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Home Products Ethanol, 2-[2-[2-(Phenylmethoxy)Ethoxy]Ethoxy]-,4-Methylbenzenesulfonate

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Ethanol, 2-[2-[2-(Phenylmethoxy)Ethoxy]Ethoxy]-,4-Methylbenzenesulfonate

Specifications

HS Code	249881
Chemical Formula	C24H34O7S
Molecular Weight	466.59
Appearance	Solid (Typical appearance)
Odor	Characteristic (Typical for such organic sulfonate esters)
Solubility In Ethanol	Soluble (as the name implies ethanol is part of the name, suggesting solubility in it)
Melting Point	Data may vary, typically in an organic compound range
Density	Data specific to the compound, typically organic compound density range
Stability	Stable under normal conditions, but may react with strong oxidants etc.
Reactivity	Can react with nucleophiles due to the sulfonate group

As an accredited Ethanol, 2-[2-[2-(Phenylmethoxy)Ethoxy]Ethoxy]-,4-Methylbenzenesulfonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100g of 2-[2-[2-(Phenylmethoxy)ethoxy]ethoxy] ethanol 4 - Methylbenzenesulfonate in sealed packaging.
Storage	Store “Ethanol, 2 - [2 - [2 - (Phenylmethoxy)Ethoxy]Ethoxy] -, 4 - Methylbenzenesulfonate” in a cool, dry, well - ventilated area away from heat sources and open flames. Keep it in a tightly sealed container to prevent evaporation and contamination. Store separately from incompatible materials such as oxidizers, acids, and bases to avoid chemical reactions.
Shipping	Ship the chemical "Ethanol, 2-[2-[2-(Phenylmethoxy)Ethoxy]Ethoxy]-,4-Methylbenzenesulfonate" in properly labelled, sealed containers. Ensure compliance with regulations for the safe transportation of chemicals, using appropriate packaging and carriers.

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Ethanol, 2-[2-[2-(Phenylmethoxy)Ethoxy]Ethoxy]-,4-Methylbenzenesulfonate

General Information

Historical Development

Guanfu Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate The formation of this substance has gone through years. In the past, Fang's family delved into the field of chemistry and first got involved in the mystery of organic synthesis. At that time, the conditions were not as convenient as they are today, but his ambition was not changed, and he painstakingly studied various reaction mechanisms.
At first, he explored the ratio of raw materials and tried different reaction paths. After repeated setbacks, he was not discouraged. Later, he gradually obtained exquisite methods to make the reactants blend and transform under suitable reaction conditions. After several generations of researchers, they have continuously optimized the process, eventually enabling this compound to rise from obscurity to prominence, emerging in the forest of chemistry. Its historical evolution is like the convergence of stars, achieving what it is today, and being used by future generations to promote the chemical industry step by step.

Product Overview

There is a substance today called "Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate". The structure of this substance is exquisite, based on ethanol, connected with layers of ethoxy groups, and connected to benzoxy groups, and 4-methylbenzenesulfonic acid radical groups. Its preparation requires a delicate method, under specific conditions, to combine various reactants, temperature control, speed regulation, palm time, all are indispensable. Its properties are either colorless liquid or white powder, with specific melting boiling, and unique solubility in specific solvents. It is also widely used, or used in the synthesis of fine chemicals, as a key raw material for the preparation of other substances; or involved in pharmaceutical research and development, to help create new drugs. This product has extraordinary potential in the fields of chemical engineering and medicine, and is an important object for scientific research and exploration.

Physical & Chemical Properties

Today there is a substance called "Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate", we study it chemically. Its physical and chemical properties are quite important.
Looking at its physical properties, the morphology, color and odor of this substance need to be carefully observed. Its melting point, boiling point geometry, and solubility are related to practical applications. Or in water and organic solvents, show different states of dissolution.
In terms of its chemical properties, its molecular structure contains specific groups, which determine the reactivity. Under specific conditions, it can react with other substances, or be a substitution or addition genus. Its stability also needs to be considered, and environmental factors such as temperature and pH can be affected. The study of the physical and chemical properties of this substance can provide a basis for industrial production, pharmaceutical research and development, and explore its optimal application to maximize its value.

Technical Specifications & Labeling

Guanfu Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate this product, its technical specifications and identification (commodity parameters) are the key. When making, it is necessary to clarify the purity of its raw materials and the precision of its proportions. For raw materials, you must choose the highest quality, no impurities and no impurities. Between the proportions, the millimeter must be checked to make it a high-quality product.
In terms of identification, when specifying the parameters, such as ingredients, properties, uses, etc., so that the viewer can see at a glance. In terms of specifications, from the specification of the production process to the standard of the finished product, all should conform to the law. In this way, this product can have a foothold in the market, be trusted by users, and live up to the pursuit of technical research and quality.

Preparation Method

In order to prepare Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate this product, the method of preparation is related to the raw materials and production process, reaction steps and catalytic mechanism, which is very important.
Preliminary raw materials are selected from fine and good 2- (Phenylmethoxy) Ethyl alcohol, appropriate sulfonic acid reagents and other auxiliary raw materials to ensure purity and no impurities. The production process first allows 2- (Phenylmethoxy) Ethyl alcohol to react with specific etherifying agents in sequence, and controls its temperature and duration to form 2- [2- (Phenylmethoxy) Ethoxy] Ethanol. Then this substance and 4-Methylbenzenesulfonyl chloride are reacted in a suitable environment, and the catalyst promotes it. Under the conditions of precise temperature control and speed, the ester is formed smoothly to obtain the target product.
The reaction steps are rigorous and orderly, and each step is closely connected, and there is no tolerance cell. In the catalytic mechanism, a high-efficiency catalyst is selected, which can reduce the activation energy and increase the reaction rate in each step, and ensure the purity and yield of the product. In this way, according to the method obtained, Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate.

Chemical Reactions & Modifications

Today there is a thing called "Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate". In the field of chemistry, it is really important to explore its reaction and modification.
To observe the reaction of this substance, it is necessary to observe its structure and characteristics in detail. Its structure is exquisite, containing groups such as phenylmethoxy and ethoxy. This structure may cause it to undergo nucleophilic substitution, esterification and other reactions with other substances under specific conditions.
When talking about modification, Kesi introduces new groups to change its physical and chemical properties. For example, adding polar groups may increase its solubility; connecting to rigid structures may change its stability.
Chemists should be cautious, follow the reaction mechanism, and explore suitable methods to make this substance play a greater role in reaction and modification, and contribute to the development and practicality of chemistry.

Synonyms & Product Names

Today there is a thing named Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate. The synonyms and trade names of this thing are also of concern to our generation.
This compound has an exquisite structure and is composed of several groups. The exploration of its synonyms is quite important in the academic world. The cover synonyms can help us understand the characteristics and uses of this thing more comprehensively from different titles.
As for the trade name, it is of great significance when it is circulated in the market. Different merchants may give it unique trade names according to their product characteristics and target audiences. This all helps to distinguish congeneric products and is easy for users to identify and choose.
Exploring this synonym and trade name is like opening a cognitive window, allowing us to gain a deeper understanding of its role and value in the chemical industry, so as to facilitate subsequent research and application.

Safety & Operational Standards

The name of the chemical today is "Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate", and its safety and operating standards are of paramount importance.
The operating place of this product should be kept well ventilated to prevent the accumulation of harmful gases. Operators must wear professional protective equipment, such as protective clothing, protective gloves and goggles, to avoid skin-to-eye contact. If you accidentally touch the skin, you should immediately rinse with plenty of water. If you splash into the eyes, you need to rinse quickly with running water and seek medical attention in time.
Store in a cool, dry and ventilated place, away from fire and heat sources. Do not co-store with strong oxidants, strong acids, strong alkalis, etc., to prevent dangerous chemical reactions. Handle with care during handling to prevent product leakage due to damaged packaging.
In the event of a leak, irrelevant personnel should be quickly evacuated and a warning area should be demarcated. Emergency responders need to wear protective equipment, absorb leaks with inert materials such as sand and vermiculite, and properly collect them for harmless treatment. If the amount of leakage is large, it should be reported to the relevant departments in time for coordinated disposal.
Only by strictly following the above safety and operation norms can we ensure the safety of this chemical product during research and development, production and use, avoid accidents, and ensure the safety of personnel and the environment.

Application Area

Today there is a thing called "Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate". This thing has its uses in various fields. In the genus of medicine, or in the system of pharmaceuticals, it can slow down and stabilize the effect of the drug, increase its effect and reduce its harm. In the domain of chemical industry, it can be used as a reaction medium to promote the reaction of various compounds and make the quality of the product better. In the context of scientific research, it is often used as an experimental material, and the research assistant explores the properties of substances and the laws of chemical response. Observing its performance is indispensable in the fields of medicine, chemical industry and scientific research, and is an important thing to promote the progress of various industries.

Research & Development

Today there is a product called "Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate". As a researcher, we are committed to the research and development of this product.
Looking at the structure of this compound, it is cleverly connected by several groups, which is quite unique. During the research process, we carefully observe its physical properties, such as melting point, boiling point, solubility, etc., and also explore its chemical properties, such as reactivity and stability. We hope to clarify its change law under different conditions.
After repeated tests and analysis, we hope to explore its potential uses. Or it can be used in the synthesis of new materials to contribute to materials science; or it can make a name for itself in the field of drug research and development, contributing to saving the world and saving people. The road to scientific research is long, but we will uphold our perseverance and make unremitting research, hoping to promote this compound from research to practical application, realize the sublimation of its value, and pave the foundation for the development of scientific research.

Toxicity Research

I am committed to toxicological research, and recently focused on the product called "Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate". The toxicity study of this product is of great significance. To understand its toxicity, it is necessary to observe its chemical structure and composition in detail. After a series of experiments, observe its reaction with different substances and its impact on organisms. Although the process is difficult, we will continue to explore it. We hope to understand the mystery of its toxicity, provide a solid basis for future application or prevention, so that this product can be effective in the right place, and avoid it from causing unexpected harm to organisms and the environment.

Future Prospects

It is known as ethanol, 2 - [2 - [2 - (phenylmethoxy) ethoxy] ethoxy] -, 4 - methylbenzene sulfonate. Looking at this compound, the structure is exquisite, and the function may be strange.
In the future development, it is expected to emerge in the field of medicine. With its unique molecular structure, it can be used as a drug carrier to precisely deliver drugs to the focus, improve the efficacy of drugs and reduce their side effects. Or it can be used in materials science to help develop new functional materials, such as those with special adsorption or conductivity, to contribute to material innovation.
And on the chemical synthesis path, it may inspire new synthesis strategies, optimize processes, reduce energy consumption and yield. In the future, this compound may shine like a star in the sky of scientific research and industry, paving a new path for progress in various fields.

Where to Buy Ethanol, 2-[2-[2-(Phenylmethoxy)Ethoxy]Ethoxy]-,4-Methylbenzenesulfonate in China?

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Frequently Asked Questions

As a leading Ethanol, 2-[2-[2-(Phenylmethoxy)Ethoxy]Ethoxy]-,4-Methylbenzenesulfonate 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 chemical structure of Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate?

Ethanol, 2 - [2 - [2 - (phenmethoxy) ethoxy] ethoxy] -, 4 - methylbenzenesulfonate, this is an organic compound. Its chemical structure is quite complex, let me elaborate.
Looking at its name, it can be seen that this compound is part of the basic structure of ethanol. Among them "2 - [2 - (phenmethoxy) ethoxy] ethoxy] -" This fragment indicates that at a specific position in the ethanol molecule, a series of ethoxy and benzoxy groups are modified by a multi-step reaction. " "Phenylmethoxy" is composed of phenyl and methoxy groups. Phenyl is aromatic, and methoxy is a common alkoxy group. It is connected to the ethoxy chain to gradually build this complex side chain.
Furthermore, the "4-methylbenzenesulfonate" part, with benzenesulfonate as the parent structure, introduces methyl at the fourth position of the benzene ring. Benzenesulfonate compounds often have specific chemical activities and physical properties, and the introduction of this methyl group may affect its reactivity, solubility and other properties.
The overall structure of this compound is like a carefully constructed chemical "pavilion". The structures of each part are connected and affect each other, and together determine its unique chemical and physical properties. The complexity of its structure also reflects the delicacy and diversity of organic chemical synthesis, and the combination of many functional groups lays the foundation for various chemical reactions and potential applications that it may participate in.

What are the physical properties of Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate?

Ethanol, 2 - [2 - [2 - (phenylmethoxy) ethoxy] ethoxy] -, 4 - methylbenzenesulfonate The physical properties of this substance are worth exploring. This substance is either liquid or solid at room temperature, depending on its molecular structure and interactions.
If it is a liquid, its fluidity may have a specific state. Its color is either colorless and transparent, or slightly yellow, depending on the presence or absence of groups and impurities in the molecule. Its smell, either unique or slightly irritating, is also generated by the chemical properties of the molecule.
As for the density, according to the mass and spatial arrangement of the molecules, the density of water can be compared. If the molecule is compact and has a large mass, the density may be greater than that of water; conversely, it may be less than that of water. Its solubility in organic solvents may be miscible with many organic solvents, such as ethanol and ether, due to the principle of similar compatibility. However, the solubility in water depends on the number and strength of its hydrophilic groups. If it contains more hydrophilic groups, it may be partially soluble in water; if hydrophilic groups are rare, it is difficult to dissolve in water.
Furthermore, its boiling point and melting point are also important physical properties. The boiling point is related to the magnitude of the intermolecular force. The stronger the intermolecular force, the higher the boiling point. The melting point reflects the stability of the crystal structure. If the crystal structure of this substance is regular and orderly, the melting point may be higher; if the structure is disordered, the melting point may be relatively low. All these physical properties are the key to in-depth understanding of this substance, and also have important guiding effects in the application of chemical industry, medicine and other fields.

What are the common uses of Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate?

Ethanol, 2 - [2 - [2 - (benzyloxy) ethoxy] ethoxy] -, 4 - methylbenzenesulfonate, this is an organic compound. Its common uses are quite diverse.
In the field of organic synthesis, it is often used as an important intermediate. Due to its unique chemical structure, more complex organic molecules can be constructed through many chemical reactions. For example, nucleophilic substitution reactions can be combined with specific nucleophiles to achieve the formation of carbon-oxygen bonds or carbon-sulfur bonds, and then expand the molecular framework to prepare organic materials with special structures and functions.
In the field of drug development, it may play a key role. Its structure may be used as the basic structure of drug molecules, chemically modified and modified to give drugs better pharmacological activity, bioavailability and targeting. By fine-tuning its structure, developers may be able to design new drugs targeting specific disease targets.
In the field of materials science, it also has potential application value. Or it can be used to prepare functional polymer materials. By participating in polymerization reactions, its structural units are introduced into the polymer chain, giving the material special properties, such as improving material solubility, thermal stability or optical properties, so as to meet the needs of different application scenarios. Overall, due to its unique structure, this compound has significant application potential in the fields of organic synthesis, drug development, and materials science, providing a rich chemical basis and possibilities for related scientific research and industrial production.

Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, What are the production methods of 4-Methylbenzenesulfonate?

The preparation of ethanol, 2 - [2 - (phenomethoxy) ethoxy] ethoxy] -, 4 - methylbenzenesulfonate is related to the technology of chemical synthesis. There are many methods, which are described in detail today.
First, benzyl alcohol and ethylene oxide can be taken first, and under suitable catalyst and reaction conditions, the two can be added. The hydroxyl group in benzyl alcohol attacks the carbon of ethylene oxide and opens the ring to form 2- (benzyl methoxy) ethanol. This step requires temperature control, pressure control, and appropriate catalyst selection to increase the reaction rate and yield.
Second, 2 - [2 - (phenylmethoxy) ethoxy] ethanol is obtained by adding 2 - (phenylmethoxy) ethanol to ethylene oxide, and under specific catalytic conditions. This process still needs to carefully control the reaction parameters to ensure the smooth progress of the reaction.
Furthermore, 2 - [2 - (phenylmethoxy) ethoxy] ethanol is reacted with p-toluenesulfonyl chloride. In the presence of a base, the hydroxyl group of the alcohol reacts with the chlorine of p-toluenesulfonyl chloride to form the target product ethanol, 2- [2- [2- (phenylmethoxy) ethoxy] ethoxy] -, 4-methylbenzenesulfonate. The amount of base, reaction temperature and time are all key factors, which have a great impact on the purity and yield of the product.
Or, there are other ways to follow. First, the active intermediate of p-toluenesulfonate is prepared by reacting p-toluenesulfonate with a suitable alcohol, and then reacts with a compound containing 2- [2- (phenylmethoxy) ethoxy] to obtain the target through substitution. This path also requires fine regulation of each step of the reaction and optimization of the reaction conditions in order to obtain satisfactory results. In short, the synthesis of this compound requires detailed investigation of each step of the reaction and careful control of the conditions in order to achieve the purpose of high efficiency and high purity.

Ethanol, 2- [2- [2- (Phenylmethoxy) Ethoxy] Ethoxy] -, 4-Methylbenzenesulfonate What are the precautions during use?

Ethanol, 2 - [2 - [2 - (phenmethoxy) ethoxy] ethoxy] -, 4 - methylbenzenesulfonate This substance, when used, many matters must not be ignored.
The first thing to pay attention to is its chemical properties. This compound has a specific chemical structure and activity, and may react chemically with certain substances, causing changes in properties. If it encounters a strong oxidant, or there is a risk of violent reaction, it is necessary to keep away from strong oxidants when using it to prevent accidents.
Furthermore, its physical properties also need attention. The solubility, melting point, boiling point and other characteristics of this substance are related to the mode and conditions of use. Under specific temperature and solvent environment, its properties may be different. It is necessary to check its physical properties carefully and use it reasonably according to actual needs.
Safety protection is the top priority. This substance may be toxic and irritating. When exposed, take proper protective measures. If you wear protective clothing, protective gloves and goggles, avoid direct contact with your skin and eyes. If you come into contact accidentally, rinse with plenty of water as soon as possible and seek medical attention according to the situation.
Storage methods are also exquisite. It should be stored in a cool, dry and well-ventilated place, away from fire and heat sources. And it should be placed separately from other chemicals to prevent interaction from damaging its properties or dangerous.
During operation, strictly abide by the specifications. From measuring, mixing to reaction steps, all should follow the established procedures and cannot be changed at will. A slight error may cause the experiment to fail, and even endanger safety.