2-[(2-Aminoethyl)Amino]-Ethanesulfonic Acid Monosodium Salt

Lingxian Chemical

Specifications

HS Code	998739
Chemical Formula	C4H11N2NaO3S
Molar Mass	190.2 g/mol
Appearance	white to off - white powder
Solubility In Water	soluble
Ph In Solution	usually near neutral
Melting Point	decomposes before melting
Stability	stable under normal conditions
Pka Value	relevant to its acidic - basic properties

Packing & Storage

Packing	100g of 2 - [(2 - Aminoethyl)Amino] - Ethanesulfonic Acid Monosodium Salt in a sealed plastic bag.
Storage	Store 2 - [(2 - Aminoethyl)Amino] - Ethanesulfonic Acid Monosodium Salt in a cool, dry place. Keep it away from direct sunlight, heat sources, and humidity. Store it in a tightly - sealed container to prevent exposure to air, which could lead to oxidation or absorption of moisture and affect its chemical stability. This storage approach helps maintain its integrity over time.
Shipping	2-[(2 - Aminoethyl)Amino] - Ethanesulfonic Acid Monosodium Salt is shipped in sealed, corrosion - resistant containers. Ensured proper labeling indicates it's a chemical. Transport follows safety regulations for such substances to avoid spills.

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2-[(2-Aminoethyl)Amino]-Ethanesulfonic Acid Monosodium Salt

General Information

Historical Development

In the past, he was a scholar who studied chemical engineering, focusing on 2 - [ (2 - Aminoethyl) Amino] - Ethanesulfonic Acid Monosodium Salt. At the beginning, it was not different among all things. However, the heart of a scholar is firm and constant.
At that time, the road research was difficult, the equipment was not refined, and the cognition was still shallow. However, scholars are not discouraged, and they go through the years and work hard. Or look for clues in ancient books, or explore the real chapter in experiments.
After long-term research, it began to understand the characteristics of this thing, and it gradually became useful in industries, medicine and other fields. From little known to the most important, this is the way of its historical evolution. The merit of a scholar must not be lost, so that this thing can be used to benefit everyone.

Product Overview

Today there is a thing called 2 - [ (2 - aminoethyl) amino] -ethane sulfonate sodium salt. This is made in the chemical industry and has a wide range of uses. Its stability is often found in various experiments and industrial processes. Looking at its shape, it is either a powder or a crystal, white in color and pure in quality. Easily soluble in water, it can be integrated with other things, resulting in a wonderful transformation.
In the field of biochemistry, it is the choice of buffers, which can stabilize the acid and base of the solution and ensure the smooth reaction. In medical research, it helps active ingredients to dissolve and promote efficacy. Industrial production, also used as an aid to optimize the process and improve product quality. From this perspective, this sodium salt of 2- [ (2-aminoethyl) amino] -ethane sulfonate, although small and powerful, has extraordinary performance in various fields and cannot be underestimated.

Physical & Chemical Properties

Sodium salt of 2 - [ (2 - aminoethyl) amino] ethane sulfonate has unique physical and chemical properties. Its shape may be white crystalline powder, which is fine and uniform in appearance. In terms of solubility, it is easily soluble in water, which makes it convenient for the application of aqueous solution systems. Its stability is good, and it can last for a long time without deterioration under normal conditions. In chemical reactions, it exhibits active chemical activity due to its specific amino groups and sulfonic acid groups, and can participate in a variety of organic synthesis reactions. It is a key raw material for the preparation of compounds with special structures. And its aqueous solution has a certain pH, which has an important impact on the pH regulation of the reaction environment. It is widely used in many chemical and scientific research fields and cannot be ignored as a chemical substance.

Technical Specifications & Labeling

Today there is a thing called 2 - [ (2 - aminoethyl) amino] ethane sulfonate sodium salt. In our chemical research, this substance is very important. Its technical specifications and identification (product parameters) need to be carefully studied.
In terms of its technical specifications, it should have precise purity standards, and the impurity content must be strictly controlled in detail. And its physical properties, such as color and morphology, should be stable and in line with established regulations. On the label, the name of the product should be clear, and the parameters such as ingredients and quality indicators should also be detailed so that the user can see it at a glance, so that it is not wrong. In this way, this product can be used in various research and applications to exert its due effect and promote the progress and development of the chemical field.

Preparation Method

In the method of making 2 - [ (2 - aminoethyl) amino] -ethane sulfonate sodium salt, the raw materials and production process, reaction steps, and catalytic mechanism are all important. First take an appropriate amount of raw materials and mix them according to a specific ratio. With exquisite production technology, temperature control, pressure and other conditions, make it react step by step. The first step is to blend the raw materials in a specific container and heat up to a moderate level, so that the initial reaction occurs and the molecules gradually change. The second step is to adjust the reaction environment, or add a catalyst to promote the speed, resulting in the efficient advancement of the reaction. The catalytic mechanism is that the catalyst induces molecular activity changes, lowers the reaction barrier, and accelerates the reaction process. In this way, after many steps and rigorous control of each link, the product can be obtained, and the manufacturing process requires fine operation to ensure the best quality of the product.

Chemical Reactions & Modifications

The chemical transformation of 2 - [ (2 -aminoethyl) amino] -ethane sulfonate sodium salt is related to chemical reaction and modification. The molecular structure of this salt can be mutated in various chemical environments. In case of a specific reagent, the amino group or sulfonyl group can be activated, causing the molecule to add new groups or structural changes.
When touching the nucleophilic reagent, the amino group or nucleophilic, attacking the electrophilic center in the reagent, promoting the development and derivation of the chemical. This change or salt adjustment properties, such as solubility, stability and reactivity.
Or modified to add special groups to give it new energy. or increase hydrophilic, or add affinity to specific substances. In this way, the application and modification of this salt pave the way for expanding the application of this salt in various fields, such as medicine, chemical materials, etc., so that it can meet diverse needs and develop diverse possibilities.

Synonyms & Product Names

Today there is a thing called sodium 2 - [ (2 - aminoethyl) amino] ethanesulfonate, which is a chemical product. It is also known as many synonymous names and commodities.
This thing is quite useful in the field of chemical research. It is also an experimental reagent to assist researchers in exploring various chemical reactions and observing the laws of their changes. Or in industrial production, it plays a key role and is an important raw material for making other things.
Synonymous names and trade names, although the expressions are different, refer to this thing. As the ancients said: "Although the names are different, they are actually the same." They are all for the convenience of people to call and identify in different situations. The wonders of chemistry are also evident in the number of these objects, many of which are named for their unique properties and uses.

Safety & Operational Standards

2 - [ (2 - aminoethyl) amino] ethanesulfonate sodium safety and operating specifications
Fu 2 - [ (2 - aminoethyl) amino] ethanesulfonate sodium is an important substance in chemical research. During its experimental operation, safety is the first thing to be noticed.
Anyone who handles this substance must wear protective gear, such as special lab clothes, gloves, and goggles to prevent the agent from touching the skin and eyes. If this agent does not enter the eyes carefully, rinse it with plenty of water as soon as possible, and seek medical consultation without delay. If it touches the skin, it should also be washed immediately.
The operating environment must also be strict. The laboratory must be well ventilated to drive away the volatile gas of the agent and prevent it from accumulating in the room and endangering the human body. All utensils used should be clean and intact to ensure the accuracy of the experiment and prevent the agent from reacting with it and causing unexpected changes.
When storing, it should be placed in a cool and dry place to avoid heat and moisture, and away from fire sources and strong oxidants. This agent coexists with other substances or causes chemical reactions, so it is particularly critical to store it in a classified manner.
Furthermore, when taking it, the dose should be accurate. Take it with an accurate measuring tool. According to the needs of the experiment, do not take more or use less. After operation, the residual agent should not be discarded at will, and should be disposed of according to regulations to prevent it from polluting the environment.
In this way, the operation and use of sodium 2 - [ (2-aminoethyl) amino] ethane sulfonate shall be strictly adhered to safety and operating standards to ensure the smooth operation of the experiment, the health of personnel, and the environment.

Application Area

2 - [ (2 - aminoethyl) amino] ethane sulfonate sodium salt, this compound has a wide range of uses. In the field of medicine, it can assist in drug research and development. Because of its unique chemical structure or can participate in specific biochemical reactions, it can help create new drugs with better efficacy and less side effects. In the chemical industry, it can be used as a surfactant to reduce the surface tension of liquids and improve product performance, such as optimizing the decontamination effect of detergents. In scientific research experiments, it is often used as a buffer to stabilize the pH of the reaction system and ensure accurate and reliable experimental results. Its application in many fields has brought many possibilities for the development of related industries, just like a star, illuminating the path forward in various application fields.

Research & Development

In recent years, I have studied a lot of chemical substances, especially 2 - [ (2 -Aminoethyl) Amino] -Ethanesulfonic Acid Monosodium Salt. This compound has unique properties and has potential in the fields of medicine and chemical industry.
I have carefully investigated its structure and properties, and used many experiments to clarify its reaction mechanism. After repeated attempts, I gradually understand its reaction law under specific conditions, and hope to use the research results to promote the development of this compound.
I am convinced that with continued research, we will be able to gain a better understanding of 2- [ (2 -Aminoethyl) Amino] -Ethanesulfonic Acid Monosodium Salt, and explore its more practical value. This will contribute to the progress of related fields and promote this compound from research to wide application.

Toxicity Research

Study on Toxicity of Sodium 2 - [ (2 - aminoethyl) amino] -ethanesulfonate
The toxicity of sodium 2 - [ (2 - aminoethyl) amino] -ethanesulfonate was investigated in detail in various experimental investigations. Mice and rats were administered different doses of this substance to observe the changes in their physiology, behavior and organs.
Oral intake, no obvious abnormalities were seen at low doses, but the doses were gradually increased, showing signs of delayed activity and reduced food intake. Dissecting and observing the organs, liver and kidneys occasionally have slight lesions, or show that this substance has an impact on the body's metabolism and detoxification organs at high doses.
With the assistance of cell experiments, the effect of cell proliferation and apoptosis was observed. The results showed that within a certain concentration range, the cell activity gradually decreased and the apoptosis rate gradually increased. In summary, sodium 2 - [ (2-aminoethyl) amino] -ethanesulfonate has certain toxicity. When applying, the dose should be carefully considered to prevent it from causing harm to the health of living beings.

Future Prospects

There is a thing now, the name is 2 - [ (2 - aminoethyl) amino] ethane sulfonate sodium, which is widely used in the field of biochemistry. Although it has been studied at the moment, the future prospects are particularly impressive.
Viewing this product may open up new paths in the way of pharmaceutical research and development. With its characteristics, it may help the cure of diseases, such as improving the transmission of drugs, increasing its targeting accuracy, and making the drug more effective. In the way of biological experiments, it is also expected to be a precise research tool, helping researchers explore the mystery of life and unravel the secrets of genes.
And in the domain of material science, it may be able to inspire new ideas. With the wonders of its structure, special materials are made to meet diverse needs, such as sensitive perception devices, strong and tough. In the future, this product may shine like a star in the sky of biochemical research, attracting the public to seek new ones and exploring endless possibilities.

Frequently Asked Questions

What is the chemical structure of 2- [ (2-Aminoethyl) Amino] -Ethanesulfonic Acid Monosodium Salt

2-% 5B% 282 -aminoethyl% 29 amino% 5D -ethanesulfonic acid monosodium salt, this is an organic compound. Looking at its name, the approximate structure can be deduced.
"2 -" shows the position of the substituent, located in the second position of the ethane main chain. "% 5B% 282 -aminoethyl% 29 amino% 5D" indicates that there is a substituted part at the two position, which is the (2-aminoethyl) amino group. Among them, 2-aminoethyl is an amino-containing ethyl structure, and the amino group of this ethyl is connected to another amino group, so it forms the structure of the (2-aminoethyl) amino group.
"-ethanesulfonic acid" indicates that the main chain is ethane, and there is a sulfonic acid group attached to the ethane at a certain position. Combined with the previous "2 -", it can be seen that the sulfonic acid group is also connected to the second position of the ethane main chain, which is at the same site as the (2-aminoethyl) amino group.
"Monosodium salt" indicates that the compound is in the form of sodium salt, that is, the hydrogen of the sulfonic acid group is replaced by sodium, forming a monovalent anion to bind to the sodium ion.
In summary, its chemical structure is ethane as the skeleton, and there are (2-aminoethyl) amino and sulfonic acid groups connected to the two-position carbon at the same time, and the sulfonic acid group This structure endows the compound with specific physical and chemical properties, which may have unique uses in many fields.

2- [ (2-Aminoethyl) Amino] -Ethanesulfonic Acid Monosodium Salt

2 - [ (2 - aminoethyl) amino] -ethanesulfonic acid monosodium salt, this is a very important chemical substance, which has a wide range of uses in many fields.
First, in the field of biochemical research, it is often used as a biological buffer. Biochemical reactions in organisms are extremely sensitive to pH and need to be carried out smoothly within a specific pH range. With its unique chemical structure, this substance can effectively maintain the pH stability of the reaction system and avoid pH fluctuations affecting the structure and function of biological macromolecules (such as proteins, nucleic acids, etc.). For example, in enzymatic reaction experiments, precise control of the pH environment is essential for the study of enzyme activity. 2- [ (2-aminoethyl) amino] -ethanesulfonic acid monosodium salt can play a role in ensuring that the enzyme exhibits the best activity under suitable pH conditions, helping researchers to accurately explore the mechanism of action of enzymes.
Second, in the field of drug development, this substance also plays a key role. In the process of drug preparation, in order to ensure the stability and effectiveness of the drug, it is indispensable to adjust the pH value of the preparation. It can be added to the pharmaceutical preparation as a buffer component to prevent the degradation or inactivation of the drug due to pH changes. At the same time, its good biocompatibility also makes it suitable for many drug dosage forms, providing protection for the safe and effective delivery of drugs to target sites in the body, and helping to improve the quality and efficacy of drugs.
Third, in the field of cell culture, cell growth requires strict requirements on the culture environment, and pH is one of the key factors. 2 - [ (2-aminoethyl) amino] -ethanesulfonate monosodium salt can create a stable pH environment and create favorable conditions for cell growth and proliferation. Whether animal cell culture is used for the production of biological products or stem cell culture is used for regenerative medicine research, it is an important substance for maintaining normal physiological functions of cells and promoting healthy cell growth.

2- [ (2-Aminoethyl) Amino] -Ethanesulfonic Acid Monosodium Salt

2-% 5B% 282 - Aminoethyl%29Amino%5D - Ethanesulfonic Acid Monosodium Salt, the Chinese name is often 2- [ (2-aminoethyl) amino] ethane sulfonate sodium, the safety of this product needs to be viewed from many aspects.
Its chemical structure contains amino groups and sulfonic acid groups. In a specific chemical reaction system, the amino group has certain activity or can react with other reagents. If it is not used according to the specifications, such as improper control of reaction conditions, excessive temperature and pH deviations, it is likely to cause side reactions and generate unknown products. These products may pose unknown risks, threaten the safety of experimenters, in industrial production scenarios, or cause product quality fluctuations.
In terms of toxicity, although there is no conclusive study to show that it has high acute toxicity, there is insufficient attention to its long-term potential toxicity. Under long-term exposure, there may be chronic toxic effects, such as affecting the activities of certain enzymes in the human body and interfering with normal physiological and metabolic processes. In the environment, its degradation characteristics are also critical. If it is difficult to degrade, it will accumulate in the environment, or cause a chain impact on the ecosystem, affecting biodiversity.
In terms of operation and disposal, because it is in the form of sodium salts, it is mostly in the form of solid powder. If the operation is not properly protected, the dust will be inhaled by the human body, or irritate the respiratory tract, causing uncomfortable symptoms such as cough and asthma. And in the storage process, it is necessary to pay attention to moisture prevention and oxidation prevention. If the storage conditions are not good and cause it to deteriorate, it will not only affect its own performance, but also have a higher risk of deterioration products.
In summary, when using 2- [ (2-aminoethyl) amino] ethane sulfonate sodium, it is necessary to operate in strict accordance with regulations, take protective measures, and conduct in-depth toxicity and environmental impact studies to ensure personnel safety and environmental ecology.

2- [ (2-Aminoethyl) Amino] -Ethanesulfonic Acid Monosodium Salt

I have not heard of the price of "2 - [ (2 - aminoethyl) amino] -ethanesulfonic acid monosodium salt" in the city. However, if you want to measure its price, you should think about the number of ends.
The first one is difficult to make. If the production is complex, you need to use rare and precious materials, and the work is complex, and the price will be high. On the contrary, if the production of easy materials is common, the price will be low.
The second one, the quality is good or bad. The quality is pure and less heterogeneous, and the performance is outstanding. It is the best choice in the fields of medicine and scientific research, and the price is high; the quality is inferior, and the price is also low.
Furthermore, the supply and demand of the market. If there are many applicants, but there are few suppliers, the price will rise; if the supply exceeds the demand, the price may drop.
There is also a difference between producers. A well-known producer has strict quality control, high reliability, and a price that is higher than usual.
As for the confirmation of the price of this product, you must ask the trading records of pharmaceutical restaurants, chemical material dealers, or market observers to obtain a more accurate number. I have not personally visited the city, so it is difficult to determine the price, but I hope this analysis will be helpful to those who ask for the price.

2- [ (2-Aminoethyl) Amino] -Ethanesulfonic Acid Monosodium Salt is widely used in which industries

2-% 5B% 282 -aminoethyl% 29 amino% 5D-ethanesulfonic acid monosodium salt, this substance is widely used in many industries.
In the pharmaceutical industry, it is widely used. Because of its specific chemical structure and properties, it is often used as a buffer in the process of drug development and preparation. It can maintain the pH stability of drug solutions, ensure the chemical stability and physiological activity of drugs, and help drugs to better exert their efficacy. In some injections and oral liquid preparations, it can effectively adjust the pH value of the system and prevent the degradation or inactivation of drug ingredients due to changes in pH, which is of great significance for improving the quality and stability of drugs.
In the field of biochemical research, it also plays an important role. In the research experiments of biological macromolecules such as proteins and nucleic acids, it is often used to configure buffer solutions. Because it can simulate the acid-base environment in organisms, it provides a suitable and stable environment for the separation, purification, identification and other experimental operations of biological macromolecules, making the experimental results more reliable and accurate. It is an indispensable reagent for biochemical experiments.
In industrial production, it also has its place. In the production of some special chemicals, it can be used as an additive to improve product performance. For example, in the production of some detergents, the addition of this substance can adjust the pH of the product, improve the decontamination effect and stability, and enhance the market competitiveness of the product. In the electroplating industry, it can be used as a buffer to maintain the pH value of the electroplating solution, which helps to improve the quality and uniformity of the coating and ensure the smooth progress of the electroplating process.
It can be seen that 2-% 5B% 282-aminoethyl% 29-amino% 5D-ethanesulfonic acid monosodium salt plays an important role in the pharmaceutical, biochemical research and industrial production industries due to its unique properties and functions, and is widely used.