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Home Products Glycidyl Benzenesulphonate

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Glycidyl Benzenesulphonate

Lingxian Chemical

Specifications

HS Code	227080
Chemical Formula	C9H8O4S
Molecular Weight	212.22
Appearance	Typically a solid
Solubility In Water	Poorly soluble
Solubility In Organic Solvents	Soluble in some organic solvents
Stability	Stable under normal conditions

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

Packing & Storage

Packing	Glycidyl Benzenesulphonate packaged in 1 - kg containers for chemical use.
Storage	Glycidyl benzenesulphonate should be stored in a cool, dry place away from heat sources and ignition sources. Keep it in a tightly - sealed container to prevent moisture absorption and evaporation. Store separately from incompatible substances like strong acids and bases. This storage approach helps maintain its stability and safety, reducing risks of chemical reactions and degradation.
Shipping	Glycidyl benzenesulphonate, a chemical, is shipped with strict safety measures. It's carefully packaged in corrosion - resistant containers to prevent leakage during transit, ensuring compliance with hazardous chemical shipping regulations.

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General Information

Historical Development

I tried to study chemical products, Glycidyl Benzenesulphonate this product, its origin can be traced back to the past. At the beginning, the chemical industry was not developed, and the exploration of various things was difficult. And with the gradual progress of science and technology, I began to pay attention to this product.
At that time, scholars worked hard to analyze its nature and study the method of making it. Over the years, from the crude method, gradually to the sophisticated. Every step depends on the wisdom and unremitting efforts of the predecessors.
From ignorance of the unknown to clarity, the number of processes changes, and the quality rises. In the past, the conditions were difficult, but now the technology is prosperous. The development of this product bears witness to the process of chemical industry. As time goes by, Glycidyl Benzenesulphonate has flourished since the beginning of its germination. In the future, it will also move forward with technology and rise to a higher level.

Product Overview

"Overview of Glycidyl Benzenesulphonate Products"
Glycidyl Benzenesulphonate is an exquisite product of chemical industry. It is unique and has extraordinary characteristics. Looking at its shape, it may be clear or have a different shape.
As far as its use is concerned, it shows its skills in various fields. In the industrial domain, it can be used as a key raw material to add its advantages to products and help the process to be exquisite. On the road of scientific research, it is a weapon to explore the unknown, attracting scholars to study in depth and opening up a chapter of innovation.
However, the preparation of this thing requires exquisite techniques. The craftsman takes a rigorous state and follows the scientific method to control the temperature and adjust the ratio. All links must not be lost in order to obtain a good product. And its preservation and transportation also need to be done with caution to prevent it from changing, ensure its quality, and use it for the world with all its effectiveness.

Physical & Chemical Properties

The physical and chemical properties of Glycidyl Benzenesulphonate are particularly important. Looking at its shape, at room temperature, it is either a colorless and transparent liquid or a white crystal. Its state varies depending on the temperature and pressure of the environment. Its taste, or a slight special smell, is not very pungent.
In terms of its solubility, it has a certain degree of solubility in water and various organic solvents. In polar solvents, such as ethanol and acetone, it is especially easy to dissolve, which is due to the intermolecular forces. Its boiling point and melting point are also fixed. The boiling point is about XX degrees Celsius, and the melting point is nearly XX degrees Celsius, which is a demonstration of its physical properties.
As for chemical properties, it has active reactivity. It can react with a variety of compounds, such as encountering nucleophiles, often causing nucleophilic substitution reactions to form new compounds. It has a wide range of uses in the field of organic synthesis.

Technical Specifications & Labeling

"Technical Specifications and Labeling of Glycidyl Benzenesulphonate Products (Product Parameters) "
There is Glycidyl Benzenesulphonate today, and its technical specifications are the key. Its properties must be pure and free of impurities, and the color and taste must be pure. The content must be accurate. According to a specific method, it should reach a very high proportion to meet the requirements.
As for the logo, when the product parameters are stated. On the packaging, the product name, content, batch number and other important items should be clearly engraved, so that people can see at a glance. And the material used for the logo must be wear-resistant, waterproof, and will not fade for a long time, so that everyone can distinguish the details of the product without error. In this way, the specifications of the technical specifications and labels should also be agreed.

Preparation Method

"On the Preparation Method of Glycidyl Benzenesulphonate"
To make Glycidyl Benzenesulphonate, the raw materials and production process are the key. The raw materials need to be selected from high-purity benzenesulfonic acid and epichlorohydrin, the purity of which is related to the quality of the product.
The production process is as follows: First, benzenesulfonic acid and an appropriate amount of catalyst are co-placed in a reactor, heated to a specific temperature, stirred evenly, so that the reaction is sufficient. Then slowly add epichlorohydrin to control the dripping speed. This is a key step in the reaction. After adding it dropwise, maintain the temperature and continue the reaction. The reaction process needs to be closely monitored and the conditions adjusted according to the reaction progress.
After the reaction is completed, the impurities are removed through the separation and purification steps to obtain high-purity Glycidyl The entire preparation process requires precise control of all aspects in order to produce high-quality products.

Chemical Reactions & Modifications

"On the Chemical Reaction and Modification of Glycidyl Benzenesulphonate"
Taste the chemical technology, subtle and subtle, and the change of matter is endless. Today there is Glycidyl Benzenesulphonate, which is quite valuable for research in the field of chemical reaction and modification.
Its chemical reaction often involves nucleophilic substitution, ring opening and other changes. Nucleophiles approach, epoxy rings open, new bonds are formed, and the structure is different. And the way of modification, or introduce other groups to adjust its properties. Adding functional groups to the side chain can change its solubility and reactivity.
To study this substance, when the reaction conditions, temperature, solvent, and catalyst are all important. Precise regulation, can obtain the ideal product. Modification process, also need to be careful, weigh the advantages and disadvantages, in order to achieve the best. This is what chemical researchers should think deeply and practice, in order to promote this material in industry, scientific research, and its use.

Synonyms & Product Names

The synonymous name of Glycidyl Benzenesulphonate is related to the importance of my chemical research. The synonymous name of Glycidyl Benzenesulphonate is known to the academic community, and it is established to accurately describe the characteristics and structure of this thing. The term commodity is in the market circulation, and it is born to facilitate identification and transaction.
Looking at things in the past, there are always differences between the synonymous name and the name of the commodity, but they all point to the same entity. For example, the scientific name of a drug accurately describes its ingredients and pharmacology, while the trade name is designed for marketing, which is easy to remember and attract public attention.
The synonymous name of Glycidyl Benzenesulphonate is based on chemical rules and research results, and is scientific and rigorous. Trade names may be given more popular and easy-to-know words according to their uses and characteristics, hoping to occupy a place in the market. In my chemical research, it is necessary to clarify the two in order to use them accurately without confusion, and to help academic exchanges and industrial development.

Safety & Operational Standards

About Glycidyl Benzenesulphonate product safety and operating specifications
The husband of Glycidyl Benzenesulphonate is also a chemical product. It is related to safety and operating standards, and it is of paramount importance and must not be ignored.
When storing, look for a cool, dry and well-ventilated place. This product should be kept away from fire and heat sources to prevent accidents. Do not store with oxidants, acids, alkalis, etc., because of its active nature, it is easy to phase with various substances, causing danger.
When operating, be sure to strictly abide by the procedures. The operator should first wear suitable protective clothing, such as protective clothing, protective gloves, and wear goggles to prevent this product from touching the skin and eyes. In the operating room, ventilation equipment must be complete to remove volatile gas and avoid inhalation.
If you accidentally touch the skin, rinse with a large amount of flowing water quickly, and then seek medical attention. If it enters the eye, immediately open the eyelids and rinse with flowing water or normal saline. You must also go to the medical office urgently. If you inhale accidentally, leave the scene quickly to a place with fresh air. If you feel unwell, seek medical attention urgently.
Furthermore, when disposing of waste, you should follow the regulations and do not dispose of it at will to avoid polluting the environment.
In short, the safety and operating standards of Glycidyl Benzenesulphonate need to be kept in mind by everyone, and everything should be done according to the regulations, so as to be safe and secure in production and use. This is why you can settle down, maintain the tranquility of the environment, and promote the good progress of the chemical industry.

Application Area

Today there is a thing called Glycidyl Benzenesulphonate, which has a wide range of uses. In the field of chemical industry, it can be used to make exquisite agents, to help the reaction go forward, and to increase the quality of the product. In the world of materials, it can be used as a key material to give materials special properties, such as strength, corrosion resistance, etc. In the road of medicine, it also has its own merits, or it can be used as a raw material for making good medicines, to help treat diseases and relieve the suffering of patients. The scope of its application spans several realms, and it is essential for the progress of various karma, just like a boat in a river or sea, and it is indispensable to lead the ships of various karma to break through the waves.

Research & Development

In recent times, it has been restored, and the chemical refinement has improved, and new things have emerged one after another. In today's discussion of Glycidyl Benzenesulphonate, its research and development are worth paying attention to. At the beginning, various sages observed its properties, explored its structure, and worked hard to understand its rationale. At the beginning, the understanding was still shallow, but I worked tirelessly. Gradually, in the method of synthesis, I strive to improve, to obtain pure products, and to increase its yield.
Study its application, and find that it can be done in various fields. In the field of materials, its properties can be changed, making materials strong and special. In medicine, there may be potential capabilities to help with the success of drugs. Although progress has been made, the road ahead is still long. In the future, we should deepen research, expand applications, and make it shine in industry and people's livelihood, contributing to human well-being. This is the ambition of our generation of chemical researchers.

Toxicity Research

Tasting and smelling the poison of physical properties is of great importance to people's livelihood. It is particularly important to study the toxicity of Glycidyl Benzenesulphonate today.
Examine its quality in detail and test it with ancient methods. After various trials, observe its sympathetic state with other things. Observe the various reactions that occur when it enters the body, or is eaten orally, or touched by the skin.
At the beginning of the observation, no significant abnormalities were seen. However, it lasted a little longer, and it disturbed the internal organs. Or cause qi and blood to be blocked, or cause the meridians to be congested. The function of the internal organs is gradually surly.
It can be seen that this Glycidyl Benzenesulphonate is toxic, which cannot be underestimated. Although there is no sign of violent poison, it is subtly influenced and harmful to people's health. When using it in the future, you should be cautious and careful, and study the methods of avoiding harm in detail, so as to preserve the peace of the living and not let the poison flow in the world.

Future Prospects

Looking forward to the future, I have high hopes for this product at Glycidyl Benzenesulphonate. This compound has unique chemical properties, its precision, and the possibility of hiding.
In the future, I will be able to deeply explore its anti-research, dig more synthetic paths, and improve the efficiency. Hope that it will make great use of the field of materials, or can produce new materials with excellent performance, such as high-quality, corrosion-resistant special polymers, which can be used in aerospace, automotive manufacturing, etc.
In terms of development, it is also hoped that it can develop its biological activity and explore new research directions. Or it can be used as a product, and the fine product can be sent to the sick site to improve the efficiency. It is believed that through unremitting research, Glycidyl Benzenesulphonate will be able to play a significant role in the future and make great progress in the field of transformation.

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Frequently Asked Questions

As a leading Glycidyl Benzenesulphonate 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 chemical properties of Glycidyl Benzenesulphonate?

Epoxy propyl benzenesulfonate is a unique compound in organic chemistry. Its chemical properties are quite rich and characteristic.
In terms of reactivity, the epoxy propyl moiety is extremely reactive. The tension of the epoxy ring is very high, making it easy to open the ring with nucleophiles. Nucleophiles, such as alcohols and amines, can attack the carbon atoms of the epoxy ring, causing the ring to break and form new chemical bonds. For example, if it encounters an alcohol, under appropriate conditions, the hydroxyl groups of the alcohol will attack the epoxy ring to form a product with hydroxyl and sulfonate groups. This reaction is often used in organic synthesis to construct specific molecular structures and can be used to prepare compounds with special functional groups.
The benzenesulfonate moiety also has its unique properties. The sulfonate group is a good leaving group. Under suitable reaction conditions, the benzenesulfonate group can be separated from the molecule, so that the compound can participate in nucleophilic substitution reactions. This property is widely used in the field of organic synthesis, and other functional groups can be introduced to realize the modification and construction of molecular structures.
In addition, the stability of epoxy propyl benzenesulfonate is also affected by specific factors. Its stability is closely related to the environment, such as temperature, pH, etc. In acidic or alkaline environments, its structure may change, and epoxy rings or benzenesulfonate groups may undergo reactions such as hydrolysis, resulting in changes in the structure and properties of compounds.
Overall, epoxy propyl benzenesulfonate has important application value in many fields such as organic synthesis and materials science due to its active nucleophilic reactivity of epoxy propyl group and special departure properties of benzenesulfonate group. It can be used to prepare various compounds and materials with special functions.

Where is Glycidyl Benzenesulphonate used?

Epoxy propyl benzene sulfonate is used in various fields. In the field of medicine, this substance can be used as a raw material for the synthesis of pharmaceutical intermediates. Because of its unique structure, it can introduce specific functional groups into drug molecules to help create new drugs. Doctors make good medicines, or rely on this as a basis, to achieve the effect of curing diseases.
In the field of materials, epoxy propyl benzene sulfonate is also an important position. It can be used to prepare polymer materials with special properties. For example, resins with high corrosion resistance and high toughness are made to add protection to equipment and equipment, making them durable in harsh environments. Craftsmen use this as an additive material.
Furthermore, in the daily chemical industry, it is also used. It can participate in the synthesis of surfactants, so that the product has better decontamination and emulsification properties. The daily washing materials used by the world, or because they contain this ingredient, can be decontaminated and cleaned, making life more convenient.
In the field of electronics, epoxy propyl benzene sulfonate can be used to make electronic packaging materials. This material can protect electronic components from external environment intrusion and ensure stable operation of electronic equipment. Artisan-made electronic devices are protected by it, so that the equipment is stable and secure.
In short, epoxy propyl benzene sulfonate has developed its strengths in medicine, materials, daily chemicals, electronics and other fields, and has made great contributions to the prosperity of various industries.

What is the preparation method of Glycidyl Benzenesulphonate?

The method of preparing glycidyl benzenesulfonate is to first take benzenesulfonic acid, mix it with an appropriate amount of epoxy chloropropane, and add an appropriate amount of alkali catalyst, such as sodium hydroxide or potassium hydroxide, in a specific reaction vessel. The reaction temperature needs to be carefully controlled, about 40 to 60 degrees Celsius. This temperature range allows the reaction to have an appropriate rate and avoid excessive side reactions.
During the reaction, continue to stir the mixture to ensure sufficient contact of the reactants and promote the uniform progress of the reaction. As the reaction progresses, the sulfonic acid group of benzenesulfonic acid reacts with the cycloxy group of epoxy chloropropane to gradually generate glycidyl benzenesulfonate. The reaction process can be monitored by means of thin-layer chromatography or high-performance liquid chromatography. When the reactants are exhausted or the amount of product generated reaches the expected standard, the reaction is terminated. After that, the reaction mixture is subjected to a post-treatment step. First, the product is extracted with an appropriate organic solvent, separated from the reaction system, and then the residual catalyst and impurities are washed away with water. Then the organic solvent is removed by distillation or reduced pressure distillation to obtain a relatively pure glycidyl benzenesulfonate product. The whole process requires strict control of the reaction conditions to ensure that the purity and yield of the product meet the requirements.

How safe is Glycidyl Benzenesulphonate?

Epoxy propyl benzene sulfonate, its safety is related to many aspects, it should not be ignored.
This substance has been used in the chemical industry, its chemical properties or latent risk. In terms of chemical structure, epoxy propyl is active and reactive, or reacts chemically with other substances under specific conditions. If it is not properly controlled, it may cause unpredictable changes.
At the level of human contact, if accidentally touched, or irritate the skin and mucous membranes. Cover because of its chemical activity, or cause allergies and other discomfort. If inhaled its volatiles, it may damage the respiratory system, causing cough, asthma and other symptoms.
From the perspective of environmental impact, if it flows into nature, or disturbs the ecological balance due to its own characteristics. It may be difficult to degrade in soil and water, and it will affect the survival and reproduction of organisms after accumulation.
When it is produced, stored and transported, caution must also be taken. Epoxy propyl benzene sulfonate may have specific requirements on the material of the container, improper storage or leakage. If the protection is not good during transportation, once it leaks, it will harm the surrounding environment and personal safety.
Therefore, during the use of epoxy propyl benzene sulfonate, safety regulations should be strictly observed, and its safety should be carefully evaluated to ensure personal and environmental safety.

What are the reactions of Glycidyl Benzenesulphonate with other substances?

Epoxy propylbenzenesulphonate (Glycidyl Benzenesulphonate) is an organic compound with unique chemical activity and can react with many substances. The common ones are the following categories:
1. ** Nucleophiles **: The cyclooxy group of epoxy propylbenzenesulphonate is very active and vulnerable to attack by nucleophiles. Nucleophiles such as alcohols, phenols, amines, etc. can react with epoxy groups. Taking alcohols as an example, under suitable conditions, the hydroxyl group of alcohols will attack the epoxy group, initiating a ring-opening reaction to form products containing hydroxyl groups and sulfonate groups. This reaction is often used in organic synthesis to construct complex molecular structures or introduce specific functional groups.
2. ** Carboxylic acid and its derivatives **: Epoxy propyl benzenesulfonate can react with carboxylic acid or its derivatives (such as acid anhydride). The carboxylic group of carboxylic acid can react with epoxy group to form ester products. This reaction is quite useful in the preparation of ester compounds with special structures, which can endow the products with unique physical and chemical properties.
3. ** Metal organic reagents **: Some metal organic reagents, such as Grignard reagents, can also react with epoxy propyl benzenesulfonate. The carbon negative ions in Grignard reagents will attack the epoxy group, thereby opening the ring and forming new carbon-carbon bonds. This reaction provides an effective way to increase the carbon chain and build a complex carbon skeleton in organic synthesis.
4. Polymerization: Because its molecular structure contains reactive epoxy groups and sulfonate groups, epoxy propyl benzene sulfonate can participate in the polymerization reaction. For example, it can gradually polymerize with polyols, polyamines, etc., to generate polymers with special properties. These polymers or due to the presence of sulfonate groups, have good solubility, ion exchange properties, etc., and may have important applications in the field of materials science.