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1-Butylsulfonate-3-Methylimidazolium

Specifications

HS Code	646395
Chemical Formula	C8H14N2O3S
Molecular Weight	218.27
Appearance	Typically a liquid
State At Room Temperature	Liquid
Melting Point	Lower than many traditional organic solvents
Density	Data varies, specific value depends on purity and measurement conditions
Solubility	Soluble in some polar organic solvents
Viscosity	Higher than water, value depends on temperature
Thermal Stability	Generally good, can withstand certain high temperatures without decomposition

As an accredited 1-Butylsulfonate-3-Methylimidazolium factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100g of 1 - Butylsulfonate - 3 - Methylimidazolium in air - tight, labeled chemical containers.
Storage	1 - Butylsulfonate - 3 - Methylimidazolium should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and oxidizing agents. Store in a tightly sealed container to prevent moisture absorption and volatilization. Due to its potential reactivity, avoid storing near incompatible substances, and ensure proper labeling for easy identification and safety handling.
Shipping	1 - Butylsulfonate - 3 - Methylimidazolium is shipped with precautions due to its chemical nature. It's packaged securely in corrosion - resistant containers, safeguarded during transit to prevent leakage, and shipped in accordance with hazardous chemical regulations.

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General Information

Historical Development

When I heard that there was something in the past, it was called 1 - Butylsulfonate - 3 - Methylimidazolium. Its beginning is also hidden in the end of the micro, and it is not known to everyone. However, the wise man noticed it, and its nature was different from the usual, so he paid attention to it.
At the beginning, the exploration was difficult and there were many mistakes. However, the unremitting people have accumulated years and months to study its principles, and gradually understand its quality. As the method is becoming more and more refined, the use is also becoming more and more widespread.
Since its inception, in various fields, such as chemical industry and medicine, it has its uses and helps things move forward. Looking at its course, from the smallest to the beginning, it really depends on the efforts of the researchers, so that it can be used in the world and used by everyone, which is the outline of its historical development.

Product Overview

Today there is a product called 1 - Butylsulfonate - 3 - Methylimidazolium. This is the product of chemical research. Its unique nature, both imidazole ring structure, and connected with butyl sulfonic acid base and methyl. Looking at its shape, it is liquid at room temperature, has good solubility, and can be dissolved in many organic solvents and water.
This product has a wide range of uses. In chemical reaction systems, it can be used as an excellent catalyst to speed up the reaction process and increase the yield. Due to its special anion and cation structure, it can effectively reduce the activation energy of the reaction, so that many reactions can be carried out under mild conditions. And its stability is good, it can be reused, reducing resource loss and waste generation. In the field of materials, it can also be used to participate in material synthesis and improve the properties of materials, such as enhancing the conductivity and thermal stability of materials. It is a product with great potential in chemical research and industrial applications.

Physical & Chemical Properties

1 - Butylsulfonate - 3 - Methylimidazolium is a new substance made by modern chemistry. Its physical and chemical properties are particularly specific, which has led to the research of scholars.
Looking at its physical properties, under room temperature, it may be in a fluid state, uniform in texture, pure in color and transparent. Its boiling point and melting point are different from ordinary substances, and vary slightly according to the environment. And it has good heat conductivity and mass transfer ability, and can quickly blend with other substances in various systems.
In terms of its chemical properties, its chemical activity is quite obvious, and it can react with a variety of reagents under specific conditions. Or form new bonds or change structures, making it a good choice for synthesizing novel compounds. Its stability is also considerable. In case of common temperature and pressure, ordinary reagents, it is not easy to decompose and deteriorate. This kind of physical and chemical properties makes it have the potential to be widely used in the fields of chemical industry and materials, and it will be well used by scholars.

Technical Specifications & Labeling

1 - Butylsulfonate - 3 - Methylimidazolium This product is related to its technical specifications and identification (product parameters), which is an extremely important matter. Looking at its physical properties, it is necessary to measure its melting point, solubility, etc. When it melts in a specific temperature range, if it does not match, the quality is poor. Solubility in various solvents is also a key characterization.
As for the label, its chemical name and molecular formula should be clearly engraved, so that the user can understand its essence. Product parameters should also be listed in detail, such as purity geometry, impurity content, which cannot be omitted. This is essential to ensure its quality and application. In line with technical specifications and accurate identification, it can be safely applied in various fields of chemical industry without fear of safety and effectiveness.

Preparation Method

1 - Butylsulfonate - 3 - Methylimidazolium is a new compound. Its preparation method is crucial to the raw materials and production process, reaction steps and catalytic mechanism.
The raw materials prepared should be selected with high purity. In a specific ratio, the imidazole raw materials are compatible with the reagents containing butyl sulfonate. The reaction steps are rigorous and orderly. Under suitable temperature and pressure, the two are mixed evenly to start the reaction. This reaction process requires precise control of the time and monitoring of the degree of reaction.
The production process pays attention to details, and the reaction device must be clean and well sealed to prevent impurities from mixing. The temperature is precisely regulated and moderately rises and falls according to the reaction stage.
The catalytic mechanism is also crucial. The selection of high-efficiency catalysts can speed up the reaction rate and improve the purity of the product. During the catalytic process, the catalyst interacts with the reactants to reduce the activation energy of the reaction and make the reaction progress smoothly.
In this way, following this preparation method, high-purity 1-Butylsulfonate-3-Methylimidazolium products may be obtained, laying the foundation for related research and applications.

Chemical Reactions & Modifications

Recently researched 1 - Butylsulfonate - 3 - Methylimidazolium, this substance has many thoughts and understandings in the chemical response and properties.
It should also be observed at the beginning. Although the reaction can be achieved, the conditions are harsh and time-consuming. If you want to change it, you should think about changing the method. Gu Yun: "If you are poor, you will change, and if you change it, you will work." Then try to adjust the temperature and pressure, and choose the catalyst.
As for the nature, although the original nature is there, it has not been perfected. If it is stable, it will fluctuate when it encounters a slight temperature change. If you want to improve its properties, you can add other agents to transform its structure. "Yi" says: "With each new day, it is called Shengde." Only by seeking innovation and change can we make this material property better. Expect to change it, get the best effect, and it can be beneficial to all things in the chemical industry, and live up to the heart of research.

Synonyms & Product Names

1-Butyl sulfonic acid-3-methylimidazole salt is a synonymous name and a commodity, which is related to the importance of chemical research. In the course of my chemical research, I know that the search for synonymous names and commodity names is of crucial significance in clarifying its characteristics, uses and market conditions.
1-Butyl sulfonic acid-3-methylimidazole salt, or another name to suit different scenarios. The name of the synonym may vary depending on the region and research field, but it all refers to this specific chemical substance. The name of the product is related to marketing activities and identification, and is determined by the merchant to recognize its uniqueness.
Detailed study of 1-butylsulfonic acid-3-methylimidazole salt, or in the literature and manufacturer's directory, we can find a variety of synonymous names and product names. This helps us to fully grasp this product, and to communicate accurately when researching and applying it without ambiguity. It also helps to gain insight into market trends and know products of different brands, so as to select suitable products and promote the progress of chemical research.

Safety & Operational Standards

1 - Butylsulfonate - 3 - Methylimidazolium Product Safety and Operating Practice
Husband 1 - Butylsulfonate - 3 - Methylimidazolium is a product of chemical research. Safety and operating practices are of paramount importance during experimentation and application.
First word safety. This product has specific chemical properties or poses a latent risk to the human body and the environment. Therefore, when taking it, it is necessary to wear suitable protective equipment, such as gloves and goggles, to avoid skin and eye contact. If it is accidentally touched, it should be rinsed with plenty of water immediately and seek medical attention as appropriate. Furthermore, its odor may be irritating, and it should be operated in a well-ventilated place to prevent respiratory discomfort caused by inhalation. If inhaled, quickly move to a place with fresh air, and seek medical treatment if necessary.
On the operating specifications of the second time. For storage, it is advisable to keep it in a cool, dry and ventilated place, away from fire, heat and oxidants, to prevent accidental reactions. When taking it, measure it accurately, according to the needs of the experiment, to avoid waste and pollution. When the experimental equipment is used up, clean it in time to keep it clean and avoid interference to subsequent experiments. The operation process also needs to strictly follow the established procedures, and must not be changed without authorization. If in doubt, study it first and then proceed.
In general, although 1-Butylsulfonate-3-Methylimidazolium is a powerful tool for chemical research, its safety and operating standards are something that researchers should not slack off at all times. Only by strictly following this path can we ensure the smooth progress of the experiment, the safety of personnel, and the integrity of the environment.

Application Area

Today there is a product called 1 - Butylsulfonate - 3 - Methylimidazolium, which is quite useful in various application fields. In the chemical industry, it can be used as a high-efficiency catalyst to accelerate many reaction processes and improve the yield and purity of the product. In the preparation of materials, it can optimize the properties of materials, such as enhancing the stability and flexibility of materials. In the separation and purification industry, its characteristics can be used to accurately separate different substances, improving the efficiency and accuracy of separation. This substance has also made a name for itself in energy storage, and may improve battery performance and extend battery life. From this perspective, 1 - Butylsulfonate - 3 - Methylimidazolium has great potential in many application fields, which is worthy of in-depth exploration and development.

Research & Development

In recent years, I have devoted myself to the field of ionic liquids, especially 1-Butylsulfonate-3-Methylimidazolium. At the beginning of the study, there was a lack of data, and the road to research was full of thorns.
However, I did not give up. After repeated experiments, I carefully observed its physicochemical properties. In different temperatures, humidity, pH, observe the changes in its properties, analyze the differences in its structure. And use a variety of advanced instruments to measure its purity, stability and other key numbers.
Fortunately, it exhibits extraordinary activity in catalytic reactions, which can greatly promote the reaction speed and increase the yield. And compared with traditional reagents, it is more environmentally friendly and can be reused many times.
Now, although we have achieved some success, we know that there is a long way to go. In the future, we will expand the field of its application, explore more possibilities in energy, materials and other aspects, and hope to contribute to the academic and industry, and promote the vigorous development of this field.

Toxicity Research

In recent years, I have focused on the substance 1 - Butylsulfonate - 3 - Methylimidazolium, and devoted myself to studying its toxicity. This substance is new and has been gradually applied in many fields, but its toxicity is unknown and hidden dangers exist.
I have used various methods to observe its impact on living things. Test it with microinsects and green plants, and observe its state in detail. When the microinsects are exposed to this substance, their actions are different, and their vitality is gradually lost; the green plants also change leaf color and their vitality is damaged.
Over time and months, it has been proved that 1 - Butylsulfonate - 3 - Methylimidazolium is toxic. Although in the experiment, its harm has been obvious, but in order to understand its damage to the ecology of all things and the health of all kinds in the vast world, it still needs to be studied in depth. Be careful to prevent it from escaping, avoid disaster to the ecology, and protect the well-being of the people.

Future Prospects

Wuguan 1 - Butylsulfonate - 3 - Methylimidazolium, although it is now in the present, its future development is full of hope. Its unique nature has extraordinary potential in many fields.
In the field of chemical industry, it may optimize the reaction process, improve the purity and yield of the product, and add strong impetus to the development of the industry. In material science, it may give birth to new materials with better performance and meet diverse needs.
With time, through unremitting research and practice, its application may be expanded to new fields, such as biomedicine, to help diagnose and treat diseases; or into the field of energy, to promote the development of clean energy. I firmly believe that 1 - Butylsulfonate - 3 - Methylimidazolium will shine brightly in the future, bring many surprises and changes to the world, and lead our generation to a brighter future.

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Frequently Asked Questions

As a leading 1-Butylsulfonate-3-Methylimidazolium 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 1-Butylsulfonate-3-Methylimidazolium main application fields?

1-Butyl sulfonic acid-3-methylimidazolium, this substance is used in various fields of chemical industry.
In the field of catalysis, it is often used as a high-efficiency catalyst. Due to its special structure, it can effectively reduce the activation energy of the reaction and accelerate many chemical reactions. For example, in organic synthesis, using it as a catalyst can make the reaction conditions milder and improve the rate and yield of the reaction. In some esterification reactions, adding an appropriate amount of this substance can make the reaction that originally required high temperature and high pressure complete smoothly under relatively easy conditions, and the purity of the product is also increased.
The preparation of ionic liquids is also common. As an important part of ionic liquids, 1-butylsulfonic acid-3-methylimidazolium imparts unique physical and chemical properties to ionic liquids. Ionic liquids have the characteristics of low vapor pressure, high thermal stability and excellent solubility, and are used in separation, purification, electrochemistry and other fields. The ionic liquids prepared by its participation can be used to extract and separate specific components in complex mixtures. By adjusting the structure and properties of ionic liquids, the selectivity and affinity of target substances are enhanced, and the purpose of efficient separation is achieved.
Furthermore, in the field of materials science, it also makes contributions. When preparing functional materials, it can be used as a structural guide or template to guide the microstructure growth and assembly of materials. In this way, materials with specific morphologies and properties can be prepared, such as ordered mesoporous materials. Such materials have shown excellent properties in adsorption, catalysis, sensing, etc., injecting new vitality into the development of materials science.
Overall, 1-butyl sulfonic acid-3-methylimidazolium plays a key role in catalysis, ionic liquid preparation, materials science and other fields, and is of great significance to promote technological progress and industrial development in related fields.

What are the physical and chemical properties of 1-Butylsulfonate-3-Methylimidazolium?

1-Butyl sulfonic acid-3-methylimidazole salt, this is a type of ionic liquid with unique physical and chemical properties and wide use in many fields.
Let's talk about its melting point first. The melting point of this salt is relatively low, often lower than that of traditional organic compounds. Due to its special ionic structure and weak interaction between ions, the lattice energy is reduced, so the melting point is not high. This property makes it liquid at room temperature or slightly higher temperature, which is easy to operate and apply.
Besides solubility, 1-Butyl sulfonic acid-3-methylimidazole salt exhibits good solubility to many organic and inorganic compounds. Its anionic and cationic structure endows it with amphiphilicity, which not only interacts with polar substances, but also dissolves some non-polar substances. This makes it an excellent solvent for extraction, chemical reactions and other processes, which can effectively promote the contact of reactants and improve the reaction efficiency.
Conductivity is also one of the important properties. As an ionic liquid, it can conduct electricity in a liquid state. Because there are a large number of freely movable anions and cations in it, under the action of an external electric field, the ions move in a directional direction to form a current. Its conductivity is affected by factors such as temperature and concentration. When the temperature increases, the ionic movement intensifies and the conductivity increases. When the concentration is appropriate, the number of ions increases and the conductivity also increases.
In terms of thermal stability, the salt has good thermal stability. In a certain temperature range, its structure will not decompose rapidly due to heat. This is due to the strong interaction force between ions and the stable chemical bond structure. Good thermal stability makes it suitable for high temperature reaction systems, expanding application scenarios.
In addition, the acidity of 1-butyl sulfonic acid-3-methylimidazole salt cannot be ignored. The presence of sulfonic acid groups makes it acidic, which can play a key role in some catalytic reactions. As a solid acid catalyst, it participates in various organic synthesis reactions, and has the advantages of reusability and environmental friendliness.

1-Butylsulfonate-3-Methylimidazolium What are the precautions during the synthesis process?

In the synthesis process of 1-butylsulfonic acid-3-methylimidazole, many things need to be paid attention to. First and foremost, the purity of the raw material is extremely critical. If the raw material is impure, impurities will mix into the reaction system, interfere with the reaction process, and make the product purity poor. Therefore, before using the raw material, it should be strictly purified to ensure that it meets the reaction requirements.
The precise control of the reaction conditions cannot be ignored. In terms of temperature, too high or too low temperature will affect the reaction rate and product selectivity. At different stages, the appropriate temperature may vary, and the reaction needs to be initiated at a specific temperature in the early stage of synthesis, and may need to be adjusted later to promote the formation of the product. Taking a common reaction as an example, if the temperature is too high at a certain stage, the impurities in
Furthermore, the reaction time needs to be properly controlled. If the time is too short, the reaction is not sufficient, and the yield is low; if the time is too long, it may cause side reactions, consume the product, and reduce the purity. For example, in a similar reaction, due to the long reaction time, the product undergoes a secondary reaction, and the yield decreases significantly.
The choice of solvent is also quite important. Different solvents have different solubility to the reactants, which will affect the reaction rate and equilibrium. The selected solvent needs to be able to dissolve the reactants well and not have side reactions with the reactants and products. For example, in a reaction, due to improper solvent selection, the reaction cannot proceed smoothly.
In addition, the stirring of the reaction process should not be underestimated. Uniform stirring can fully contact the reactants, speed up the reaction rate, and ensure that the reaction proceeds uniformly. If the stirring is uneven, the concentration of local reactants is too high or too low, which affects the reaction effect.
After the synthesis is completed, the separation and purification of the product should also be treated with caution. According to the characteristics of the product, choose appropriate methods, such as distillation, extraction, recrystallization, etc., to obtain high-purity products.

What impact does 1-Butylsulfonate-3-Methylimidazolium have on the environment?

1-Butyl sulfonic acid-3-methylimidazolium is a kind of ionic liquid. Its impact on the environment cannot be ignored.
If this ionic liquid is released in nature, its characteristics may cause various effects. First, because of its special structure, it is difficult to degrade in aquatic ecosystems. If aquatic organisms encounter it, they may be harmed. For example, it may interfere with the physiological processes of aquatic organisms, such as hindering their respiration and feeding, and even affect their reproduction and development. Studies have shown that some ionic liquids can cause abnormal fish behavior and inhibit the photosynthesis of algae.
Furthermore, the soil environment is also affected by it. It enters the soil, or changes the physical and chemical properties of the soil, affecting the soil microbial community. Soil microorganisms are crucial to the maintenance of soil fertility and material circulation. If they are disturbed, they may cause soil ecological imbalance and affect plant growth.
In the atmospheric environment, although this ionic liquid has less volatilization under normal conditions, under certain conditions, its volatiles may participate in atmospheric chemical reactions and affect air quality.
However, there are also positive aspects. As a green solvent, it can replace traditional organic solvents in some applications and reduce the emission of volatile organic compounds, which is beneficial to atmospheric environmental protection. However, in general, its latent risk to the environment needs to be studied in detail in order to find proper policies to avoid its harm and promote its benefits in the long run.

What are the advantages of 1-Butylsulfonate-3-Methylimidazolium compared to other similar compounds?

1-Butylsulfonic acid-3-methylimidazolium has many advantages compared with other similar compounds.
First, this compound has good thermal stability. Its structure is special, the chemical bond energy is strong, and it is not easy to decompose under high temperature environment, and the stability is superior to that of the same kind. In this way, in the high temperature process or in the reaction system that needs to withstand hot topics, 1-butylsulfonic acid-3-methylimidazolium can maintain the structural integrity and ensure the stable progress of the reaction. It will not lose its activity or decompose and deteriorate due to the increase in temperature. This is beyond the reach of ordinary analogs.
Second, its solubility is excellent. In many organic solvents and water, it can show good solubility, and can be widely adapted to various reaction media. This provides convenience for many chemical reactions. Whether it is a homogeneous reaction or a heterogeneous reaction system, it can promote full contact and mixing between reactants by virtue of its good solubility, improve the reaction rate and efficiency, and other similar compounds may be limited due to solubility limitations.
Furthermore, 1-butylsulfonic acid-3-methylimidazolium has high ionic conductivity. Its ionic properties make it effective in conducting ions under specific conditions, and it has obvious advantages in the field of electrochemistry. If applied to battery electrolytes or super capacitors, it can improve the ion transport efficiency, thereby enhancing the charging and discharging performance of batteries and the energy storage and release efficiency of capacitors, which is better than ordinary similar compounds in this regard.
In addition, the compound has unique catalytic activity for some reactions. The specific functional groups and ionic properties in its structure can affect specific reaction pathways, reduce the activation energy of the reaction, selectively catalyze certain reactions, and the catalytic effect is significant, the product selectivity is high, and the application potential in organic synthesis and other fields is huge, while the same compounds may not have this unique catalytic advantage.
In summary, 1-butyl sulfonic acid-3-methylimidazolium has emerged in many fields due to its advantages of good thermal stability, excellent solubility, high ionic conductivity and unique catalytic activity, and has more application value and development potential than other similar compounds.