphological, and pathological changes in an organism. For example, in the early diagnosis of a disease, it may become a potential diagnostic indicator, helping doctors to more accurately determine the stage of onset and development of the disease, providing a basis for subsequent treatment.

What are the physicochemical properties of 2- [ (2-methacryloyl) oxy] ethanesulfonic acid?

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The 2 - [ (2-methylpropionaldehyde) oxygen] glyoxylic acid described herein is an organic compound. Its physical and chemical properties are as follows:
Looking at its properties, it may be a colorless to light yellow liquid at room temperature, which is a common color state of many such organic compounds. Its odor may have a special irritation, because it contains functional groups such as aldehyde groups and carboxyl groups, such groups often give compounds a specific odor.
When it comes to solubility, because the molecule contains carboxyl groups, which are hydrophilic functional groups, it may have a certain solubility in water, but because it contains hydrocarbon groups, it has a certain hydrophobicity, so the solubility may not be very high. In common organic solvents such as ethanol and ether, their solubility may be relatively high. Due to the principle of similarity and miscibility, such organic solvents have certain similarities with the structure of this compound.
Its boiling point and melting point are also important physical properties. Due to the interaction of hydrogen bonds and van der Waals forces between molecules, its boiling point may be within a certain range, but the exact value needs to be determined by precise experiments. The melting point is also affected by the molecular structure and interaction, or is a specific temperature, at which the substance changes from solid to liquid.
As for the chemical properties, due to the aldehyde group, it has strong reductivity and can react with a variety of oxidants. For example, the reaction with Doron's reagent can generate a silver mirror, and the reaction with Feilin's reagent can generate a brick-red precipitate. The presence of the carboxyl group makes it acidic, which can neutralize with the base to form corresponding salts and water. At the same time, the functional groups of the compound may interact with each other, and condensation, substitution and other reactions occur under specific conditions, showing rich chemical reactivity.

What are the precautions in the synthesis of 2- [ (2-methacryloyl) oxy] ethanesulfonic acid?

In order to prepare 2 - [ (2-methylpropionaldehyde) oxy] butyric acid, there are many things to pay attention to during synthesis.
Purity of the first raw material. If raw materials such as methylpropionaldehyde and butyric acid contain impurities or cause the reaction path to shift, the product is impure. For example, if methylpropionaldehyde is mixed with other alaldehyde, or in the oxidation and condensation steps, unexpected by-products are generated, which interferes with the formation of the target product, so the raw materials need to be strictly purified to ensure the precise progress of the reaction.
The second is the control of the reaction conditions. In terms of temperature, this reaction needs to be carried out in a specific temperature range. If the temperature is too low, the reaction rate is slow and time-consuming; if the temperature is too high, the reaction may be out of control, and side reactions occur frequently. Such as oxidation steps, if the temperature is too high, methylpropionaldehyde or excessive oxidation will generate unnecessary carboxylic acids and reduce the yield of the target product. Furthermore, the pH, and a suitable acid-base environment is the key to the smooth progress of the reaction. Peracid or peralkali may affect the stability of the reaction intermediate and hinder the reaction process. Therefore, buffers and other means are needed to maintain the pH of the reaction system within a reasonable range.
Furthermore, the cleanliness and adaptation of the reaction equipment. Unclean equipment, residual impurities or abnormal catalytic reactions. The selected reaction vessel needs to be able to withstand reaction conditions, such as strong oxidation environment, if the container material is not resistant to corrosion, or dissolves impurities, it will affect the reaction. The stirring device also needs to be adapted to ensure that the reactants are fully mixed, so that the reaction occurs uniformly, and local reactions are avoided.
In addition, product separation and purification should not be ignored. After the reaction, the system contains target products, unreacted raw materials, by-products, etc. According to the physical and chemical properties of the product and impurities, a suitable separation method should be selected, such as distillation, extraction, recrystallization, etc. If the separation process is not properly operated, the product may be lost or impurities cannot be effectively removed, which will affect the purity and quality of the product.
In short, the synthesis of 2 - [ (2-methylpropionaldehyde) oxy] butyric acid requires fine control of raw materials, reaction conditions, equipment and product treatment in order to obtain ideal results.

How is 2- [ (2-methacryloyl) oxy] ethanesulfonic acid compatible with other compounds?

The compatibility of 2 - [ (2-methylpropionaldehyde) oxy] acetic acid with other compounds is related to many chemical synthesis and practical application scenarios, and is a key issue. Explore it in detail today.

Fu 2 - [ (2-methylpropionaldehyde) oxy] acetic acid, which has a unique chemical structure and active chemical properties. The carboxyl group of this compound and a specific substituent make it exhibit special activity in the reaction.
When considering its compatibility with nucleophiles, carboxyl groups are prone to react with nucleophiles. If the nucleophilic reagent is too nucleophilic, or triggers an excessive reaction, resulting in complex and diverse products, affecting the formation of the target product. For example, when it encounters some amine nucleophiles, or an amidation reaction occurs, if the reaction conditions are improper, or side reactions are produced, unexpected products are generated.
In the redox system, the stability of 2- [ (2-methylpropionaldehyde) oxy] acetic acid also needs to be carefully observed. Some groups in its structure may change under strong oxidation or strong reduction conditions. In case of strong oxidants, the aldehyde-derived part may be further oxidized, thereby changing the properties of the entire molecule.
Review its compatibility with acidic or basic compounds. In an acidic environment, the acidic nature of the carboxyl group may interact with other acidic substances to change the balance of the reaction. Under alkaline conditions, carboxyl groups are easily neutralized with bases, and other sensitive parts of the molecule may undergo hydrolysis and other reactions due to the action of bases.
Furthermore, the interaction with metal ions cannot be ignored. Metal ions or carboxyl groups form coordination compounds, which not only affect the properties of 2- [ (2-methylpropionaldehyde) oxy] acetic acid itself, but also affect other compounds coexisting with it, altering the reaction path and product distribution of the whole system.
In summary, the compatibility of 2- [ (2-methylpropionaldehyde) oxy] acetic acid with other compounds requires comprehensive consideration of the pH of the reaction system, redox conditions, and the existence of nucleophilic and electrophilic reagents. Only through comprehensive consideration and precise control can the ideal reaction effect and product quality be achieved in chemical synthesis and related applications.

What is the market prospect of 2- [ (2-methacryloyl) oxy] ethanesulfonic acid?

Today, there is 2- [ (2-methylpropionaldehyde) oxy] glyoxylic acid, and its market prospect is quite promising.
Looking at this 2- [ (2-methylpropionaldehyde) oxy] glyoxylic acid, it has unique characteristics in the chemical industry. The structure of this compound, after fine analysis, contains unique atomic combinations and chemical bonds, giving it specific chemical activity. In the field of organic synthesis, it is often used as a key intermediate and can be converted into many high-value products through multiple reaction paths.
Taking pharmaceutical manufacturing as an example, it can be the cornerstone of the synthesis of specific drugs. With its structural activity, it can precisely interact with targets in vivo, helping to develop innovative drugs with excellent efficacy and minimal side effects. For example, for certain anti-inflammatory drugs, 2 - [ (2-methylpropionaldehyde) oxygen] glyoxylic acid is used to participate in the synthesis step to optimize the molecular structure, improve the affinity between the drug and the receptor, and enhance the drug efficacy.
In the field of materials science, it also has outstanding performance. It can be integrated into the polymer material system through specific polymerization reactions to improve the mechanical properties and thermal stability of materials. When preparing high-performance engineering plastics, adding this compound in an appropriate amount can improve the toughness and anti-aging ability of plastics, broaden the application scenarios of materials, and be very useful in industries with strict material performance requirements such as aerospace and automobile manufacturing.
Furthermore, with the deepening of the concept of green chemistry, the synthesis process of 2- [ (2-methylpropionaldehyde) oxygen] glyoxylic acid has also evolved towards a more environmentally friendly and efficient direction. The exploration of new catalytic systems and reaction conditions has continuously improved its synthesis yield and selectivity, reduced production costs and environmental loads. This development trend will undoubtedly lay a solid foundation for its market expansion.
In summary, 2 - [ (2-methylpropionaldehyde) oxy] glyoxylic acid has a bright market prospect due to its wide application potential in many fields such as medicine and materials, as well as the cost advantages and environmental benefits brought by process optimization. It is expected to emerge in the future development of the chemical industry and inject strong impetus into technological innovation and industrial upgrading in related fields.