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Home Products Butyl 1-Allylcyclopropanesulfonate

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Guanidine Series

Butyl 1-Allylcyclopropanesulfonate

Specifications

HS Code	791244
Chemical Formula	C10H18O3S
Molecular Weight	218.31
Appearance	Typically a colorless to pale - yellow liquid
Boiling Point	Data may vary, but around [X] °C under specific pressure conditions
Density	[X] g/cm³ at [specific temperature]
Solubility	Soluble in some organic solvents like ethanol, acetone
Vapor Pressure	Low vapor pressure at room temperature
Flash Point	[X] °C (closed - cup method)
Stability	Stable under normal storage conditions, may react with strong oxidizing agents

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

Packing & Storage

Packing	1 kg of Butyl 1 - Allylcyclopropanesulfonate packaged in air - tight, chemical - resistant containers.
Shipping	Butyl 1 - Allylcyclopropanesulfonate is shipped in well - sealed, corrosion - resistant containers. It adheres to strict safety regulations due to its chemical nature, ensuring secure transportation to prevent any leakage or hazards.
Storage	Butyl 1 - Allylcyclopropanesulfonate should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, direct sunlight, and open flames to prevent decomposition or potential fire hazards. Store in a tightly closed container to avoid contact with air and moisture, which could affect its chemical stability.

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Certification & Compliance

Butyl 1-Allylcyclopropanesulfonate is manufactured under an ISO 9001 quality system and complies with relevant regulatory requirements.
COA, SDS/MSDS, and related certificates are available upon request. For certificate requests or inquiries, contact: sales7@alchemist-chem.com.

General Information

Historical Development

Butyl 1 - Allylcyclopropanesulfonate is a unique chemical product. Looking back in the past, its research and development process is unique. At the beginning, researchers only had a slight understanding of its basic properties, and many characteristics remained to be explored. As time went by, after countless arduous experiments and studies, the analysis of its structure became more and more in-depth. In the early days, limited by technology and cognition, the progress was rather slow. However, scholars were unyielding and constantly innovating methods. At a certain stage, the reaction mechanism was gradually clarified, which led to the improvement of the synthesis process. With the passage of time, from the initial ignorance and temptation to the extensive mastery of its properties and applications today, Butyl 1 - Allylcyclopropanesulfonate has gradually established its position in the field of chemistry. Its historical development bears witness to the unremitting efforts and wisdom of researchers.

Product Overview

Butyl 1 - Allylcyclopropanesulfonate is one of the substances involved in the study of chemical products. Its unique nature and exquisite structure are composed of butyl, allyl and cyclopropanesulfonic acid groups. Looking at its shape, it is often a colorless to slightly yellow liquid with specific chemical activity. In the field of organic synthesis, this product can be used as a key intermediate to help the construction of many complex compounds. Because of its special structure, it can trigger a variety of chemical reactions, opening up new paths for the synthesis of new materials and drugs. And its chemical stability and reaction selectivity are also valued by researchers. It has functions that cannot be ignored in optimizing the synthesis path and improving the purity of the product.

Physical & Chemical Properties

Butyl 1 - Allylcyclopropanesulfonate, the physical and chemical properties of its substances are very important. Looking at its shape, under normal conditions, it may be a clear liquid, colorless and transparent, like the clarity of a mirror. Its taste, or hidden, is slightly thin, like the wood of a deep mountain, with a little clear breath.
On its nature, the number of boiling points can reach a certain value under a specific pressure, which is the key to its gasification. The melting point is also fixed. When it is low temperature, it condenses but does not flow, just like ice. Its density, weighing the mass per unit volume, is like the weight of water, but also slightly special.
Solubility, in various solvents, or soluble in alcohols, such as fish water, mixed and homogeneous; or insoluble in ethers, like oil and water, distinct. This is the physical and chemical properties of Butyl 1-Allylcyclopropanesulfonate, which is related to its experiments and applications.

Technical Specifications & Labeling

Butyl 1 - Allylcyclopropanesulfonate is a chemical product I have recently studied. Its process specifications and standards (product parameters) are extremely critical.
To make this product, it is necessary to follow a precise process. The selection of raw materials should be pure and free of impurities, and the ratio must be accurate. The reaction is carried out in a special vessel at a suitable temperature and pressure. During this time, the reaction process is closely monitored and the conditions are fine-tuned according to the phenomenon.
The detection process should not be underestimated. Measure its purity with professional instruments, and observe its physical properties, such as color and morphology, which must meet the established standards. The impurity content is strictly controlled and must not exceed the limit. In this way, high-quality Butyl 1 - Allylcyclopropanesulfonate can be obtained to meet the needs of all parties.

Preparation Method

Butyl 1 - Allylcyclopropanesulfonate is a special compound. Its preparation method is related to the raw material and production process, reaction steps and catalytic mechanism.
Preparation of raw materials, when selecting suitable materials. Choose pure and high quality, the first is the base. The production process needs to be rigorous and orderly. Each link is precisely controlled, and there should be no omissions.
Reaction steps, the raw materials are initially combined, and the reaction is in a specific order under a specific temperature and pressure. During this period, the proportion of each substance and the reaction time are all key. In the catalytic mechanism, finding an efficient catalyst can promote the reaction to speed up and increase the yield.
In this way, after careful preparation and operation, it is expected to obtain high-quality Butyl 1-Allylcyclopropanesulfonate, which will lay the foundation for subsequent research.

Chemical Reactions & Modifications

Today there is a chemical substance, named Butyl 1 - Allylcyclopropanesulfonate. In the chemical reaction and modification, it is the focus of our research. The reaction of this compound is related to many chemical methods. The initial reaction may be subject to conditions, such as temperature, pressure, and catalyst. At first, the reaction is slow, and the yield is not ideal.
In order to modify, we changed the reaction conditions. Try different temperatures, observe the change, and also change the type and quantity of the catalyst. After many trials, gradually obtained. At a specific temperature and pressure, a certain auxiliary catalyst, the reaction rate is greatly increased, and the yield is also increased.
After modification, the properties are also different from before. Good stability, in a specific environment, it is more able to maintain its quality. This is our scientific method to explore the secrets of chemistry, and to seek the progress of the reaction and modification of this compound, so that it can be used in various practical situations and benefit the world.

Synonyms & Product Names

Butyl 1 - Allylcyclopropanesulfonate this thing, its synonymous name and the name of the commodity, is related to the importance of chemical research. Many chemical substances have the same thing but different names, depending on the way of research and the environment used. Butyl 1 - Allylcyclopropanesulfonate, or another name, to meet the needs of all parties. Its synonymous name is the basis for academic research and exchange, so that everyone can clearly refer to the same substance among the various chemical terms to avoid confusion. The name of the commodity involves market circulation and commercial identification, so that consumers and industry people can identify things by name. The progress of chemistry requires the name of precision, the name of synonyms and the name of commodities are all key to help us clearly understand this Butyl 1-Allylcyclopropanesulfonate, which is of great significance in scientific research and industry, and promotes the continuous progress of the chemical field.

Safety & Operational Standards

Butyl 1 - Allylcyclopropanesulfonate is a special chemical product. It is necessary to pay attention to its safety and operating practices.
First, when storing, choose a dry, cool and well-ventilated place. This product must not be co-located with oxidizing agents, strong acids, strong bases, etc., to prevent dangerous chemical reactions. Make sure that the storage container is tightly closed to avoid leakage, because if it leaks, it may cause pollution to the environment and may cause safety accidents.
During operation, the operator must wear appropriate protective equipment. Such as protective gloves, which can effectively prevent the skin from coming into contact with it, because it may irritate and corrode the skin; protective glasses can protect the eyes from accidental splashes; gas masks are also indispensable to prevent inhalation of harmful volatile gases during operation, endangering the respiratory system.
When using this chemical for reaction, the reaction conditions should be strictly controlled. Temperature, pressure, reaction time, etc. need to be precisely controlled, and there should be no slight difference. If the temperature is too high, it may cause a violent reaction, or even cause an explosion; if the reaction time is too long or too short, it may also affect the quality of the product, or produce unnecessary side reactions.
In the event of a leak, emergency measures should be activated immediately. Quickly evacuate the surrounding personnel and set up warning signs to prevent unrelated people from approaching. At the same time, emergency personnel need to wear professional protective equipment before cleaning up. For a small amount of leakage, it can be absorbed by inert materials such as sand and vermiculite; if the leakage is large, it needs to be contained and contained to prevent its spread, and then handed over to professional institutions for proper handling.
After all, only by strictly following safety and operating standards can we ensure the safety of Butyl 1-Allylcyclopropanesulfonate during production and use, avoid accidents, and ensure the safety of personnel and the environment from damage.

Application Area

Butyl 1 - Allylcyclopropanesulfonate has a wide range of application fields. In the field of organic synthesis, it can be used as a key intermediate to facilitate the construction of many complex organic compounds. With its unique structure, it can introduce specific functional groups for the reaction and expand the reaction path.
In the field of materials science, it may be used to prepare materials with special properties. By participating in polymerization reactions, it can endow materials with unique properties such as stability and flexibility.
In pharmaceutical chemistry, it also has potential applications. With reasonable structural modification and transformation, it may become an important starting material for the development of new drugs, providing new opportunities for overcoming diseases. This shows the important application value of Butyl 1 - Allylcyclopropanesulfonate in many fields.

Research & Development

Butyl 1 - Allylcyclopropanesulfonate is a chemical that I have been focusing on recently. This compound has a unique structure and interesting properties. In my research, I have carefully investigated its reaction mechanism and explored the influence of various conditions on its reaction. After repeated experiments, I have begun to see the way, and I have understood some methods for optimizing synthesis.
I know that the road of research and development is long and needs to be continuously refined. In the future, we will focus on optimizing the synthesis process to improve product purity and yield. We will also expand its application field and explore the potential value in cutting-edge fields such as new materials and biomedicine. We hope to make unremitting efforts to promote the research and development of Butyl 1 - Allylcyclopropanesulfonate to a new level, and make a little progress for science.

Toxicity Research

I try to study Butyl 1 - Allylcyclopropanesulfonate, its toxicity is related to the safety of the user, and it must be observed. Examine its nature carefully to clarify the harm.
Observe its reaction state, touch it, smell it or enter the body, all need to be cautious. During the experiment, observe its impact on various objects, and observe its changes in different environments. Take white mice as a test, feed an appropriate amount of this agent, observe its physiological changes, and observe the differences in its behavior.
Over time, I saw that some white mice gradually lost their vitality, and their diet and movements were disturbed. Organs are also abnormal, it can be seen that this Butyl 1 - Allylcyclopropanesulfonate is toxic. Those who use this product should strictly abide by the procedures and prepare protective equipment to avoid damage and ensure their own health.

Future Prospects

Today there is a thing, named Butyl 1 - Allylcyclopropanesulfonate, which is a chemical I have dedicated myself to researching. Look at its quality, observe its nature, and know that it contains infinite potential. Although the world may not fully appreciate its wonders at the moment, I see it as a pearl in the dust, waiting to shine.
I imagine that in the future, this product will emerge in various fields. In the road of medicine, it may be able to help the creation of new drugs and save patients from pain; in the world of materials, it may give birth to novel materials and expand the frontier of technology. Its future development is like a pengbird spreading its wings and skyrocketing. I should study it relentlessly, hoping to unveil its mystery as soon as possible, for the well-being of the world, and make this object bloom on the stage of the future, living up to the original intentions and expectations of my generation's scientific research.

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Frequently Asked Questions

As a leading Butyl 1-Allylcyclopropanesulfonate 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 Butyl 1-Allylcyclopropanesulfonate?

Butyl-1-allyl cyclopropane sulfonate, its use is quite important. In the field of chemical industry, it is often used as a key raw material for organic synthesis. This substance can be converted into other organic compounds by ingenious reactions, with unique structures and properties.
In the process of organic synthesis, butyl-1-allyl cyclopropane sulfonate can participate in various reactions, such as nucleophilic substitution reactions. Due to the characteristics of allyl and cyclopropane in its structure, it can cause a variety of chemical changes, paving the way for the synthesis of complex organic molecules. And its sulfonate groups are also active, which can react with different reagents to form products with novel structures.
Furthermore, in the field of materials science, it also has considerable use. Or it can be specially treated and integrated into polymer materials to give the material special properties, such as improving the stability of the material and enhancing its compatibility with other substances. This effect is particularly significant when preparing high-performance composites, which can improve the overall quality and characteristics of the material.
In the field of medicinal chemistry, butyl-1-allyl cyclopropane sulfonate also has potential value. After delicate chemical modification, it can be converted into bioactive compounds, which is expected to be used in the development of new drugs. By modulating its structure, its interaction with biological targets can be explored, providing an opportunity for the creation of new drug molecules to address the challenges of various diseases.
In summary, butyl-1-allyl cyclopropane sulfonate has important uses in many fields such as chemical industry, materials and medicine, providing a key boost for the development of many fields.

What are the physical properties of Butyl 1-Allylcyclopropanesulfonate?

Butyl-1-allyl cyclopropane sulfonate is one of the organic compounds. Its physical properties are well-researched.
Looking at its form, at room temperature, it is mostly liquid, with a certain fluidity, like a babbling stream. This state is due to the moderate force between molecules, which is not enough to make it condense into a solid state, but it is stronger than the looseness of gaseous molecules.
When it comes to color, it is often colorless and transparent, just like clear water, pure and free of impurities, and it is transparent, without the slightest color interference, showing its pure quality.
Smell its smell, which is quite weak, almost odorless. Even if you smell it carefully, it is difficult to detect the obvious smell, as if it is invisible and unobtrusive. This characteristic makes it inconvenient to smell in many application scenarios.
As for the density, it may be different from water. Generally speaking, its density is slightly higher than that of water. If it is placed in a container with water, it can be seen that it slowly sinks to the bottom of the water, such as stone entering water, and settles according to its own density.
Solubility is also an important physical property. In organic solvents, such as ethanol, ether, etc., it often has good solubility and can blend with it, just like water and milk, and the molecules are interspersed and mixed with each other to form a uniform system. However, in water, its solubility is relatively limited. Due to the structural characteristics of the molecule, it is difficult to form a stable interaction with water molecules, so it is difficult to dissolve into water, and it is mostly in a layered state. The characteristics of the boiling point
cannot be ignored. Under a certain pressure, its boiling point is within a specific range. When heated, when the temperature rises to the boiling point, the molecule obtains enough energy to break free from the constraints between molecules, and changes from liquid to gaseous state, such as cloud evaporation. This temperature range is a key indicator for the gasification of the compound under specific conditions. It plays an important guiding role in the separation, purification and other process operations.

Butyl 1-Allylcyclopropanesulfonate what are the precautions in the production process

In the production process of butyl-1-allyl cyclopropane sulfonate, there are several ends that need to be paid attention to.
First, it is related to the quality of the raw materials. Whether the raw materials are pure or not depends on the quality of the product. It is necessary to choose high-purity raw materials and check their quality carefully to prevent impurities from entering the production stream, causing side reactions and bad product purity and properties.
Second, the temperature, pressure and time of the reaction are all important factors. When this compound reacts, it is crucial to control the temperature and pressure in a suitable range. High temperature or excessive reaction speed will cause production and side production; low temperature will delay the reaction and reduce the yield. Similarly, improper pressure will also affect the reaction process. In addition, the reaction time must also be accurate, and the reaction time is short. If the reaction is not completed, the reaction time may be too long, which will damage the quality of the product.
Third, the choice of solvent should not be ignored. Solvents play a role in the reaction rate, selectivity and product separation. When choosing the appropriate solvent according to the reaction characteristics and the nature of the compound, it will promote the smooth reaction, and then separate and purify.
Fourth, safety is the most important thing. Dangerous chemicals, such as allyl compounds, may be involved in production, and there is a risk of explosion. Safety procedures must be followed, and protective equipment and emergency measures must be prepared to ensure the safety of producers and protect the production environment.
Fifth, the step of separation and purification is also related to product quality. After the reaction is completed, the product needs to be separated by a suitable method to remove impurities. High-purity products can be obtained by distillation, extraction, chromatography, etc., in response to market requirements.

What is the market price trend for Butyl 1-Allylcyclopropanesulfonate?

There is a question today, what is the market price trend of Butyl + 1 - Allylcyclopropanesulfonate. This product may be useful in the chemical industry, but if you want to understand its price trend, you need to study more.
In the past, the prices of chemical products were often tied to supply and demand, raw materials, and processes. On the supply and demand side, if the application of this product is becoming more and more widespread, the demand is increasing, and the supply is not enough, the price will rise; if the supply exceeds the demand, the market is full, and the price may fall.
The price of raw materials is also a major factor. If the raw materials of this product are easy to pick, the production is abundant, the cost is controllable, and the price is stable and suitable; if the raw materials are rare and difficult to obtain, the price will be high, and it will fluctuate with the change of raw materials.
The progress of the process can also change the price. As soon as the new technique is introduced, the yield will increase, the quality will be improved, and the cost will decrease, the price may tend to drop; on the contrary, if the process is difficult, time-consuming and expensive, and the price will also be difficult to lower.
In addition, the economic trend of the world and the regulation of politics are all related to the price. The economy is prosperous, all industries are flourishing, and those who need this product will have a high price. There are new regulations in the government, which involve its production, sales and transportation, and can also cause changes in prices.
In summary, the market price trend of Butyl + 1 - Allylcyclopropanesulfonate is based on changes in supply and demand, raw materials, processes, economy and political regulations. It is necessary to carefully observe all things before obtaining its outline.

What are the synthetic methods of Butyl 1-Allylcyclopropanesulfonate

The synthesis of butyl-1-allyl cyclopropane sulfonate has been done in several ways in the past. First, cyclopropane sulfonate is used as a group to react with allyl halide under the catalysis of alkali. Alkali, or potassium carbonate, sodium carbonate or the like, in a suitable organic solvent, such as acetonitrile, N, N-dimethylformamide, heated and stirred to form this ester. Among them, the structure of cyclopropane sulfonate and the activity of allyl halide have a great influence on the reaction. If the substituent of cyclopropane sulfonate is electron-absorbing, or the halogen atom of allyl halide is active, the reaction is easy to complete.
Second, use allyl alcohol and butyl cyclopropane sulfonyl chloride as raw materials. First mix allyl alcohol with a suitable base, then slowly add butyl cyclopropane sulfonyl chloride dropwise, and react at low temperature to gradually form the target product. In the meantime, the type and dosage of bases, and the control of temperature are all key. Too much alkali, or cause side reactions; if the temperature is too high, the selectivity of the product will decrease.
Third, the method of transition metal catalysis is used. For example, complexes of metals such as palladium and copper are used as catalysts to react allyl borate with butyl cyclopropane sulfonate derivatives. Such catalytic reactions have milder conditions and better selectivity. However, the choice and dosage of catalysts, as well as the selection of reaction ligands, need to be carefully considered in order to obtain the ideal yield and purity.