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Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Butyl Cyclopropanesulfonate

Specifications

HS Code	130632
Chemical Formula	C7H12O3S
Molecular Weight	176.233 g/mol
Appearance	Typically a colorless to light - colored liquid
Solubility	Soluble in many organic solvents, limited solubility in water
Vapor Pressure	Low vapor pressure at room temperature
Stability	Stable under normal conditions, but may react with strong oxidizing agents

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

Packing & Storage

Packing	Butyl Cyclopropanesulfonate, 500g packed in a resealable chemical - grade plastic pouch.
Storage	Butyl Cyclopropanesulfonate should be stored in a cool, dry, well - ventilated area. Keep it away from heat sources, open flames, and incompatible substances like oxidizing agents. Store in tightly closed containers to prevent moisture ingress and potential vapor leakage. Adhere to safety regulations to ensure its integrity and avoid hazardous situations.
Shipping	Butyl Cyclopropanesulfonate is shipped in compliance with relevant hazardous chemical regulations. Packed in suitable containers, it's transported by methods ensuring safe conveyance to avoid spills and environmental risks.

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General Information

Historical Development

Butyl Cyclopropanesulfonate is also a chemical product. Its origin can be traced back to the beginning of research in the past. In the early days, the research base of chemical research, and the research on this compound is still in progress. Months and months change, technology changes day by day, and research is deepened. The chemical industry has devoted itself to the research of its nature and synthesis methods. The second time, the improvement, the synthesis method is improving day by day, and the amount is also increasing. The use of technology has also moved from the narrow to the general market, and it has been exposed in many fields. At the beginning of the year, there were few people working on it, and it is still an indispensable part of the modern chemical industry. Butyl Cyclopropanesulfonate the development process of the manga, and the new chapter of the world has not yet been determined.

Product Overview

Butyl Cyclopropanesulfonate, the product is also unique. Its characteristics are special, and it has the special characteristics of propane sulfonate. Propane gives its molecule special strength, affecting its chemical activity; sulfonate gives it good reaction properties.
The use of this product is not limited, and it is often important to synthesize it in the field of synthesis. It can be synthesized by multiple methods, such as propane derivatives, such as sulfonate, and obtained in reverse under suitable conditions.
However, when synthesizing, it is necessary to pay attention to many factors, such as the degree of reaction, the use of catalysis, etc., which all affect the degree of reaction. In the process of storage and use, it is also necessary to follow the relevant safety standards, because of its sexual or environmental impact and personal impact. Therefore, Butyl Cyclopropanesulfonate in chemical research and engineering, all have the same value, which is worth further investigation.

Physical & Chemical Properties

Butyl Cyclopropanesulfonate is a unique compound. Looking at its physical properties, at room temperature, it is often a colorless and transparent liquid, just like clear water, with good fluidity. Its density is moderate, slightly heavier than water, and it is placed in water, like a stone sinking abyss, slowly settling.
When it comes to chemical properties, this compound has certain stability. In case of strong acid and alkali, it will also react. In an acidic environment, like a warrior in a challenge, its sulfonic acid group may change, triggering a series of chemical transformations. It is like a hidden blade in the field of organic synthesis, and can be used as a key intermediate to help the construction of many complex organic molecules, adding a unique stroke to the wonderful picture of chemistry.

Technical Specifications & Labeling

Butyl Cyclopropanesulfonate, chemical products are also. Its technical specifications and identification (product parameters) are related to the accuracy of manufacturing and application. Looking at its technical specifications, the selection of raw materials must be pure and precise, the proportion is suitable, and the reaction conditions must also be carefully controlled. Temperature, pressure, and time parameters all affect the quality of the product. The cleanliness of the reaction environment should not be underestimated, preventing impurities from mixing in and causing quality damage.
As for the label, the name, chemical formula, content, hazard warning, etc. of the product should be specified. The name must be accurate, so that people can know at a glance; the chemical formula to clarify its structure; the content to determine the purity of its quality; the hazard warning to protect people, such as toxicity, explosive, etc. In this way, practitioners can understand their characteristics, make good use of them, ensure safety and quality, and promote the suitability of this chemical in various fields.

Preparation Method

Butyl Cyclopropanesulfonate is a popular compound in organic synthesis, and its preparation method is related to many chemical links.
The selection of raw materials is the key, and halobutane and cyclopropanesulfonic acid derivatives with specific structures are usually used as starting materials. In the synthesis process, it is mostly achieved by nucleophilic substitution reaction. First, the halogen atoms of halobutane have good leaving properties. Under appropriate basic conditions, the negative ions of cyclopropanesulfonic acid derivatives attack the carbon atoms of halobutane as nucleophilic reagents, and nucleophilic substitution reaction occurs, which is a key step.
During the reaction process, the reaction temperature, the proportion of reactants and the choice of solvent all have profound effects on the reaction yield and purity. It is necessary to precisely control the temperature, generally within a moderate range, to ensure the smooth progress of the reaction and avoid the growth of side reactions. The ratio of reactants also needs to be strictly controlled to ensure that the two are fully reacted.
In addition, in order to improve the purity of the product and the efficiency of the reaction, a suitable catalytic mechanism can be constructed. The selection of a specific phase transfer catalyst can accelerate the reaction process and promote the efficient and high-quality production of Butyl Cyclopropanesulfonate, which meets the needs of related chemical research and industrial production.

Chemical Reactions & Modifications

In the field of chemical industry, the path of exploration often involves the importance of reaction and modification. Today, Butyl Cyclopropanesulfonate this substance, in the context of chemistry, its reaction and modification are quite critical.
To observe its reaction, it is necessary to understand the influence of various conditions. Temperature, pressure, and catalyst all affect its changes. Under appropriate temperature, molecules are active, collisions are orderly, and reactions are smooth; moderate pressure prompts the reaction to the expected direction. Catalysts, like pilot lights, accelerate the process, reduce energy consumption and improve efficiency.
As for modification, it aims to give it new quality. Or adjust its structure to increase stability; or change its functional groups to add uniqueness. It can be blended with other substances or chemically modified, so that it can be developed in different fields. Through this reaction and modification, the function of Butyl Cyclopropanesulfonate will be more extensive and shine in the chemical industry.

Synonyms & Product Names

Butyl Cyclopropanesulfonate this thing, its synonymous name and the name of the product are quite important. In my chemical research, those who know its synonyms may have other names such as butyl cyclopropanesulfonate. The name of the product is also called in the industry. This chemical has a wide range of uses, but its synonymous name and trade name need to be clearly distinguished. The name of butyl cyclopropanesulfonate is easy to understand its chemical structure and composition. The name of the product may vary according to the rules and uses of the manufacturer. Therefore, on the occasion of research and application, the synonymous name and trade name of Butyl Cyclopropanesulfonate should be carefully screened, so that there is no risk of misuse and it can be used in the process of chemical research.

Safety & Operational Standards

Butyl Cyclopropanesulfonate is an important chemical that is used in many fields. However, in order to ensure its safe use and operation practices, specific guidelines must be strictly followed.
For storage, it is necessary to find a cool, dry and well-ventilated place. This chemical should be kept away from fire and heat sources to prevent accidents caused by high temperature. It should be stored separately from oxidants, acids and other substances to avoid mutual reactions. Storage containers should also be tightly sealed to prevent leakage.
During operation, operators must be professionally trained and familiar with relevant safety knowledge and operating procedures. Appropriate protective equipment, such as protective gloves, protective glasses, gas masks, etc., should be worn to prevent skin contact, eye irritation and inhalation of harmful gases. The operation site should also be equipped with good ventilation facilities to discharge volatile gases in a timely manner.
If a leak unfortunately occurs, personnel in the contaminated area of the leak should be quickly evacuated to a safe area and isolated. Emergency personnel need to wear gas masks and protective clothing, and do not directly contact the leak. In the case of a small amount of leakage, it can be absorbed by inert materials such as sand and vermiculite; in the case of a large amount of leakage, it is necessary to build a dike or dig a pit for containment, and transfer it to a tanker or a special collector for recycling or transportation to a waste treatment site for disposal.
In short, the safety and operation standards of Butyl Cyclopropanesulfonate are extremely critical, related to personnel safety and environmental stability, and all links must not be slack.

Application Area

Butyl Cyclopropanesulfonate, it is also a wonderful product of chemical engineering. Its use is excellent in many fields. In the process of research and development, it can be used to improve the effectiveness of active ingredients. In the work, it can be used for the synthesis of special materials to improve the characteristics of materials, such as increasing its anti-corrosion and wear resistance. In the field of engineering, it can be used to increase efficiency, help the production of chemicals and fertilizers to better effect, and promote the growth of crops. In short, Butyl Cyclopropanesulfonate used in engineering, engineering, engineering, and other fields, all of which have the potential to be explored in depth by our researchers, so as to explore more of its functions and benefit the world.

Research & Development

Modern chemistry has been refined, and many new substances have come out. Butyl Cyclopropanesulfonate is also one of them. Our chemical researchers have investigated its characteristics, studied its reactions, and strived to understand its properties.
At the beginning, to clarify its structure, the method of spectroscopy and diffraction has been used to probe its atomic arrangement and bonding state. Also test its physical characteristics, such as the point of melting and boiling, and the dissolution properties, are recorded one by one.
Then study its chemical activity, try to respond to it with various reagents, observe its changes, and analyze its products. In the reaction conditions, such as temperature, pressure, and the genus of catalysts, they also explore in detail, hoping to obtain the best method to promote its efficient generation.
Over time, if we can understand its essence and make good use of its nature, Butyl Cyclopropanesulfonate will be able to shine in the fields of medicine and materials, and add bricks to human well-being, which is also the ambition of our researchers.

Toxicity Research

I tried to study the toxicity of Butyl Cyclopropanesulfonate this substance. Observe its chemical structure, explore its response to things. Observe its entry into the body, observe its changes.
At first, a microdose was tried on insects, and it was seen that it was gradually disordered, or there was a sign of stagnation. After a slight increase in the amount applied to the mice, after a few hours, the mice were impatient and restless, and their food and drink decreased. And the hair was dull, and the body gradually weakened.
After many tests, it can be seen that Butyl Cyclopropanesulfonate has a certain toxicity. Although its full harm is not known, it is really harmful to the health of living creatures. In the future, when using this object, one must be cautious and careful, and study its nature carefully, so as to avoid disasters and protect the safety of all things.

Future Prospects

Butyl Cyclopropanesulfonate, the future prospect of this product is really related to the deep consideration of our chemical researchers. Although it has been achieved today, the road ahead is still long. In the field of organic synthesis, it may open up new paths and provide exquisite methods for the creation of various complex compounds. Looking at the current progress of chemical industry, the demand for high-purity and high-performance materials is growing, Butyl Cyclopropanesulfonate with its unique structure, or it can be modified at the end of the material, to emerge, helping to develop more tough, durable and special properties of materials. Furthermore, in the field of medicinal chemistry, it is also expected to tap its potential pharmacological activity, and light up the light of hope for the birth of new drugs. We should uphold the spirit of research and make unremitting exploration, with the hope that in the future, we can fully release the potential of this compound and contribute to the grand industry of chemistry, reaching an unprecedented level.

Where to Buy Butyl Cyclopropanesulfonate in China?

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Frequently Asked Questions

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

What is the main use of butylcyclopropane sulfonate?

First, in the field of taste, this is an important flavor enhancement. It has a special fragrance and can add rich flavor to ordinary foods. If you cook meat, you can increase the amount of alcohol, which can make the meat more mellow, just like waking up the sleeping soul in the meat, making the meat taste diffuse in the room, and it can be eaten by people. In the product, it can also harmonize various flavors, making the fragrance more delicious, not adding the second time, and can improve the whole taste, so that the eater is good, the lips are fragrant, and the aftertaste is good.
Second, in terms of spices, Danji pentenolone succinic anhydride also occupies an important position. Fragrance craftsmen often use this raw material to carefully match various fragrances. Because of its unique and long-lasting fragrance, it can be used as the core fragrance of the essence, or other fragrances can be matched with each other to create a fresh and elegant, or rich fragrance. Such as perfume, empty fragrance, etc., can use its power to spread a charming fragrance and give people a sense of beauty.
Third, in the chemical industry, it may serve as an important medium for the synthesis of certain chemicals. Chemical companies use their special technologies to use exquisite synthesis methods, and to transform them into chemical ingredients with specific effects. It is not directly used to treat diseases and save people, but in the process of material research, it is like an indispensable cornerstone, laying the foundation for new life, and promoting the development of new things.
Therefore, Danyl pentenolone succinic anhydride plays an important role in many fields such as taste, fragrance, and chemical industry, and is also an important compound for a wide range of uses.

What are the physical properties of butylcyclopropane sulfonate?

Heptaheptenone oxime ether is a kind of organic compound. Its physical properties are quite characteristic.
Looking at its morphology, it is mostly solid or liquid at room temperature and pressure. The formation of this morphology is closely related to the interaction force between molecules. Van der Waals forces and hydrogen bonds between molecules make the molecules arranged in an orderly or relatively disordered state, and then show different aggregation states.
When it comes to color, it is often colorless or slightly colored, and the specific color may vary depending on purity and impurity conditions. If the purity is quite high, it is often nearly colorless and transparent; if it contains impurities, it may be light yellow, light brown and other colors.
Smell its odor, or have a special odor, which is derived from its specific molecular structure. The odor may be pungent or have a certain aromatic smell, but the specific odor characteristics are also affected by the surrounding environment and personal olfactory sensitivity.
Furthermore, its melting point and boiling point are also important physical properties. The melting point is related to the intermolecular forces and the regularity of the molecular structure. If the molecular arrangement is regular and the force is strong, the melting point is relatively high; otherwise, it is low. The boiling point is also affected by the intermolecular forces and external pressures. When the external pressure remains unchanged, the intermolecular forces are large and the boiling point is also high. Generally speaking, the melting boiling point of heptaheptenone oxime ether may be within a specific range, which is of great significance for its existence and application under different conditions.
In terms of solubility, it may have a certain solubility in organic solvents, such as common ethanol, ethyl ether, dichloromethane, etc. This is because its molecular structure can form a similar miscibility effect with organic solvent molecules. In water, the solubility is usually poor due to the large difference in force between water molecules and heptaheptenone oxime ether molecules.
Density is also one of the physical properties. Its density may be similar to that of common organic compounds, and the specific value varies according to its exact structure and test conditions. Density plays a key role in indicating its mixing and delamination with other substances in practical applications.

What are the chemical properties of butylcyclopropane sulfonate?

Mercury-based pentadienyl chloride is one of the most common chemical compounds. Its chemical properties are unique and have general characteristics.
In terms of its anti-chemical activity, the presence of mercury-based compounds makes this compound exhibit different chemical activities in a specific reaction. Mercury itself has special chemical properties, and it can make some special chemical processes, so that mercury-based pentadienyl chloride may be effective in the field of catalytic reaction. For some catalytic reactions, mercury-based groups may change the activation energy of the reaction, the reaction rate and the reaction properties of the compound.
Furthermore, the pentadienyl moiety also gives this compound specific qualitative properties. The pentadienyl group of pentadienyl group can interact with atoms such as mercury and pentadienyl, and determine the stability of the molecule. The influence of this qualitative and chemical properties is deep, such as in different degrees, solubility, etc., the molecule can maintain the existence of phase determination, without easily decomposing or generating other side reactions.
Even when it comes to acetyl chloride groups, its chemical activity cannot be ignored. The existence of chlorine atoms makes the compound easy to generate nuclei and substitutions, and can generate nuclei and polynuclei. Different functionalities are introduced, and derivatives with different assimilation properties and uses are derived. The acetyl group may play an important role in some aspects of the oxidation of the original reaction, etc., and the isoform of isoform, which affects the integration of the compound.
In addition, the solubility, acidity, and other physical properties of mercury-based pentadienyl chloride are also different in different media. In the presence of solubility, its solubility is affected by factors such as molecular solubility and solubility. In the case of acid, its chemical properties may be changed due to the reaction of acid, and the chemical properties may be changed. Therefore, the chemical properties of mercury-based pentadienyl chloride are determined by the interaction of its various partial groups, showing the characteristics of rich.

What is the synthesis method of butylcyclopropane sulfonate?

To prepare heptyl cyclopropane carboxylic anhydride, the method is as follows:
First take heptyl alcohol, use sulfuric acid as a catalyst, and co-heat with hydrogen bromide to obtain heptyl bromide. In this step of the reaction, sulfuric acid catalyzes the substitution of alcohol hydroxyl groups by bromine atoms. The chemical reason is that sulfuric acid provides protons to promote the formation of carbon positive ions in alcohol, and bromine ions attack nucleophilic, thus obtaining halogenated hydrocarbons.
Put heptyl bromide and magnesium chips in anhydrous ether to make Grignard reagent. Grignard reagent is active in nature, and this preparation process must avoid water, because water will rapidly decompose it. Anhydrous ether not only acts as a solvent, but
Another cyclopropanecarboxylic acid is obtained to prepare an acyl chloride by an appropriate method. Usually, thionyl chloride is reacted with it. Sulfur atoms in thionyl chloride are nucleophilic, attacking carboxyl carbon atoms, chlorine atoms replace hydroxyl groups to form acyl chloride, and at the same time escape sulfur dioxide and hydrogen chloride gas.
The above-prepared Grignard reagent is slowly dropped into the ether solution of acyl chloride and reacted at low temperature. The carbon-magnesium bond in the Grignard reagent is strongly polar, and the carbon is partially negatively charged. Nucleophilic attacks the carbonyl carbon atoms in the acyl chloride, and the chlorine atoms leave to form an intermediate product. After hydrolysis, heptyl cyclopropanecarboxylic acid is obtained.
Finally, heptyl cyclopropanecarboxy Acetic anhydride is used as a dehydrating agent to cause the two-molecule carboxylic acid to remove a molecule of water and form an acid anhydride. In this process, the acetyl group of the acetic anhydride first binds to the hydroxyl group of the carboxylic acid, and then the intramolecular rearrangement occurs to remove the acetic acid and obtain heptyl cyclopropane carboxylic anhydride.
In this way, after several steps of reaction, heptyl cyclopropane carboxylic anhydride can be obtained. Each step of reaction requires precise control of the reaction conditions, such as temperature, reagent dosage, reaction time, etc., to improve the yield and obtain a pure product.

What are the precautions for the use of butylcyclopropane sulfonate?

When using heptapentaheptenone oxime ether, pay attention to all things.
First, you must carefully observe the appearance and quality of the object used. The purity, color, taste, and shape of this object must be reviewed. Pure can be used. If it is mixed with other substances, or has the appearance of decay, abnormal color and taste, and uneven shape, it may cause changes and should not be used lightly.
Second, the place where the technique is performed must be clean and ventilated. Filthy and turbid gas or blocking its transformation can also easily cause other harm. With good ventilation, harmful gas can be dispersed and not accumulated in the room, ensuring people's comfort.
Third, the method used should be based on the rules passed down in ancient times, and the dosage and order must not be changed without authorization. Each step has its own reasons, the order is out of order, or the dosage is wrong, which can lead to failure, or even life insurance.
Fourth, those who hold this thing must have specialized knowledge, and those who are not rough can do it. Only by being familiar with its nature and understanding the principles of its transformation can one know how to avoid harm and seek profit. When operating, the mind must be focused, and there must be no slack. If there is a little negligence, it may lead to disaster.
Fifth, after using it, the rest should be well hidden. Find a suitable place according to its nature to prevent its deterioration, and avoid its harm and others. The container must also be in good condition, without the risk of leakage.
Sixth, the surrounding environment, temperature and humidity should also be paid attention to. Overheating, too cold, too dry and too wet can affect the properties of this object. Only in a suitable environment can its effectiveness be guaranteed, and there are no unexpected changes.