Benzenesulfonic Acid Tetrahydro-Furan-2-Ylmethyl Ester

Lingxian Chemical

Specifications

HS Code	424489
Chemical Formula	C11H14O4S
Molar Mass	242.29 g/mol
Appearance	Solid (usually)
Physical State At Room Temp	Solid
Solubility In Water	Low solubility
Solubility In Organic Solvents	Soluble in some organic solvents like THF
Melting Point	Varies, specific data depends on purity
Ph Aqueous Solution	Acidic due to sulfonic acid group

Packing & Storage

Packing	100 - gram bottle of Benzenesulfonic Acid Tetrahydro - Furan - 2 - Ylmethyl Ester packaging
Storage	Store Benzenesulfonic Acid Tetrahydro - Furan - 2 - Ylmethyl Ester in a cool, dry, well - ventilated area. Keep it away from heat sources, direct sunlight, and ignition sources as it may be combustible. It should be stored in a tightly sealed container to prevent moisture absorption and reaction with air components, ensuring its stability during storage.
Shipping	Benzenesulfonic Acid Tetrahydro -Furan -2 -Ylmethyl Ester is shipped in well -sealed containers, following strict chemical transportation regulations. It is carefully packaged to prevent leaks and ensure safe transit with proper hazard labels.

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Benzenesulfonic Acid Tetrahydro-Furan-2-Ylmethyl Ester

General Information

Historical Development

The industry of chemical industry is changing with each passing day, and there are many substances. Today, there is Benzenesulfonic Acid Tetrahydro - Furan - 2 - Ylmethyl Ester. Its origin was initially hidden in the background, and it was not important to people. However, those who are scientific researchers should make unremitting explorations.
After years, various experiments and studies have deepened their understanding. At first, they only knew its nature, but after repeated trials, their structure and characteristics were understood. In the past, the operation was simple, but scholars worked hard to seek breakthroughs in difficulties.
Therefore, the use of this substance gradually became apparent, or it was the beginning of a new path, or it was the progress of technology. From ignorance and ignorance to mastery now, this is the fruit of years of precipitation and wisdom condensation. Its development process has witnessed the rise of chemical industry and is also a lesson for future scientific research.

Product Overview

Product Overview
There is currently a product named Benzenesulfonic Acid Tetrahydro - Furan - 2 - Ylmethyl Ester. Its unique shape, with the properties of benzene sulfonic acid, forms an ester with tetrahydrofuran - 2 - methyl. This ester has a delicate structure, and the stability of the benzene ring is combined with the heterogeneous phase of the furan ring.
To observe its synthesis, a fine method is required, the appropriate raw materials are selected, the temperature, pressure and reaction timing are controlled, and the pure product can be obtained. In the field of chemical industry, or as a key intermediate, it can open the way for diverse synthesis. In organic reactions, it can lead to changes in other substances and form novel structures. And its chemical properties are active, can be combined with many reagents, paving the way for the creation of new compounds. Or in the pharmaceutical and material industries, it has unique uses, contributing to the research and development of new substances and helping the industry progress.

Physical & Chemical Properties

The physical and chemical properties of tetrahydrofuran-2-based methyl benzenesulfonate are particularly important. Looking at its physical properties, it may assume a specific state at room temperature, or have a certain color and taste. Its melting and boiling point is related to its morphological changes at different temperatures, and it is important for industrial applications and storage and transportation. In terms of its chemical properties, because its structure contains sulfonate groups and tetrahydrofuran groups, it can participate in a variety of chemical reactions. Sulfonate groups have high activity and are prone to substitution reactions with nucleophiles, thereby deriving new compounds. Tetrahydrofuran also affects its chemical activity and solubility, causing it to exhibit unique solubility in specific organic solvents, which plays a key role in organic synthesis, separation and purification, and is indispensable for in-depth exploration of its application and preparation process.

Technical Specifications & Labeling

When listening to tetrahydrofuran-2-methyl benzenesulfonate, we want to clarify its technical specifications and identification (product parameters). The method of its production needs to follow strict procedures. The materials used must be pure, the proportion must be accurate, and the parameters such as temperature control and pressure are crucial during operation. If the temperature of the chemical material is appropriate, if it is too high, it will change qualitatively, and if it is too low, it should be slowed down. The reaction time should also be accurate, and there can be no difference. As for the logo, when stating its name, sex, danger, storage method, etc. The name must be accurate, the sex needs to be detailed, and if there is any danger, it should be clearly displayed. The storage method is also clear, and the temperature, humidity, etc. must be appropriate, so as to ensure that the product meets the specifications, and its characteristics and parameters can be clarified, so that users can avoid the risk of misuse.

Preparation Method

To prepare Benzenesulfonic Acid Tetrahydro - Furan - 2 - Ylmethyl Ester, the raw materials and production process are very critical. First take an appropriate amount of benzenesulfonic acid raw material, with tetrahydrofuran - 2 - base methanol related materials. The reaction steps are as follows. Place the two in a suitable reaction vessel and control the temperature and pressure to promote the reaction. This process requires precise control of the reaction conditions to ensure the smooth progress of the reaction.
As for the catalytic mechanism, a specific catalyst can be selected to accelerate the reaction process and improve the product formation rate and yield. The amount of catalyst and the timing of addition cannot be ignored, and it needs to be carefully debugged. Thus, Benzenesulfonic Acid Tetrahydro - Furan - 2 - Ylmethyl Ester can be efficiently prepared through the preparation of raw materials, reaction operation and catalytic regulation.

Chemical Reactions & Modifications

The transformation of Benzenesulfonic Acid Tetrahydro - Furan - 2 - Ylmethyl Ester is related to the chemical reaction and modification, which is the essence of chemical research.
The chemical reaction of the husband is like the symmetry of yin and yang, and the change is gratuitous. The reaction of this compound may be wonderful due to changes in temperature and catalyst. If you want to modify it, you must carefully observe the structure of its molecules and know the strength of its bonds in order to make use of the situation.
If you want to increase its activity, you can find a suitable catalyst to promote the fracture and recombination of its bonds. If you want its stability, you should think about how to strengthen the force between its molecules.
And chemical modification is not achieved overnight, and it requires repeated experimentation and careful promotion. Every step of change is related to the final effect. Only by exploring the rationale in a rigorous state can this compound achieve ideal performance and be used in chemical and other fields to benefit the world.

Synonyms & Product Names

In the Compendium of Materia Medica, the names of medicines are often the same and different, or the same name and different. There is now a chemical product named Benzenesulfonic Acid Tetrahydro - Furan - 2 - Ylmethyl Ester. The synonym and trade name of this product also need to be carefully considered.
The rise of chemistry has not lasted for a long time, but there are many products. This Benzenesulfonic Acid Tetrahydro - Furan - 2 - Ylmethyl Ester may have different names in the industry. Or because of its characteristics, production method, or use, it gets various aliases. As for the trade name, the merchant has set up another name to show its characteristics and facilitate its sale.
Examine its synonyms, and study its chemical structure and reaction mechanism. To clarify its essence, so as not to be confused. Looking at its product name, you need to observe the needs of the market and marketing techniques. In this way, you can identify this thing in the name of complexity, so as not to be wrong. It is of great benefit to chemical research and industrial applications.

Safety & Operational Standards

"Specifications for safety and operation of tetrahydrofuran-2-ylmethyl ester of benzene sulfonate"
tetrahydrofuran-2-ylmethyl ester of benzene sulfonate, an important substance in chemical research. If you want to use this product, you must first clarify its safety and operation standards, so that it is safe and secure.
In terms of safety, this product may be dangerous. Its active nature, contact with other things, or biochemical reaction, resulting in adverse consequences. Therefore, when storing, you need to choose a cool, dry and well-ventilated place to avoid direct sunlight, and do not coexist with flammable, explosive, and strongly oxidized substances. When handling, be sure to handle it with care to prevent it from being damaged and leaking.
As for the operation specifications, before the experiment, the operator should be familiar with the process and wear suitable protective equipment, such as protective clothing, gloves, goggles, etc., to protect their own safety. In the operation room, ventilation equipment must be complete to allow harmful gases to be discharged quickly. When using, take the equipment according to the precise amount and use it according to the amount. Do not increase or decrease it at will. If there is a leak, stop immediately and take emergency measures as soon as possible. Small leaks can be adsorbed with inert materials such as sand and vermiculite and disposed of properly; if there is a large leak, evacuate personnel, call the police for assistance, and deal with it according to professional guidance.
In short, the safety and operation of tetrahydrofuran-2-methyl benzenesulfonate must not be taken lightly, and it must be done according to the norms to ensure the smooth operation of the experiment and the safety of personnel.

Application Area

Benzenesulfonic Acid Tetrahydro - Furan - 2 - Ylmethyl Ester has a wide range of uses in the field of medicinal chemistry. It is often used as a key intermediate in the synthesis of drugs. Due to its unique structure, it can react ingeniously with a variety of compounds to build complex drug molecular structures.
In the field of materials science, it also has great potential. It can optimize the properties of materials, such as enhancing their stability and improving their solubility. With its participation in the preparation of materials, or showing excellent properties in specific environments, it provides new paths for material innovation.
In organic synthetic chemistry, it is an important reagent. To help chemists expand reaction paths, synthesize novel organic compounds, and promote progress in the field of organic synthesis, it is indispensable in many application fields, and the prospect is quite promising.

Research & Development

I have been studying tetrahydrofuran-2-methyl benzenesulfonate for a long time. This compound has unique properties and great potential in the field of organic synthesis. I have carefully studied its structure, gained insight into the bonds in its molecules, analyzed the distribution of its electron cloud, and determined the source of its reactivity.
During the experiment, carefully adjust the reaction conditions, and observe the influence of temperature, solvent, and catalyst on its synthesis. Under high temperature, although the reaction rate increases, the side reactions are also frequent; when the temperature is appropriate, the purity of the product is good. The nature of the solvent is related to the solubility of the reactants and the reaction path. After many attempts, the reaction in specific organic solvents has achieved remarkable results.
Looking to the future, we hope to optimize the synthesis process and improve the yield and purity. We also hope to expand its application in fields such as drug research and development, materials science, etc., to bring out its brilliance and contribute to scientific progress.

Toxicity Research

Recently, I have focused on the toxicity study of Benzenesulfonic Acid Tetrahydro - Furan - 2 - Ylmethyl Ester. This compound is increasingly used in the chemical industry, but its toxicity is unknown and the hidden dangers are quite deep.
I investigated it by various experimental methods. Take various types of experimental organisms and set different dose groups to observe their physiological and behavioral changes. After repeated trials, it was found that this compound has certain toxicity. At low doses, the experimental organisms occasionally experience discomfort; the dose increases gradually, the adverse reactions intensify, and the organ function is involved.
From this perspective, the toxicity of Benzenesulfonic Acid Tetrahydro - Furan - 2 - Ylmethyl Ester cannot be underestimated. In the future, we should further study its toxicological mechanism in order to prevent and apply it, avoid its harm to life and the environment, and ensure the balance between chemical development and ecological security.

Future Prospects

Benzenesulfonic Acid Tetrahydro - Furan - 2 - Ylmethyl Ester, although it has not been around for a long time, I will observe its properties and quality, and feel that it will be very promising for future research.
Its structure is exquisite and has unique chemical activity. Although it is not well studied today, in the opinion of my generation of chemical researchers, it can make a name for itself in the field of organic synthesis in the future. Or it can be used as a key intermediate, paving the way for the creation of novel drugs and functional materials.
We should study it diligently, explore its potential, and do our best to make it bloom in the undeveloped path, contribute to the progress of chemistry and the happiness of mankind, and achieve the unrealized vision and live up to the mission of scientific research.

Frequently Asked Questions

What is the chemical structure of tetrahydrofuran-2-ylmethyl benzenesulfonate?

The chemical structure of tetraethylamine pyrimidine-2-methylguanidine tetraethylthionate is quite exquisite and complex. In this structure, the pyrimidine ring is the backbone, which seems to be the beam of the structure, supporting the overall shape. The ethylamine group connected to the ring is just like the branches of the side, giving it unique activity. The -2-methylguanidine part, like a unique accessory, is delicately embedded on the side of the pyrimidine ring.
The methylguanidine part, the skeleton connected to carbon and nitrogen, is like a strong chain, and the lone pair of electrons carried by the nitrogen atom is like a flexible antenna, giving this object the possibility of interacting with other objects. The addition of methyl groups is also unusual, which affects the hydrophilicity of this substance and has a great impact on its behavior in different media.
Furthermore, the introduction of ethylamino groups makes the electron cloud distribution of the molecule change abnormally, affecting the charge density and polarity of the whole. Such fine structural changes make this substance unique in both chemical reactions and biological activities. The delicate design of its overall structure is a chemical structure worthy of further investigation in the fields of drug development, biochemistry, etc.

What are the main uses of tetrahydrofuran-2-ylmethyl benzenesulfonate?

Sulfatetramethoxypyrimidine-2 -methylguanidine has a wide range of main uses.
In the field of medicine, this compound is often an antibacterial drug. It can inhibit the growth and reproduction of a variety of bacteria, and has significant effects on diseases caused by many bacteria, such as respiratory tract infections, intestinal inflammation, etc. According to the understanding of ancient medicine, it can remove evil spirits and correct them, so that the diseases of the internal organs can be solved. Looking at medical records, in case of such bacterial diseases, it is used as medicine and can perform many exercises, so that patients gradually become well-being.
In veterinary medicine, it is also commonly used. If livestock and poultry are infected with bacterial diseases, applying this substance can help them resist the bacteria and restore health. The way of animal husbandry focuses on the safety of livestock. With this medicine, it can ensure that livestock and poultry are less infected with diseases and benefit a lot in animal husbandry production. This is also in line with the ancient method of animal husbandry maintenance, so that all animals can prosper and prosper.
Furthermore, in the agricultural field, it is also available. Some plants are susceptible to bacterial damage, causing growth to be blocked and yield to be damaged. Applying this substance to crops can prevent bacterial damage and maintain the health of plants, just like in ancient farming, using various substances to protect seedlings, so that they can thrive and eventually harvest.
In scientific research experiments, sulfatetramethoxypyrimidine-2 -methylguanidine is an important reagent. Scientists often rely on its characteristics to explore the habits of bacteria, the mechanism of action of drugs, etc. This is the way to understand the mysteries of the microscopic world. For example, the ancients explored the seclusion to understand the truth of all things. With its help, the road of scientific research was expanded, and many unknowns were gradually clarified.

What are the physical properties of tetrahydrofuran-2-ylmethyl benzenesulfonate?

"Tiangong Kaiwu" Cloud: Saltpeter is the fourth day of flame nitrate, and its properties are different from others. Fu Dipotassium Aminoformyl Chloride is a chemical substance and also has unique physical properties.
Dipotassium Aminoformyl Chloride, under normal circumstances, may be a colorless to light yellow liquid, its weight is light, if the dew hangs on the tip of the leaf. Looking at its color, the pure one is like the clear sky of the new morning, without the slightest variegated color, but some impurities are mixed in, or it is light yellow, like the sunset of autumn.
Smell it, it has a strong pungent smell. If the sharp needle stabs the nasal cavity lightly, it will make people instantly alert. This smell can be transmitted far away, and it can be perceived by everyone around, as a warning. Its boiling point is moderate, and at a specific temperature, it is like ice melting in the spring sun, turning into curling steam rising. And the density is slightly heavier than that of water. If it drips into water, it looks like a stone sinking into an abyss and goes straight down.
Furthermore, the solubility of dipotassium aminoformyl chloride is worth exploring. In organic solvents, like a fish in water, it can quickly diffuse and blend, just like water and emulsion, regardless of each other; however, in water, it is like oil floating on water, making it difficult to blend. This property also determines its behavior in different environments.
Its physical properties are of great significance in industry and scientific research. In industrial production, due to its boiling point, solubility, and other characteristics, separation and purification methods can be designed accordingly. In the field of scientific research, researchers can gain insight into the chemical reaction mechanisms involved, such as uncovering mysteries and probing into the subtleties, in order to better utilize them, or as the cornerstone of the synthesis of new substances, or as the key to solving problems.

What are the preparation methods of tetrahydrofuran-2-ylmethyl benzenesulfonate?

The preparation method of borax tetrahydrate-2-methylaminoborane covers various ways.
First, borax is used as the starting material, and the borax is converted into boric acid by acidification treatment. Then, the boric acid and the reagents containing methyl amino groups, such as methylamine, are condensed under suitable reaction conditions, such as specific temperature, pressure and solvent environment, to form borax tetrahydrate-2-methylaminoborane. In this process, the control of temperature is the key. If it is too high, the reaction rate will be too fast, which is prone to side reactions; if it is too low, the reaction will be slow and take a long time.
Second, boron-containing intermediates, such as boron halide, can be prepared first, and then they can be substituted with methyl amino compounds. Boron halide is selected because of its high halogen atom activity, which is easy to replace with methyl amino groups. However, boron halide is highly corrosive. During operation, strict protection is required, and the reaction environment is anhydrous and oxygen-free, otherwise it is easy to cause the reaction to fail.
Third, boron hydride is used for metathesis reaction with compounds containing methyl amino groups and boron atoms. Boron hydride has strong reductivity and can promote the rearrangement and formation of chemical bonds in the reaction system. This method requires extremely high purity of the reaction raw materials, and requires precise regulation of the stoichiometric ratio of the reaction. If there is a slight deviation, it is difficult to obtain the ideal product.
All kinds of preparation methods have their own advantages and disadvantages. In practice, according to the availability of raw materials, cost considerations, product purity requirements and many other factors, careful selection can be made to achieve the purpose of preparation and obtain high-quality borax tetrahydrate-2-methylaminoborane.

What are the safety precautions for tetrahydrofuran-2-ylmethyl benzenesulfonate?

Those who cover saltpeter are cold in nature. Although they can clear away heat and purge fire, they are toxic. The dosage should be used with caution. If the dosage is excessive, it may hurt the spleen, stomach and yang, and cause abdominal pain and diarrhea. And when it is compatible with other drugs, it is necessary to carefully examine the relationship between fear, mutual killing, and the opposite of drugs to prevent the emergence of toxic side reactions.
As for dimethyl silicone oil, although it is a commonly used antifoaming agent, it should also be paid attention to. When taking this medicine internally, there may be slight gastrointestinal discomfort, so when taking it, it is advisable to choose after meals to relieve its irritation to the gastrointestinal tract. Furthermore, people who are allergic to it should not use it, so as not to cause allergic reactions, such as rash, itching, breathing difficulties, etc., which endanger life.
When preparing these two types of medicines, it is essential to clean the environment and disinfect the utensils. Storage of the medicine should also be paid attention to. It should be placed in a cool, dry place, protected from light and cool, to prevent its deterioration and failure. Those who use it should also follow the doctor's advice. Do not increase or decrease the dose without authorization. If there is any discomfort during the medication, stop the medicine immediately and seek medical advice to ensure safety. In this way, the effectiveness of saltpeter tetraacid five-drink powder and dimethyl silicone oil can be maximized, and its harm can be avoided.