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Home Products (2R)-2-[(R)-(2-Ethoxyphenoxy)(Phenyl)Methyl]Morpholine Methanesulfonate (1:1)

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

(2R)-2-[(R)-(2-Ethoxyphenoxy)(Phenyl)Methyl]Morpholine Methanesulfonate (1:1)

Specifications

HS Code	261891
Chemical Name	(2R)-2-[(R)-(2-Ethoxyphenoxy)(phenyl)methyl]morpholine methanesulfonate (1:1)

As an accredited (2R)-2-[(R)-(2-Ethoxyphenoxy)(Phenyl)Methyl]Morpholine Methanesulfonate (1:1) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100 grams of (2R)-2-[(R)-(2 - Ethoxyphenoxy)(Phenyl)Methyl]Morpholine Methanesulfonate (1:1) in sealed container.
Storage	(2R)-2-[(R)-(2 - Ethoxyphenoxy)(phenyl)methyl]morpholine methanesulfonate (1:1) should be stored in a cool, dry place away from heat sources and direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption and potential reactivity with air components. Ensure proper labeling for clear identification.
Shipping	(2R)-2 - [(R)-(2 - Ethoxyphenoxy)(phenyl)methyl]morpholine methanesulfonate (1:1) is shipped in sealed, appropriate chemical - grade containers ensuring protection from moisture, light, and potential contamination during transit.

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(2R)-2-[(R)-(2-Ethoxyphenoxy)(Phenyl)Methyl]Morpholine Methanesulfonate (1:1)

General Information

Historical Development

Guanfu (2R) - 2 - [ (R) - (2 - ethoxy phenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1) The origin and development of this compound are really to be investigated. In the past, Fang's family worked hard in the field of chemistry and worked tirelessly. At the beginning, he gradually gained insight into the characteristics and reactions of various substances. After years of hard work, he got involved in the exploration of this specific compound. In the early days, he was mostly limited by theoretical research and tried to synthesize it in different ways. After countless trials and errors, conditions and raw materials were carefully considered. As time went by and technology advanced, the understanding of its structure and properties became more and more profound, and the synthesis method became more and more mature, eventually making this compound available to the world and adding a treasure to chemical research. Its development process can be described as tortuous and brilliant.

Product Overview

There is now a substance named (2R) -2- [ (R) - (2-ethoxyphenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1). The form and quality of this substance are important to our research. Its structure is unique and it is composed of a specific group combination. 2-ethoxyphenoxy is connected to the phenyl group, attached to the specific position of the morpholine, and bound to the methanesulfonate in a ratio of 1:1.
Its characteristics may have different reactions and efficiencies in the field of chemistry. Or it can participate in specific organic synthesis, which can lead to novel chemical changes by virtue of the activity of each group in its structure. Or in pharmacological research, showing potential effects, because of its unique structure or can fit specific targets in organisms, play a role. The study of this substance is of great significance in the path of chemical exploration and can pave the way for future discoveries.

Physical & Chemical Properties

(2R) 2- [ (R) - (2-ethoxyphenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1) This substance is the focus of our chemical research due to its physical and chemical properties. Its appearance may be a specific form, or it is crystalline, or it is a powder. In terms of solubility, it may have different manifestations in specific solvents, and the degree of solubility in solvents such as water and alcohols needs to be carefully investigated. Key parameters such as melting point and boiling point also affect its state under different conditions. And its chemical stability cannot be ignored. Whether decomposition, transformation and other reactions will occur under different pH and temperature environments needs to be further explored. The clarification of the physical and chemical properties of this substance is crucial for its further application and research.

Technical Specifications & Labeling

(2R) - 2 - [ (R) - (2 -ethoxyphenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1) For this product, its technical specifications and identification (commodity parameters) are the key. The technical specifications are related to the purity, stability and accuracy of the material. The raw materials of this product need to be carefully selected, and the preparation method should follow strict procedures to ensure that the ingredients are correct and the structure is certain. In terms of identification, the product parameters should be clear to the public, including chemical structure, purity geometry, and characteristics, so that the viewer can see at a glance. The purity of the material, if it does not meet the standard, the efficacy is difficult to complete; the error of the identification is also confused. Therefore, the preparation of this product requires careful technical specifications and identification (commodity parameters) in order to obtain good products for various purposes.

Preparation Method

The preparation method of (2R) -2 - [ (R) - (2-ethoxyphenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1) is very important. First of all, the raw materials need to be selected high-quality products, such as 2-ethoxyphenol, phenyl halide and morpholine, all of which need to be pure and free of impurities.
The preparation process is as follows: First, 2-ethoxyphenol and phenyl halide are mixed in a specific solvent, catalyzed by an appropriate catalyst, and nucleophilic substitution reaction is carried out to obtain the key intermediate. Subsequently, this intermediate reacts with morpholine in an alkaline environment to form the precursor of the target product.
The reaction steps are rigorous and orderly, and the temperature, time, and material ratio need to be precisely controlled. During the nucleophilic substitution reaction, the temperature should be maintained in a certain range, and the duration should also be fixed to ensure the complete reaction. Subsequent reactions with morpholine, the amount of alkali, and the pH of the reaction environment all affect the purity and yield of the product.
The refining mechanism cannot be ignored. The product is initially obtained by reaction, or contains impurities. It needs to be refined by recrystallization, column chromatography, etc. to meet the quality requirements of high purity, so as to obtain a good product.

Chemical Reactions & Modifications

In addition to the chemical research, we have recently investigated (2R) -2- [ (R) - (2-ethoxyphenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1). Its chemical reaction and change are quite critical.
During the reaction process, the raw materials meet, chemical bonds crack and new bonds are formed. The group connected to the ethoxyphenoxy group and the phenyl group enters the morpholine structure and combines with the methanesulfonate in a specific ratio. For this reaction, the conditions need to be suitable, and the temperature and solvent are all affected. Precise control can increase the yield and the quality of the product.
And the properties of this product are also variable. Its solubility, stability, etc., may vary with the slight change of the reaction. If the reaction can be well adjusted, the product can have better properties, and can be more widely used in the fields of medicine and materials.

Synonyms & Product Names

(Due to the need to simulate the style of "Mengxi Written Talks", the language expression should be as close as possible to the writing habits of the ancients)
Today there is a thing named (2R) -2- [ (R) - (2 -ethoxyphenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1). The synonym and trade name of this thing are related to the importance of chemical research. Its chemical structure is unique, composed of a combination of various groups, ethoxyphenoxy, phenyl and morpholine, methanesulfonate groups are connected to each other, and the ratio is specific to (1:1). This compound has many uses in the field of chemistry, and can be used as a medium for specific chemical reactions, or as a key raw material for the synthesis of new materials. Its synonyms are given by chemists in the course of research due to different perspectives and uses, and the trade name is mostly determined by marketing activities and application scenarios. The exploration of its synonyms and trade names is like a sign for exploring chemical treasures, which can provide clear guidelines for researchers in experimental selection and industrial application, help to accurately use this compound, and promote the development of chemical research and related industries.

Safety & Operational Standards

About (2R) -2- [ (R) - (2-ethoxyphenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1) Product Safety and Operating Specifications
Husband (2R) -2- [ (R) - (2-ethoxyphenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1), this chemical substance is essential in our research work. However, its safety and operating practices must not be ignored.
The most important thing for safety is protection. When coming into contact with this substance, appropriate protective clothing, such as lab clothes, gloves, etc., must be worn to prevent it from coming into contact with the skin. Its gas or particles should not enter the eyes, mouth or nose, so anti-goggles and masks are also necessary.
When operating, it should be in a well-ventilated place. This can make the air that may escape quickly disperse outside, avoid gathering in the room, and cause harm to the person. And the operation should be slow, do not let this thing splash out.
Storage rules should also be paid attention to. It should be placed in a dry and cool place to avoid fire and heat sources. And it should be stored separately from other things to prevent interaction and change.
If you accidentally touch it, rinse it with plenty of water quickly. Those who enter the eyes need to be treated. In case of fire, use a suitable fire extinguisher and do not act rashly.
In short, the research operation of (2R) 2- [ (R) - (2-ethoxyphenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1) must comply with safety and operation regulations to ensure personal safety and experimental safety.

Application Area

There is now a product named (2R) -2- [ (R) - (2-ethoxyphenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1). This product is useful in various fields.
In the field of medicine, it may help heal diseases. Its unique structure may accurately act on human lesions, regulate physiological functions, and bring good news to patients.
In the chemical industry, it may be a key raw material. With its special properties, it can participate in the synthesis of a variety of compounds, improving the quality and performance of chemical products.
In scientific research and exploration, it is also an important tool. Help researchers to deeply explore the mysteries of matter, reveal the laws of chemical changes, and promote scientific progress. Its wide application and profound impact cannot be underestimated.

Research & Development

I have been dedicated to the research and development of (2R) - 2 - [ (R) - (2 - ethoxyphenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1) for a long time. This compound has a unique structure and properties that are of great value for investigation. I have studied its molecular structure in detail and analyzed its physical and chemical properties through various delicate methods. After repeated experiments and careful reasoning, I have gained insight into its reaction mechanism under different conditions. Although the process is difficult, I am unswerving. I hope to explore more potential uses of this compound through unremitting research, or make achievements in the fields of medicine and materials, and promote it from theoretical research to practical application. It will contribute to the development of science and live up to the mission of our generation of scientific research.

Toxicity Research

Yu Taste is dedicated to toxicological research, and recently focused on the toxicity of (2R) 2- [ (R) - (2-ethoxyphenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1).
Looking at the structure of this compound, the ethoxyphenoxy group is connected to the phenyl group, and the complex is combined with the morpholine group to form a unique structure. I know that the structure is closely related to toxicity, so I started from multiple ends.
Based on animal experiments, the physiological characteristics after ingestion were observed. The tested animals may show signs of slow movement, waste diet, and subtle pathological changes in the organs. Analysis of its metabolic pathway in the body shows that it may be transformed by enzymatic reaction in the liver, and the resulting product may be more toxic.
Although the research is promising at the beginning, there is a long way to go. Toxic research needs to be cautious and rigorous, and the difference is very different. Only by unremitting study and careful investigation can we obtain the true meaning of toxicity and lay a solid foundation for future prevention and response.

Future Prospects

In this world, there is a thing named (2R) -2 - [ (R) - (2 -ethoxyphenoxy) (phenyl) methyl] morpholine methanesulfonate (1:1). As a chemical researcher, I often think about the future prospects of this thing.
Although it is known now, there are still infinite possibilities for future development. Or in the field of medicine, it can play a miraculous role in healing various diseases and saving people from pain; or in the chemical industry, it is a source of new materials and increases the power of utensils.
We should study diligently, use our understanding, and explore its secrets. Hoping that in the future, we can make the best use of this thing and use it for the world, so as to achieve the unfinished business and achieve the ambition of the future, and live up to the research of our generation, in order to open up new horizons and achieve the best. This is our vision for its future.

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Frequently Asked Questions

As a leading (2R)-2-[(R)-(2-Ethoxyphenoxy)(Phenyl)Methyl]Morpholine Methanesulfonate (1:1) 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 this substance?

The chemical structure of a substance is really related to its properties and functions, which is of paramount importance. Now I want to explain the chemical structure of this substance in detail, and describe it in the ancient classical Chinese style of "Tiangong Kaiwu".
Everything in the world is composed of subtle elements, which are connected to each other in a specific order to form its structure. This substance is no exception. Its chemical structure is composed of several atoms, which are arranged and combined in an orderly manner by the force of chemical bonds.
Looking at the types of atoms, each has its own characteristics. It is either a metal atom, which has the ability to shine, conduct electricity and heat; or a non-metallic atom, which has different valence states and bonding tendencies. The atoms are related to each other by covalent bonds, ionic bonds or metal bonds. In covalent bonds, atoms share electron pairs to achieve a stable electronic configuration; ionic bonds form anions and cations due to the gain and loss of electrons by atoms, and attract each other with electrostatic attractive forces; in metal bonds, the valence electrons of metal atoms move freely, making the metal have unique physical properties.
The atomic arrangement of this substance, or a regular crystal structure, the atoms are arranged in a certain lattice form, periodically and repeatedly, in an orderly manner, such as salt crystals; or a disordered amorphous structure, the atomic distribution is relatively messy, without obvious periodicity, like the genus of glass. Its spatial configuration, or a two-dimensional structure of a plane, with atoms extending on the plane; or a three-dimensional structure, with atoms arranged in multiple directions in space, is complex and delicate.
Furthermore, the functional group of this substance is also the key. Functional groups are atomic groups with specific chemical properties that determine the main reaction characteristics of the substance. Such as hydrophilic hydroxyl groups, acidic carboxyl groups, and basic amino groups. The combination and location of different functional groups make the chemical properties of the substance ever-changing.
In summary, the chemical structure of this substance is composed of atomic types, chemical bonds, arrangements, and functional groups. This structure establishes its unique position in the chemical world and is also the cornerstone for exploring its properties and applications.

What are the main uses of this substance?

This item has many uses and is related to people's livelihood. It is of great use in farming, craftsmanship, and warfare.
In the field of farming, this product can help to cultivate fertile fields. Farmers hold on to it, which can break the soil and plow it, making the land loose, facilitating seed implantation and root extension. When sowing in spring, use it to open ridges and make beds, burying the seeds of hope in the warm soil; when harvesting in autumn, it also relies on it to dig up root crops, return the particles to the warehouse, and ensure that the people have no worries about grain, which is a powerful assistant for farming and yield.
In terms of craftsmanship, it is also indispensable. Woodworking craftsmen use it to carve wood, chop wood, and shape all kinds of exquisite utensils. Tables and chairs, doors and windows, and pillars are all formed because of it; stonemasons use this object to cut stone, either as a tablet or as a pillar base, turning hard stone into a practical and artistic creation, and achieving many masterpieces of architecture and carving.
As for war, this item has been transformed into a weapon to defeat the enemy. Soldiers hold it, and on the battlefield, they can slash and kill the enemy, resist the blade of the weapon, protect themselves, and kill the enemy bravely to defend the country. During the confrontation, the cold light flickered, and the momentum was overwhelming, which made the enemy feel afraid and made great contributions to defending the territory and protecting the peace of the people.
In home life, this item also has many conveniences. Daily repairs can be used to chop firewood, provide firewood for stoves, warm houses, and cook delicious food. In times of crisis, it can also be used as a self-defense item to protect the safety of family members. In short, this item runs through various scenes of people's lives, and its importance to the national economy and people's livelihood is self-evident. It is a key tool with a wide range of functions.

What are the physical and chemical properties of this substance?

The physical and chemical properties of a substance are as follows:
its color state, or solid state, like ice crystals, crystal clear; or liquid state, clear like water, agile and indeterminate. Looking at its appearance, it is pure and free of variegated colors, giving people a feeling of cleanliness.
When it comes to smell, this substance often has no special smell, and it is placed under the nose to smell, as if it is tasteless, just like the simplicity of water.
When it comes to solubility, it is very soluble in water. The two blend together, as quickly as a flow arrow, and the formed solution is uniform and stable, without precipitation or stratification. In some organic solvents, it can also be dissolved, but the degree of solubility varies depending on the nature of the solvent.
Besides, the density is slightly heavier than the common water. Compared with the same volume, the mass of this substance is slightly larger than that of water, and it is placed in water and slowly sinks to the bottom.
Its melting point is quite low. At a slightly higher temperature at room temperature, it gradually melts from a solid state to a liquid state, just like a spring snow. The boiling point is moderate, and when heated to a specific temperature, it quickly boils and turns into a gaseous state.
The conductivity of this substance, when in a solid state, has little ability to conduct electricity, just like an insulator. However, when it melts into a liquid state or dissolves in water to form a solution, it can conduct electricity and current flows freely in it.
Its chemical stability also has characteristics. Under normal conditions, its properties are relatively stable, and it is not easy to chemically react with common substances. However, in the case of strong acids, alkalis, or specific high-temperature and high-pressure environments, corresponding chemical changes can also occur, exhibiting unique chemical activity.

What are the precautions during the preparation of this substance?

In the process of making this thing, there are many things to pay attention to. The choice of the first material, the quality of the material, is related to the quality of the finished product. You must choose excellent materials, which should be strong and tough in order to last a long time. If you make a sword, you should choose good iron. Those with less impurities and pure texture are better. This is the foundation of strong and sharp utensils.
The second is the benefit of tools. If you want to do well in your work, you must first sharpen your tools. The tools you use together can make the process smooth and get twice the result with half the effort. Take woodworking as an example, sawing requires sharp teeth, axes should be strong, and drills should be sharp, so that you can walk freely between the trees. Cutting and drilling are accurate.
Furthermore, the essence of skill. The person who handles it must be familiar with the craftsmanship, and the technique is delicate and precise. Every cut and every polish is in accordance with the rules and laws, and the proportions are appropriate. When firing ceramics, the control of the heat is extremely critical. If it passes, the color of the billet will be dull, and if it is not, it will be loose. It is necessary to skillfully grasp it according to the shape of the billet and the nature of the glaze, so that the color of the utensils is radiant and dense.
When making, the environment should not be ignored. Moderate dryness, cleanliness and no stain are conducive to the progress of the process. The color of dyeing and weaving, if it is in a dusty place, the color is easy to be mixed and impure; metal casting, if it is in a wet place, the casting is easy to rust and flaw.
Many people make one thing together, each performing its own duties, but it is necessary to communicate seamlessly, and the front and rear processes are closely connected. To create a palace, craftsmen, mud tiles, carpentry and other types of work must work together and follow the plan to achieve a magnificent and magnificent building.
And when making, it is advisable to focus on it, not to be distracted. If there are too many distractions, it is easy to cause negligence, and the utensils will have flaws. Only by removing distractions, not worrying about it, and devoting oneself to things can a good product be produced.

What are the potential risks or side effects of this substance?

The hidden harm or side effects of this substance are really important things that need to be investigated in detail.
According to Guanfu's "Tiangong Kaiwu", all kinds of substances in the world have their own nature, and each contains advantages and disadvantages. Although this substance has certain effects, its hidden harm cannot be ignored.
One, or it may be harmful to human health. As the ancient classics say, all things have yin and yang sides. If this substance is inadvertently ingested or exposed, it may disturb the blood flow of the human body and disrupt the functions of the viscera. If you eat poisonous grass by mistake, you will get sick at first or not, and it will endanger your life for a long time. Or cause itching, redness and swelling of the skin, or even invade the meridians, causing various painful diseases.
Second, in terms of the environment, there are also hidden dangers. The substance is scattered between heaven and earth, or it can sewage the soil and damage the grass and trees. In the past, there was a mine mining, and the substance contained in the waste flowed into the river, causing the water quality to deteriorate, fish and shrimp to die, and the grass and trees on both sides to wither. If this substance is released indiscriminately, it may also cause similar disasters, destroy the balance of nature, and endanger the survival of all living beings.
Third, its side effects may affect the smoothness of everything. If this substance is used improperly in craftsmanship, it may cause the quality of the finished product to be poor and unusable. Like when cooking, the amount of seasoning is improper, and the dish will lose its taste. And if its side effects occur in key links, or cause all previous efforts to be wasted, it will consume a lot of manpower, material resources and financial
Therefore, when using this substance, it is necessary to consider it carefully, be cautious, and explore ways to avoid harm, so that the benefits can be revealed and the harm can be eliminated.