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Home Products Sodium 3-[(3,5-Dimethoxyphenyl)(Ethyl)Amino]-2-Hydroxypropane-1-Sulfonate

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Sodium 3-[(3,5-Dimethoxyphenyl)(Ethyl)Amino]-2-Hydroxypropane-1-Sulfonate

Specifications

HS Code	687101
Chemical Formula	C13H22NO6SNa
Molecular Weight	345.37
Appearance	Solid (Typical)
Solubility In Water	Good
Ph Range	Typically near - neutral
Density	Data - specific value needed
Melting Point	Data - specific value needed
Boiling Point	Data - specific value needed
Flash Point	Data - specific value needed
Stability	Stable under normal conditions
Hazard Class	Data - specific classification needed

As an accredited Sodium 3-[(3,5-Dimethoxyphenyl)(Ethyl)Amino]-2-Hydroxypropane-1-Sulfonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	1 kg of Sodium 3-[(3,5 -Dimethoxyphenyl)(Ethyl)Amino]-2 -Hydroxypropane-1 -Sulfonate in sealed bags.
Storage	Sodium 3-[(3,5 -Dimethoxyphenyl)(Ethyl)Amino]-2 -Hydroxypropane -1 -Sulfonate should be stored in a cool, dry place, away from direct sunlight. Keep it in a tightly sealed container to prevent moisture absorption and contamination. Ensure storage areas are free from sources of ignition and incompatible substances. Follow all safety regulations to maintain its stability.
Shipping	"Sodium 3-[(3,5-Dimethoxyphenyl)(Ethyl)Amino]-2-Hydroxypropane -1-Sulfonate" should be shipped in well - sealed, corrosion - resistant containers. It must be labeled as a chemical and transported in accordance with hazardous material regulations to ensure safe transit.

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Sodium 3-[(3,5-Dimethoxyphenyl)(Ethyl)Amino]-2-Hydroxypropane-1-Sulfonate

General Information

Historical Development

Scholars who have heard of ancient times, in the study of things, study the truth, and trace back to the source. Today, Sodium 3 - [ (3,5 - Dimethoxyphenyl) (Ethyl) Amino] - 2 - Hydroxypropane - 1 - Sulfonate This thing, its origin can also be investigated.
At the beginning, the sages worked hard in the field of chemistry. Observe the properties of matter and explore the rules of change. After years of study, this thing was obtained. Initially or only existed in the realm of theory, and then people used ingenious methods to turn it into reality. On the experimental table, adjust the materials, control the temperature, and after countless attempts, finally make it appear.
Since then, this object has gradually become more and more important in the academic community, and its use has also become more and more extensive with the progress of research. Although years have passed, the history of its research and development is the gathering of the wisdom and hard work of all sages. It should be remembered for future generations, so as to encourage future generations to move forward unremittingly on the road of science.

Product Overview

A chemical is called Sodium 3- [ (3,5-Dimethoxyphenyl) (Ethyl) Amino] -2-Hydroxypropane-1-Sulfonate. This chemical has unique properties, appearance or a specific state, and its properties contain many mysteries.
Its structure is exquisite and cleverly connected by specific groups. The 3-position is connected with an amino group containing 3,5-dimethoxyphenyl and ethyl, the 2-position has a hydroxyl group, and the 1-position is connected to the sulfonic acid group. Sodium is combined with it to form salts.
It is used in the field of application, or plays a role in some fine chemical processes, or is used as a key reagent in specific chemical experiments, helping to explore the laws of material changes, promoting the process of chemical research, and contributing to the development of related fields.

Physical & Chemical Properties

The nature of a chemical substance concerns the mind of the researcher. In today's words, Sodium 3 - [ (3,5 - Dimethoxyphenyl) (Ethyl) Amino] - 2 - Hydroxypropane - 1 - Sulfonate this substance. Its physical properties, in terms of powder, are pure in color and uniform in quality, and delicate in touch. It is stable and not impatient at room temperature. As for the chemical properties, it is soluble in water or soluble in its molecular structure. In the molecular structure, various groups interact with each other or react with other substances. With its sulfonic acid-containing radical groups, or with acidic characteristics, it can combine with bases and generate new compounds. And because it has a specific benzene ring and amino structure, it can be used as a key raw material in organic reactions, and it can come into contact with electrophilic reagents to cause structural changes. All this physical and chemical properties are important to researchers, and it is hoped that they can deeply explore its secrets and use it for various industries.

Technical Specifications & Labeling

Today there is a product named Sodium 3 - [ (3,5 - Dimethoxyphenyl) (Ethyl) Amino] - 2 - Hydroxypropane - 1 - Sulfonate. Its technical specifications and labels (commodity parameters) are the focus of our research.
To understand this product, it is necessary to carefully investigate its technical specifications. From the selection of raw materials, it is necessary to be pure and refined, and impurities are not allowed. The method of synthesis, when following precise steps, the heat and time must be appropriate, and there must be no difference. The reaction conditions are also critical. Temperature, humidity, pressure, etc., are all related to the quality of the product.
In terms of identification, the commodity parameters should be clear and identifiable. The name must be correct, and the content of ingredients must be clear, so that the viewer can see at a glance. Only in this way can those who use this product be shown clear guidelines, and those who produce this product are subject to strict standards. Only when the technical specifications and identification (commodity parameters) are complete can the delicacy of this product be obtained.

Preparation Method

There are methods for preparing Sodium 3- [ (3,5 - Dimethoxyphenyl) (Ethyl) Amino] - 2 - Hydroxypropane - 1 - Sulfonate, which are described in detail below.
Raw materials and production process: select refined raw materials, such as 3,5 - dimethoxyaniline with specific purity, bromoethane, epoxy chloropropane and sodium bisulfite. In a suitable ratio, 3,5 - dimethoxyaniline is first reacted with bromoethane, the temperature is controlled at a certain degree, and the intermediate product is obtained after a few days.
Reaction steps: Next, the intermediate product is co-placed in a kettle with epichlorohydrin, the pH is adjusted to a certain value, and the reaction is carried out for several hours. After adding sodium bisulfite, the temperature is raised to a certain degree, and the reaction continues.
Catalytic mechanism: The selection of high-efficiency catalysts can promote the reaction rate to increase, such as a certain type of catalyst, which can improve the reaction selectivity under mild conditions and make the product more pure. After these steps, the target product Sodium 3 - [ (3,5 - Dimethoxyphenyl) (Ethyl) Amino] - 2 - Hydroxypropane - 1 - Sulfonate can be obtained.

Chemical Reactions & Modifications

Guanfu Sodium 3- [ (3,5-Dimethoxyphenyl) (Ethyl) Amino] -2-Hydroxypropane-1-Sulfonate the chemical and reverse modification of this substance, which is also the key to chemical research. Its reaction, molecular weight, atomic or radical interaction, or, or, or into a new substance.
To modify, to seek the good of chemical properties. Or its activity, so that it can be reversed under a specific component; or increase its performance, to meet the needs of different environments. Such as skillful craftsmanship and careful application, so that this compound has better properties.
In the study, it is necessary to observe the influence of the reverse component, the degree, force, and catalytic factors, all of which affect the trend of chemical reaction. The method of modification is also carefully modified, and the chemical properties are reduced during the development period, which is effective in multiple domains.

Synonyms & Product Names

Today, there is a thing called Sodium 3- [ (3,5-Dimethoxyphenyl) (Ethyl) Amino] -2-Hydroxypropane-1-Sulfonate. This thing is in the industry, and there are many aliases and trade names.
Because of the chemistry, it is called and distinguished, and it is often called by aliases. Its aliases are either based on the characteristics of its composition and structure, or according to the characteristics of its use and efficacy. If the product name is used, the merchant will recognize the uniqueness of its product and attract the favor of customers.
However, regardless of the alias or trade name, it is inseparable from its chemical essence. This Sodium 3- [ (3,5-Dimethoxyphenyl) (Ethyl) Amino] -2-Hydroxypropane-1-Sulfonate, although the names are different, they actually refer to the same thing. For our chemical researchers, it is clear that the same thing has different names, so we can accurately recognize it without the risk of misuse, which is beneficial to research and production.

Safety & Operational Standards

"Sodium 3 - [ (3,5 - Dimethoxyphenyl) (Ethyl) Amino] - 2 - Hydroxypropane - 1 - Sulfonate Safety and Operation Specifications"
F Sodium 3 - [ (3,5 - Dimethoxyphenyl) (Ethyl) Amino] - 2 - Hydroxypropane - 1 - Sulfonate is a chemical product we have been working on. Regarding its safety and operation standards, it is a top priority and should not be ignored.
In terms of safety, this substance should be stored in a cool, dry and well-ventilated place, away from fire and heat sources. It may change unexpectedly due to heat or open flame. When coming into contact, be sure to wear suitable protective equipment, such as gloves, goggles, etc. If you accidentally touch the skin, rinse with plenty of water immediately; if it enters the eyes, rinse with flowing water or normal saline immediately, and seek medical attention in time.
As for the operation specifications, experiments or production, when strictly following the established procedures. When weighing, strive to be accurate, and do not make a slight mistake. The mixing process needs to be carried out slowly, and the reaction situation should be closely monitored to prevent overreaction. The reaction equipment also needs to be regularly checked and maintained to ensure its performance is stable and there is no risk of leakage.
In conclusion, the safety and operation specifications of Sodium 3 - [ (3,5 - Dimethoxyphenyl) (Ethyl) Amino] - 2 - Hydroxypropane - 1 - Sulfonate are the key to ensuring the safety of personnel and ensuring the quality of products. We should keep it in mind and take it seriously.

Application Area

Today there is a product named Sodium 3- [ (3,5-Dimethoxyphenyl) (Ethyl) Amino] -2-Hydroxypropane-1-Sulfonate. This product is used in the field of medicine and may be used for disease treatment. With its unique chemical conformation, it may interact with biomolecules in the body to regulate physiological functions and help relieve diseases.
In biochemical research, it is also important. It can be used as a probe to understand the mechanism of biochemical reactions in organisms, clarify the mysteries of life processes, and help researchers explore the unknown.
In addition, in the field of materials science, it may be able to improve the properties of materials. With its characteristics, the stability and solubility of materials can be optimized, providing opportunities for the creation of new materials. All of these are fields of application, which are really promising.

Research & Development

In recent years, Yu devoted himself to the study of Sodium 3- [ (3,5 - Dimethoxyphenyl) (Ethyl) Amino] - 2 - Hydroxypropane - 1 - Sulfonate. At first, observe its properties, analyze its structure, and explore its physicochemical properties. In the laboratory, with various subtle methods, observe its reaction state and seek its law of change.
During the period, I encountered many difficulties. The purity of raw materials and the control of conditions are all important matters. If there is a slight mistake, the result will be wrong. However, my generation has been unremitting, tried again and again, recorded data in detail, and investigated its causes in detail.
After long-term research, its nature has gradually become clear. This substance has unique performance under specific conditions, and may be able to develop its strengths in the fields of medicine and chemical industry. Although there are gains now, the road ahead is still far away. We should continue to be diligent and hope to expand its use, promote the progress of research and development of this substance, and add new colors to the industry and benefit the world.

Toxicity Research

There is a substance called Sodium 3- [ (3,5 - Dimethoxyphenyl) (Ethyl) Amino] - 2 - Hydroxypropane - 1 - Sulfonate. I am a chemical researcher, focusing on its toxicity research.
This substance also requires detailed investigation of its appearance and physicochemical properties. In experiments, various creatures are used as samples to observe their reactions after ingestion and exposure. It may affect the physiological functions of organisms, or cause organ damage or abnormal behavior.
The way of toxicity research is about accurate measurement and meticulous recording. Examine the effects at different doses and explore its toxicity threshold. It also takes into account the influence of environmental factors, and strives to understand the potential harm of this substance in natural and biological systems, so as to provide prudent consideration for the world when using this substance, so as to avoid its harm and pursue its benefits.

Future Prospects

I think this Sodium 3- [ (3,5 -dimethoxyphenyl) (ethyl) amino] -2 -hydroxypropane-1 -sulfonate has extraordinary potential. The future development is still to be looked forward to. In the field of medicine, it may be a cure for diseases, with its unique structure, or it can accurately act on lesions and help patients recover. In industry, it may also be an important agent to improve product performance, such as optimizing the characteristics of certain materials. When scientific research is advanced and technology is new, it will be able to explore more wonders. With time, it may lead to changes in related fields, add luster to human well-being, and the future is bright, which makes people look forward to its emergence and brilliance.

Where to Buy Sodium 3-[(3,5-Dimethoxyphenyl)(Ethyl)Amino]-2-Hydroxypropane-1-Sulfonate in China?

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Frequently Asked Questions

As a leading Sodium 3-[(3,5-Dimethoxyphenyl)(Ethyl)Amino]-2-Hydroxypropane-1-Sulfonate 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 Sodium 3- [ (3,5-Dimethoxyphenyl) (Ethyl) Amino] -2-Hydroxypropane-1-Sulfonate

Sodium-3- [ (3,5-dimethoxyphenyl) (ethyl) amino] -2-hydroxypropane-1-sulfonate has a wide range of uses. In the field of medicine, it can be used as a carrier of active pharmaceutical ingredients to help drugs reach their targets efficiently and improve their efficacy. Because of its good solubility and stability, it can ensure the smooth release of drugs in the body, reduce adverse reactions, and contribute greatly to the development of new drugs and improved drug delivery systems.
In the chemical industry, it is often used as a raw material for surfactants. With its unique molecular structure, surfactants have excellent emulsification, dispersion and solubilization properties. In detergents, cosmetics and other products, it can enhance the effectiveness of decontamination, foaming, and foam stabilization, and improve product quality and use experience.
In biochemical research, it also plays an important role. It can be used for the separation and purification of biological macromolecules such as proteins and nucleic acids, and by virtue of its interaction with biomolecules, it can achieve selective enrichment and separation of specific biomolecules, providing assistance for in-depth research on the structure and function of biomolecules.
In addition, in some industrial production process catalytic systems, or as an auxiliary agent, it can adjust the reaction conditions, promote the reaction, improve the reaction efficiency and product purity, and has a non-negligible role in many fields.

What is the safety of Sodium 3- [ (3,5-Dimethoxyphenyl) (Ethyl) Amino] -2-Hydroxypropane-1-Sulfonate

Fu3 - [ (3,5 - dimethoxyphenyl) (ethyl) amino] - 2 - hydroxypropane - 1 - sodium sulfonate, its safety considerations are quite complicated. The structure of this substance contains specific organic groups, and its reaction characteristics are different in different environments.
It can be used in industrial applications, in specific processes, or due to contact with other chemicals, causing unknown chemical reactions. If the reaction is out of control, or harmful by-products are generated, endangering the health of operators, and causing pollution to the surrounding environment.
In living organisms, the metabolic pathway of this substance is unknown. After it enters the organism, it may be difficult to degrade and accumulate in the tissues and organs of the body, interfering with normal physiological functions. For example, it may affect the metabolic process of cells, hinder the activity of key enzymes, and cause cell dysfunction.
Discussing its impact on the environment, once it flows into natural water bodies, or changes the chemical properties of water bodies, it will affect the living environment of aquatic organisms. Aquatic organisms may change their physiological habits or even die due to it, destroying the ecological balance.
However, if its production, use and discharge are strictly controlled, follow standardized operating procedures, and strengthen monitoring, it may reduce its latent risk to a certain extent and ensure the safety of personnel and the environment. However, its safety still needs to be continuously studied in depth to fully understand its potential harm.

What is the production process of Sodium 3- [ (3,5-Dimethoxyphenyl) (Ethyl) Amino] -2-Hydroxypropane-1-Sulfonate

To prepare Sodium + 3- [ (3,5-dimethoxyphenyl) (ethyl) amino] -2-hydroxypropane-1-sulfonate sodium, the preparation method is as follows:
First take an appropriate amount of (3,5-dimethoxyphenyl) (ethyl) amine and place it in a clean reactor. Under suitable temperature and stirring conditions, slowly add a certain amount of epichlorohydrin, and the two undergo nucleophilic substitution reaction. The epoxy structure of epichlorohydrin is active, and the nitrogen atom of (3,5-dimethoxyphenyl) (ethyl) amine attacks the epoxy ring, opening the ring to form an intermediate product containing hydroxyl and chlorine atoms.
After the above reaction is basically completed, the reaction system is cooled down and the sodium sulfite solution is added dropwise. The sulfite ion reacts with the chlorine atom of the intermediate product, and the chlorine atom is replaced by the sulfonate to generate 3- [ (3,5-dimethoxyphenyl) (ethyl) amino] -2-hydroxypropane-1-sodium sulfonate.
Subsequently, an appropriate amount of sodium hydroxide solution is added to the reaction system to adjust the pH of the system to the alkaline range. At this time, the sulfonic acid forms a sodium salt, that is, the target product Sodium + 3- [ (3,5-dimethoxyphenyl) (ethyl) amino] -2-hydroxypropane-1-sodium sulfonate.
The whole reaction process needs to be closely monitored for temperature, pH and other conditions to ensure the smooth progress of the reaction and the purity of the product. After the reaction is completed, after cooling, filtering, washing, drying and other post-processing steps, a pure Sodium + 3- [ (3,5-dimethoxyphenyl) (ethyl) amino] -2-hydroxypropane-1-sulfonate finished product can be obtained.

What is the market price of Sodium 3- [ (3,5-Dimethoxyphenyl) (Ethyl) Amino] -2-Hydroxypropane-1-Sulfonate

I cannot tell you the market price of Sodium+3-%5B%283%2C5-Dimethoxyphenyl%29%28Ethyl%29Amino%5D-2-Hydroxypropane-1-Sulfonate directly. The price of this compound often changes due to various factors, which cannot be hidden.
First, the purity of this compound has a great impact on the price. If the purity is extremely high, almost perfect, suitable for high-end scientific research, pharmaceutical research and development and other precise fields, the price will be high; on the contrary, if the purity is slightly lower, it will be slightly cheaper for general industrial use.
Second, the balance between supply and demand is also critical. If the market demand for this substance is strong and the supply is limited, if there is a large demand for a new drug research and development, the supply will exceed the demand, and the price will rise; if the supply exceeds the demand, the manufacturer will sell its goods or reduce the price.
Third, the cost of production also affects the price. The price of raw materials, the difficulty of production process, labor cost, etc., are all cost factors. Raw materials are scarce and difficult to find, or the production process is complicated, the cost increases greatly, and the price also rises.
Fourth, different suppliers have different pricing due to their own considerations. Well-known large factories focus on quality and after-sales, and the price may be high; small factories compete for the market, or have low-price strategies.
To know the exact price of this product, you can go to the chemical product trading platform to check in detail, or consult the chemical raw material suppliers, who can tell you the correct price according to the current market.

What are the advantages of Sodium 3- [ (3,5-Dimethoxyphenyl) (Ethyl) Amino] -2-Hydroxypropane-1-Sulfonate compared to similar products

Sodium + 3- [ (3,5 - Dimethoxyphenyl) (Ethyl) Amino] - 2 - Hydroxypropane - 1 - Sulfonate (hereinafter referred to as the substance) has the following advantages over congeneric products.
Its unique structure is composed of specific groups. 3,5 - Dimethoxyphenyl imparts a certain lipid solubility and steric resistance, which can enhance the ability to bind to specific targets, just like the key teeth precisely embedded in the lock cylinder, enhancing the specificity of the action. The presence of ethyl groups regulates the hydrophobicity of molecules and helps their diffusion and distribution in lipid environments such as biofilms, just like opening a smooth channel for molecules in complex biological environments. The sulfonic acid group provides good water solubility, enabling it to exist and function stably in the aqueous environment, just like a ship needs good floatation performance for sailing in water.
This substance performs well in performance. In some application scenarios, it has higher activity. For example, in some chemical reaction catalysis systems, it can more efficiently promote the reaction, shorten the reaction time, and increase the yield. It is like injecting strong power into the chemical reaction and speeding up the process. In terms of biological activity, it may have a higher affinity for specific receptors or enzymes, thus exhibiting more significant physiological regulation. In terms of stability, because of its unique structure, it can resist a certain degree of external environmental changes, such as temperature, pH fluctuations, etc., like a solid fortress, it is not easy to deteriorate due to external interference, and can ensure the quality of the product during storage and use. In terms of safety, it has been verified by research that it may have low toxicity and side effects, laying the foundation for its application in fields with strict safety requirements such as medicine and food, just like wearing safety protective clothing for users to reduce latent risk.