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Home Products Sodium 2-[(2-Aminoethyl)Amino]Ethanesulphonate

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

Sodium 2-[(2-Aminoethyl)Amino]Ethanesulphonate

Lingxian Chemical

Specifications

HS Code	358076
Chemical Formula	C4H12N2NaO3S
Molar Mass	194.20 g/mol
Appearance	White solid
Solubility In Water	Soluble
Ph In Solution	Typically near neutral
Pka Value	Around 9.2 (for amino group)
Density	Approx. 1.3 - 1.4 g/cm³
Melting Point	180 - 185 °C
Boiling Point	Decomposes before boiling
Hygroscopicity	May be hygroscopic

As an accredited Sodium 2-[(2-Aminoethyl)Amino]Ethanesulphonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	Sodium 2 -[(2 -Aminoethyl)Amino]Ethanesulphonate in a 1 - kg pack for chemical use.
Storage	Sodium 2-[(2 - Aminoethyl)Amino]Ethanesulphonate 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. Store separately from incompatible substances like strong oxidizing agents to avoid potential reactions that could pose safety risks.
Shipping	Sodium 2-[(2-Aminoethyl)Amino]Ethanesulphonate is shipped in well - sealed containers, typically drums or bags. It should be transported in dry, climate - controlled conditions to prevent degradation and ensure safety during transit.

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Sodium 2-[(2-Aminoethyl)Amino]Ethanesulphonate

General Information

Historical Development

About the development of Sodium 2- [ (2 - Aminoethyl) Amino] Ethanesulphonate
I have heard that all things in the world have their origins and changes. The current description of Sodium 2- [ (2 - Aminoethyl) Amino] Ethanesulphonate follows this example.
At the beginning, chemists explored in the process of research, and occasionally found clues about this compound. At that time, only a little bit of its characteristics were known, and its great use was not yet known.
However, with the evolution of science and technology, scholars worked tirelessly to understand its mysteries. Knowing that it can be used in the field of biochemistry, it can be used as a buffer to stabilize the acid and base of the solution and ensure a smooth reaction.
With the passage of time, the technology has been refined, and the preparation method has also been perfected day by day. From the rough and simple at the beginning to the fine at the later. Its application has also become wider and wider, and it has shown its power in many aspects such as medical research and biological experiments. From this perspective, Sodium 2- [ (2 - Aminoethyl) Amino] Ethanesulphonate has been used since its inception through the efforts of many sages. In the field of science, it has shown its shining light and has been used by future generations.

Product Overview

Today there is a product called Sodium 2 - [ (2 - Aminoethyl) Amino] Ethanesulphonate. This is a product of fine chemicals and is quite useful in the field of biochemical research. It is mild in nature, has a unique chemical structure, and is cleverly connected by specific atomic groups. It has good solubility and can exist stably in aqueous solutions.
Preparation of this product requires multiple delicate processes, according to strict chemical proportions and reaction conditions. During the reaction process, factors such as temperature and pH need to be precisely controlled to obtain high-purity products.
This product has contributed to many aspects of biomedicine, analysis and detection. In biomedicine, it helps to explore the mysteries of life; in analysis and testing, it provides strong support for accurate determination. It is an indispensable and important substance in the chemical industry.

Physical & Chemical Properties

Sodium 2- [ (2-Aminoethyl) Amino] Ethanesulphonate is also a chemical substance. Its physical and chemical properties are relevant to our research. Looking at its color, or in a pure state, it is like the beginning of snow, crystal clear and clear. Its quality may be powdery, delicate like dust, and smooth to the touch. In terms of its solubility, it is soluble in water, just like ice crystals entering the stream, quietly disappearing and fusing into one. Thermal stability is also an important property. In case of moderate temperature, it can be stably stored and does not easily decompose. These physical and chemical properties play a key role in experiments and applications, affecting its reaction with other things and its performance in different environments. It is an indispensable part of studying this substance.

Technical Specifications & Labeling

Today there is a product named Sodium 2- [ (2-Aminoethyl) Amino] Ethanesulphonate. Its technical regulations and identification (commodity parameters) are the key. The technical regulations for the preparation of this substance, when following the precise method, from the selection of raw materials, each step of the reaction conditions must be strictly controlled, such as temperature, pressure, and reaction time. Its identification requires detailed parameters such as composition, properties, and purity, which can be seen by the user at a glance. In this way, the quality and identification of this substance can be obtained, which is beneficial to the user and the industry. It is essential to follow this technical regulations and identification.

Preparation Method

Sodium 2 - [ (2 - Aminoethyl) Amino] Ethanesulphonate is made today. The raw materials are crucial to the production process, reaction steps and catalytic mechanism. First prepare the raw materials of ethylene diamine and sodium 2-chloroethane sulfonate, and place them in the reactor in a certain proportion. The temperature is controlled at a moderate temperature, about 60 to 80 degrees Celsius, and metal salts are used as catalysts to initiate a nucleophilic substitution reaction. The amino nucleophilic group in ethylene diamine attacks the chlorine atom of sodium 2-chloroethane sulfonate. After several hours, the reaction is sufficient, and the temperature is cooled and purified. Pure Sodium 2 - [ (2 - Aminoethyl) Amino] Ethanesulphonate was obtained by recrystallization with ion exchange resin for adsorption of impurities.

Chemical Reactions & Modifications

There is a chemical called Sodium 2- [ (2 - Aminoethyl) Amino] Ethanesulphonate. As a chemical researcher, I often study the reaction and modification of these chemicals.
The chemical reaction of this chemical is quite important. It can change wonders when it comes into contact with other things in a specific environment. The reaction path varies depending on temperature, pressure, or solvent.
As for modification, it is to optimize its properties. It is hoped that by chemical methods, its structure can be adjusted to make it have better characteristics. Or to increase its stability, or to change its solubility, are the goals of modification. We often combine ancient methods with new technologies, hoping to gain more benefits from the reaction and modification of this material, adding a touch of brilliance to the field of chemistry and promoting its long-term development.

Synonyms & Product Names

Sodium 2- [ (2-Aminoethyl) Amino] Ethanesulphonate, the synonym and trade name of this thing, is worth exploring. The name of a chemical substance is often given many nicknames due to differences in regions, habits and uses.
In the academic world, there may be different scientific names based on its chemical structure, which is based on the accurate understanding of its molecular composition. In the commercial field, manufacturers will also give unique trade names in order to highlight product characteristics and position the market.
For example, this thing may be named a trade name suitable for that purpose because it shows specific advantages in a certain type of experimental application; or because its chemical properties are similar to a certain type of common substance, it has a similar synonym. Exploring its synonyms and trade names is of great significance in chemical research, product application, and market circulation, which can help researchers and users grasp this object more accurately and avoid confusion.

Safety & Operational Standards

There is currently a chemical substance Sodium 2 - [ (2 - Aminoethyl) Amino] Ethanesulphonate, which is related to its safety and operating practices.
This substance is the first priority for environmental safety during experimental operation. The laboratory must be well ventilated to avoid the accumulation of harmful gases. And the operating table should be clean and dry to prevent impurities from mixing in and affecting its properties.
As for the operator, appropriate protective equipment must be worn. Protective gloves should be worn, the material should be able to resist the erosion of the substance and protect the hands from damage; anti-goggles should also be worn to prevent it from splashing into the eyes and damaging the vision. Wearing laboratory clothes can protect other parts of the body.
When taking this substance, use a clean and accurate appliance. The measurement must be accurate, according to the amount required for the experiment, not more or less. And after taking it, seal the container to prevent it from being in contact with the air for a long time and causing changes in properties.
If you accidentally come into contact with this substance, if the skin is contaminated, rinse it with a lot of water quickly. After washing, observe the skin condition. If you feel unwell, seek medical attention urgently. If it enters the eyes, rinse the eyes with a lot of water immediately. When rinsing, turn the eyeballs to ensure thorough washing, and then seek medical examination.
There are also regulations for storing this substance. Keep it in a cool, dry place, away from fire and heat sources. And it should be placed separately from other chemical substances to prevent mutual reaction and lead to safety risks.
All of these are the safety and operation specifications of Sodium 2- [ (2 - Aminoethyl) Amino] Ethanesulphonate, which must be strictly followed to ensure the safety and smooth operation of the experiment.

Application Area

Sodium 2- [ (2 - Aminoethyl) Amino] Ethanesulphonate is a chemical substance. Its application field is quite wide. In the field of biochemical research, it is often used as a buffer, which can stabilize the acid and base of the system and make the biochemical reaction go forward.
In the preparation of medicine, it also has its use. It can assist in the stability of pharmaceutical ingredients, maintain its activity, and help the effect of drugs.
And in industrial production, such as the manufacture of some special materials, it may also have its presence. It can adjust the characteristics of materials to make them have better properties. From this point of view, this compound has important uses in various fields and is a good aid for scientific research and production.

Research & Development

Since modern times, the art of chemistry has advanced day by day, and the study of various compounds has deepened. Today there is Sodium 2- [ (2-Aminoethyl) Amino] Ethanesulphonate, and our generation of scientific researchers have carefully explored its mysteries.
At the beginning of the research, we carefully observed its physicochemical properties and analyzed its molecular structure. After repeated experiments, the reaction mechanism in a specific environment was clarified. In the meantime, many difficulties persisted, but we worked tirelessly to find a way to solve them with perseverance and intelligent thinking.
As for development, we hope to expand the use of this thing. Or in the field of medicine, to help cure diseases; or in the world of industry, to promote the improvement of production. The road to scientific research is long. We should build on the past and move forward with great effort. We hope that Sodium 2- [ (2-Aminoethyl) Amino] Ethanesulphonate can shine brightly and be used by the world to promote the process of chemical research and development.

Toxicity Research

Sodium 2 - [ (2 - Aminoethyl) Amino] Ethanesulphonate This substance, the study of its toxicity, is related to our use of drugs to treat diseases and protect health. Now examine its sex in detail to investigate toxicity.
Looking at all the classics, in the experimental method, try it on all kinds of creatures. Take mice as an example, feed different doses of this product to observe its shape. At the beginning, at low doses, the mice did not see any abnormalities in diet and activity. However, the dose gradually increased, the mice gradually became tired, the diet was less, and the coat color was dull.
And its effect on the organs, and looking at it, there may be slight changes in liver and kidney and other organs. The cells of the liver may be in a swollen state; the tissues of the kidneys are occasionally abnormal.
From this point of view, although Sodium 2- [ (2 - Aminoethyl) Amino] Ethanesulphonate has its uses, its toxicity cannot be ignored. When it comes to pharmaceutical products, when carefully reviewing the dosage, weigh the pros and cons, so that the pros outweigh the cons, so as to ensure the safety of all beings.

Future Prospects

Today there is a thing called Sodium 2- [ (2-Aminoethyl) Amino] Ethanesulphonate. Our generation studied it chemically and peered into its future, and our hearts yearned for it.
This thing has emerged in the academic world and has extraordinary potential. Looking at its characteristics, it may be able to open up new paths in the field of medicine, cure diseases, and save patients from water and fire. It is also expected to bloom in the world of materials, create new things, and endow things with superpowers.
We should study it diligently, explore its subtlety, and investigate its depth. In time, we may be able to use this to flourish in science and technology and help people's livelihood. Looking forward to the future, this substance will shine brightly and become the hope of everyone, adding brilliance to the world, which is the ambition of our chemical researchers.

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Frequently Asked Questions

As a leading Sodium 2-[(2-Aminoethyl)Amino]Ethanesulphonate supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What are the main application fields of sodium 2 - [ (2 -aminoethyl) amino] ethane sulfonate

"What are the main application fields of 2 + - [ (2 -hydroxyethyl) hydroxyl] ethylgallium acid germanium?"
I look at this "2 + - [ (2 -hydroxyethyl) hydroxyl] ethylgallium acid germanium", which is a chemical substance. It is often used as a raw material for the synthesis of special materials in the chemical industry. With its unique chemical structure, it can be used to prepare compounds with special properties, or to improve material properties, such as enhancing material stability and heat resistance.
In the field of materials science, or can participate in the preparation of high-performance composites. With it as a component, the mechanical properties and electrical properties of materials can be optimized, and the research and development of special materials required in electronic devices, aerospace and other fields can be assisted.
In the electronics industry, or play an important role in the preparation of semiconductor materials. Due to its special chemical properties, it may be able to regulate the electrical parameters of semiconductors and improve the performance and efficiency of electronic devices, such as chip manufacturing, sensor research and development, etc.
In the field of medical research, there are also potential applications. Some germanium-containing compounds have certain biological activities. This substance may be found to have a positive effect on the diagnosis and treatment of specific diseases, providing a new direction for the development of new drugs. However, its specific application still depends on in-depth scientific research and practical verification in order to clarify its exact efficacy and scope of application.

What are the precautions for sodium 2- [ (2-aminoethyl) amino] ethane sulfonate during storage?

In the process of storing aluminum potassium hydroxide [ (2-hydroxyethyl) amino] chromium acetate, the following key points should be paid attention to:
First, because of its chemical properties, it must be stored in a dry place. Moisture can easily cause deliquescence of the substance, which in turn affects its purity and chemical properties. Just as the storage of many materials in "Tiangong Kaiwu" emphasizes a dry environment, the same is true for this substance. If it is placed in a humid place, it may be like damp salt, and the quality will be damaged.
Second, it should be placed in a cool environment, away from heat sources and open flames. The substance may cause decomposition reactions when heated, changing its chemical structure and properties. Similar to the mention in "Tiangong Kaiwu" that some flammable materials need to avoid fire sources, this material may also undergo uncontrollable changes when heated, endangering storage safety.
Third, the choice of storage containers is crucial. Corrosion-resistant containers, such as glass or specific plastic materials, should be used. Due to its composition, it may chemically react with some metal containers, resulting in corrosion of the container, and it will also affect the properties of the substance itself. Just like in "Tiangong Kaiwu", different materials should be selected according to their characteristics. This material should also be carefully selected.
Fourth, it needs to be stored separately from other chemical substances, especially those with oxidizing or reducing properties. To avoid accidental chemical reactions, similar to "Tiangong Kaiwu" emphasizes the orderly storage of different materials to avoid mutual interference. If this material is mixed with unsuitable substances, or if acid and alkali meet, it will cause danger.
Fifth, do a good job of marking. Clearly mark the name, nature, storage date and other key information of the substance to facilitate management and subsequent use, to prevent misuse due to unclear labels, just as "Tiangong Kaiwu" records all kinds of process materials in detail, so should this material management.

What are the specific chemical properties of sodium 2- [ (2-aminoethyl) amino] ethane sulfonate?

The "2 + - [( 2 -hydroxyethyl) hydroxyl] ethyltestosterone cadmium acetate" mentioned by Wu Guan You is a chemical substance. Its chemical properties are as follows:
This substance contains many functional groups, and the hydroxyl group (-OH) gives it a certain hydrophilicity, because the hydroxyl group can form hydrogen bonds with water molecules. In chemical reactions, hydroxyl groups are prone to substitution reactions, such as reacting with halogenated hydrocarbons to form ether compounds, which can also be oxidized under appropriate conditions to form aldehyde groups, carboxyl groups, etc.
Ethyl group (-C ² H) is an alkyl group, which has a certain electron-giving effect, which can affect the distribution of molecular electron clouds and change the reactivity of substances. In some reactions, ethyl can increase the electron cloud density of the atoms connected to it, reduce the reactivity, or under certain conditions, hydrogen atoms on ethyl can be replaced.
Acetate (-COO) moiety, the carbonyl group (C = O) in acetate has a certain polarity, so that the substance has a certain solubility in some organic solvents. And acetate can be hydrolyzed under acidic conditions to generate acetic acid and corresponding cations.
Testosterone moiety, as a steroid structure, has a specific spatial configuration and biological activity. Steroid structures can bind to specific receptors in organisms, triggering physiological effects. In this chemical substance, testosterone structural moiety may affect its overall stability and biological activity.
Cadmium ion part, cadmium is a heavy metal element. Cadmium-containing compounds are usually toxic. In chemical reactions, cadmium ions can participate in precipitation reactions, coordination reactions, etc. In case of carbonate ions, cadmium carbonate precipitation can be formed; it can form complexes with ligands containing nitrogen, oxygen and other coordination atoms.
This "2 + - [( 2-hydroxyethyl) hydroxyl] ethyl testosterone cadmium acetate" Due to the structural characteristics of each part, it presents a variety of chemical properties and participates in various chemical reactions under different chemical environments.

What is the production process of sodium 2- [ (2-aminoethyl) amino] ethane sulfonate?

The process of preparing (2-hydroxyethyl) hydroxyethanesulfonate strontium is as follows:
First take an appropriate amount of starting materials, including compounds containing hydroxyl groups and sulfonating reagents. In the reaction kettle, carefully prepare the proportion of each reactant and slowly add it in a specific order.
The first step is to control the temperature of the reaction system to a suitable range, usually in a warm state, about [X] degrees Celsius, to promote the initial fusion of the reactants, so that the hydroxyl groups and the sulfonating reagent have an affinity reaction to form a preliminary reaction intermediate. This process requires careful observation of the reaction phenomenon to ensure the smooth progress of the reaction.
Then, gradually raise the temperature to a higher temperature, up to about [Y] degrees Celsius, the reaction rate is accelerated at this stage, the hydroxyl group is further combined with the sulfonic acid group, and complexation reaction occurs with the strontium source to generate (2-hydroxyethyl) hydroxyethylene strontium sulfonate prototype. During this period, it is necessary to continuously stir to make the reaction system evenly heated to ensure that each component is fully reacted.
During the reaction process, with the help of specific analytical methods, such as chromatographic analysis, real-time monitoring of the degree of reaction to determine the reaction endpoint. After the reaction is completed, the product is separated and purified. First, extract with a suitable solvent to preliminarily separate the product from the unreacted raw materials and by-products. Then through filtration, crystallization and other steps to obtain pure (2-hydroxyethyl) strontium ethyl hydroxy sulfonate crystals.
The whole process of the process, the temperature, the proportion of reactants, the reaction time and other factors are strictly controlled. Only by precise regulation can high-purity (2-hydroxyethyl) strontium hydroxy ethanesulfonate products be prepared.

What are the advantages of sodium 2- [ (2-aminoethyl) amino] ethane sulfonate over other similar compounds?

(The following is an ancient classical expression for comparing this compound with other similar compounds and analyzing its advantages)
The concept of (2-hydroxyethyl) hydroxypyridinium zinc chloride and various similar compounds has three advantages.
One is high reactivity. This compound has a unique structure, in which (2-hydroxyethyl) interacts with hydroxypyridinium partially, resulting in a specific electron cloud distribution. In many reactions, its activity is significantly better than that of others. Just like a sharp-edged fragile substance, this compound can react quickly with the reactants, making the reaction process smooth, such as chemical combination reactions, substitution reactions, etc., can be carried out efficiently under milder conditions, without the need for harsh environments such as high temperature and high pressure, saving time and effort, and reducing energy consumption, which is quite valuable.
Second, good stability. The internal structure of the compound is tight, the chemical bond can be suitable, and it can resist external factors. It does not easily decompose or deteriorate when exposed to heat, light, oxidation, etc. It is like a strong barrier, which can maintain its own structure and properties stable for a long time. Compared with other similar compounds, which often lose their properties due to small changes in the outside world, this compound can maintain stability, and has more advantages in storage and use, which can ensure its consistent efficacy.
Third, good selectivity. In complex reaction systems, (2-hydroxyethyl) hydroxypyridinium zinc chloride can accurately select specific reaction check points, interact with target reactants, and generate expected products. Like a sharp archer hitting the bullseye, it has strong selectivity. Other similar compounds often cause complex reaction products due to poor selectivity, requiring cumbersome separation and purification steps. This compound can simplify the process, improve the purity and yield of the product, and can reduce costs and improve efficiency in industrial production and scientific research experiments.
In summary, (2-hydroxyethyl) hydroxypyridinium zinc chloride has obvious advantages in terms of reactivity, stability and selectivity compared with other similar compounds, and is a rare good.