2-(N-Morpholino)Ethanesulfonic Acid Potassium Salt

Lingxian Chemical

Specifications

HS Code	409019
Name	2-(N-Morpholino)Ethanesulfonic Acid Potassium Salt
Chemical Formula	C6H12KNO4S
Molecular Weight	233.327 g/mol
Appearance	White to off - white powder
Solubility	Soluble in water
Ph Range For Buffer	5.0 - 6.5
Pka At 25 C	6.15
Storage Condition	Store at room temperature, keep dry
Stability	Stable under normal conditions
Cas Number	145224-94-8

Packing & Storage

Packing	250 g of 2-(N - Morpholino)Ethanesulfonic Acid Potassium Salt in resealable bags.
Storage	2-(N - Morpholino)ethanesulfonic acid potassium salt should be stored in a cool, dry place. Keep it away from heat sources, moisture, and direct sunlight. Store in a tightly sealed container to prevent exposure to air and moisture, which could lead to degradation or changes in its chemical properties.
Shipping	2-(N - Morpholino)Ethanesulfonic Acid Potassium Salt is shipped in well - sealed containers. Packaging ensures protection from moisture and impact. Shipment follows safety protocols for chemicals, typically via reliable freight services.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

2-(N-Morpholino)Ethanesulfonic Acid Potassium Salt

General Information

Historical Development

Historical Evolution of Potassium 2- (N-morpholino) ethanesulfonate
Fu2- (N-morpholino) ethanesulfonate potassium salt is a special among chemical substances. Tracing back to its source, at the beginning, the academic community explored buffers more and more deeply, hoping to obtain better performance. At that time, many wise men studied the chemical mechanism, and after years of trial and error, they came to the fore.
In its early days, the synthesis method was still simple and rough, the yield was quite low, and the quality was not good. However, the public was not discouraged, and with the passage of time, science and technology advanced, the analysis methods became more refined, and the synthesis path was repeatedly improved. New catalytic methods and optimized reaction conditions have resulted in a gradual increase in its yield and higher purity.
At present, this compound is widely used in biochemical research, pharmaceutical research and other fields. From the beginning of exploration, it has been indispensable to the present day. It is a good example of the development of chemistry, and it is also seen in the perseverance and wisdom of human exploration of science.

Product Overview

Today there is a thing called 2- (N - Morpholino) Ethanesulfonic Acid Potassium Salt. This is a chemical product and is widely used in scientific research. Its properties are stable, it can be used as a buffering agent, it can adjust the degree of acid and alkali in the solution, and maintain the stability of the environment.
Look at its shape, or it is in the shape of a powder, with pure color and uniform quality. When preparing, it must go through various exquisite methods to ensure its quality. In the field of experiments, it is often valued by researchers, because it can help the reaction go smoothly and the results are accurate. And it has extraordinary effects in biology, medicine and other fields, and can contribute to exploring mysteries, solving problems, and adding bricks and tiles to scientific research.

Physical & Chemical Properties

The physicochemical properties of 2 - (N - morpholine) ethanesulfonic acid potassium salt are related to the importance of our chemical research. Its properties are stable. At room temperature, it is white and powder-like, soluble in water, and the solution is neutral. Regarding its melting point, it reaches about 150 degrees, which shows that its thermal stability is quite good. In chemical reactions, it is often used as a buffer to stabilize the pH of the system, and its effect is remarkable. And because its structure contains morpholine ring and sulfonic acid group, it endows unique chemical activity and can participate in various organic synthesis, adding luster to the chemical industry. Studying the physicochemical properties of this substance is like exploring treasures in the path, contributing to the progress of chemistry and our efforts.

Technical Specifications & Labeling

2 - (N - morpholino) ethanesulfonic acid potassium salt, this is a fine chemical. Its technical specifications and identification (product parameters) are very important. Looking at its quality, it should be pure and uniform in color, free of impurities and no impurities.
On its standard, it is necessary to note the name in detail, that is, 2 - (N - morpholino) ethanesulfonic acid potassium salt, which cannot be mixed. The molecular formula and molecular weight should also be precisely stated to show its properties. Purity is a high standard, and the impurity content needs to be small. And its physical and chemical properties, such as melting boiling point, solubility, etc., need to be explained so that users can know. In this way, the technical specifications and labels of the square are accurate, so that this product is suitable for all things in the chemical industry.

Preparation Method

The method of preparing 2 - (N - morpholine) ethanesulfonate potassium salt is related to the raw materials and production process, reaction steps and catalytic mechanism. Prepare the raw materials first, take an appropriate amount of morpholine and vinyl sulfonate potassium, these two are the key things. Place it in a special reactor, control the temperature in a suitable range, about 60 to 80 degrees Celsius, to ensure a steady reaction. Add a specific catalyst to help the reaction speed up. After several times of reaction, closely observe it, and wait for the reaction to be complete and cool down to room temperature. Purified by distillation and crystallization to obtain pure 2 - (N - morpholine) ethanesulfonate potassium salt. The whole process, the raw materials are precise, the process is orderly, the reaction conditions are suitable, and the catalysis is appropriate, and the good product can be prepared.

Chemical Reactions & Modifications

In the field of chemical industry, there is the name 2- (N -Morpholino) Ethanesulfonic Acid Potassium Salt. This is a delicate product, and it is more wonderful in the change of chemistry.
Looking at its reaction, when it encounters various things, it often produces a unique transformation. Its properties can vary from situation to situation, or promote or slow, all in accordance with the laws of chemistry. In the reaction, it can adjust the acid and base of the system, stabilize the state of substances, and make all changes orderly.
As for modification, with ingenious thinking, it can increase its specific ability. Or make it more stable when the temperature changes; or make it compatible with other things and develop different qualities. In this way, this product can be used in various fields of medicine and biochemistry, adding a bright light to the road of scientific research, assisting students in exploring the subtleties of chemistry and understanding the wonders of material changes.

Synonyms & Product Names

2 - (N-morpholino) potassium ethanesulfonate This substance has its synonym and trade name, which is quite important. It covers chemical substances, and many coexist to facilitate identification. Its synonym is derived either from its structure or according to its properties. The trade name involves the regulations of the merchant and is convenient for the market.
2 - (N-morpholino) potassium ethanesulfonate, in the field of chemistry, has a wide range of uses. Its alias help researchers explore its roots and clarify its characteristics. The trade name enables the industry to trade in the market with accuracy.
The alias and the trade name complement each other. The alias shows its essence, and the trade name shows its market position. The two together help 2 - (N - morpholino) ethanesulfonic acid potassium salt, in the scientific research and commercial road, smooth.

Safety & Operational Standards

2 - (N-morpholino) ethanesulfonic acid potassium salt, this is a chemical commonly used in chemical research. Regarding its safety and operation specifications, it is necessary to be careful.
In terms of storage, it should be found in a cool, dry and well-ventilated place. Be sure to keep away from fire and heat sources to prevent accidents. Due to its special nature, if the storage environment is not suitable, it may pose a safety risk.
When taking it, it is necessary to strictly abide by the norms. Experimenters wear suitable protective equipment, such as gloves, goggles, etc., to protect their own safety. The operation process needs to be carried out in a fume hood, so that harmful gases can be discharged in time without endangering the human body.
If you accidentally come into contact with this chemical, do not panic. For skin contact, rinse quickly with a large amount of flowing water, and then seek medical treatment; for eye contact, immediately lift the eyelids, rinse with flowing water or normal saline, and seek medical attention immediately.
Furthermore, disposal should not be underestimated. It must not be discarded at will. It should be properly disposed of in accordance with relevant environmental regulations to avoid pollution to the environment.
Chemical research, safety first. Only by strictly observing safety and operating standards can we ensure the smooth progress of the experiment and protect the safety of the experimenter and the environment.

Application Area

2- (N - Morpholino) Ethanesulfonic Acid Potassium Salt is also a chemical product. Its use is often involved in the biochemical field. For example, in the cultivation of cells, it can maintain the acid balance of the culture solution and create a suitable environment for the survival of cells. It is also used in protein research to determine the quality of proteins, so that their properties can be investigated. In the enzymatic reaction system, it can control the pH value of the reaction environment, so that the enzymatic reaction can be carried out. And in molecular biology, such as the extraction of nucleic acids and the determination of isotopes, it can help them to achieve smooth progress and ensure the effectiveness of the results. All this is true, because this material is very important in the field of biochemical research.

Research & Development

In modern times, the research and development of chemical products has advanced thousands of miles every day. Today there is 2- (N - Morpholino) Ethanesulfonic Acid Potassium Salt, and its research and development have attracted much attention.
This agent also has unique properties and is quite effective in various fields such as biochemical experiments. We have dedicated ourselves to studying its characteristics and finding the optimal preparation method. After months of hard work, the synthesis method has improved, the yield has gradually increased, and the quality has also become better.
And looking at its application, it is regulated in the environment of cell culture, and the effect is remarkable. It can stabilize its acid-base and protect the safety of cells. We hope to research and develop this material, contribute to the study of biochemistry, promote its progress, and benefit all living beings. In the future, we should still unremitting, dig deep into its capabilities, expand its use, and hope to have better results.

Toxicity Research

Today there is a substance called 2- (N - Morpholino) Ethanesulfonic Acid Potassium Salt. As a chemical researcher, I am especially interested in toxicity research. The toxicity of this substance is a matter of safety and safety, and it must not be ignored.
Although this substance is used more and more widely, its toxicity is unknown. I study it carefully and observe its interaction with living things. Or observe its effect on cells, or observe its metabolism in animals. Hope to get the truth, to understand the strength of its toxicity and the harm.
The road to toxicity research is long and arduous. However, I uphold the heart of research and am not afraid of difficulties. I hope that he will reap the fruits in the future, and provide reliable evidence for everyone to use this thing, so as to ensure the well-being of everyone, so that this thing can be used properly and avoid its poison.

Future Prospects

Wuguanfu 2- (N - Morpholino) Ethanesulfonic Acid Potassium Salt is not widely used today, but its characteristics are different, and it has great opportunities for future expansion. In the field of biochemical research, it can be used as a buffering agent to maintain the stability of the environment and help all experiments run smoothly.
Today's science and technology are new, and the secrets of research and development are deeper. This product will definitely be able to adapt to the needs of the time, and develop its talents in pharmaceutical research and development and cell culture. It may help to create new drugs and explore the way to cure diseases; or optimize the method of cell cultivation and promote the progress of biotechnology.
I believe that with time, 2- (N - Morpholino) Ethanesulfonic Acid Potassium Salt will surely shine, adding to the prosperity of science and the happiness of mankind, and opening up a prosperous future.

Frequently Asked Questions

2- (N-Morpholino) Ethanesulfonic Acid Potassium Salt

2-%28N-Morpholino%29Ethanesulfonic Acid Potassium Salt, it is a chemical substance. It is often used as a biological buffer. The molecular structure of this substance contains a specific group combination. The N-Morpholino group is attached to the ethanesulfonic acid part and forms a potassium salt.
In the field of biochemical experiments, it has a wide range of uses. Because it can effectively maintain the stability of the pH of the system, it can ensure the suitable reaction environment in many biochemical reactions. Many enzymatic reactions are extremely sensitive to pH changes. This substance can ensure that the reaction is carried out in a suitable pH range, so that the enzyme can exert the best activity.
Preparation of this substance requires a specific chemical synthesis path. It is often obtained from related organic compounds through a series of reactions. During the process, the control of the reaction conditions is the key, such as temperature, pH, reaction time and other factors, which will affect the purity and yield of the product.
Its physical and chemical properties are also important considerations. Such as solubility, it has a certain solubility in water and some organic solvents, which makes it convenient to apply to various experimental systems. In terms of stability, under normal storage conditions, it can maintain a relatively stable state. In case of extreme conditions, chemical changes may occur.
2-%28N-Morpholino%29Ethanesulfonic Acid Potassium Salt plays an indispensable role in biochemical research, pharmaceutical research and development, and is a powerful tool for researchers to explore the mysteries of life and develop new drugs.

What are the main uses of 2- (N-Morpholino) Ethanesulfonic Acid Potassium Salt?

2-%28N-Morpholino%29Ethanesulfonic Acid Potassium Salt, which is 2- (N-morpholino) ethanesulfonate potassium salt, is often abbreviated as MES potassium salt. This is a commonly used reagent in biochemical research, and its main uses are as follows:
First, as a buffer, MES potassium salt is widely used in biochemical and molecular biology experiments. Because it can maintain a stable pH within a specific pH range, many biochemical reactions are extremely sensitive to environmental pH, and small changes may affect the reaction process and results. MES potassium salt buffer range is about pH 5.5 - 6.7, suitable for reactions that need to be carried out in this pH range, such as certain enzymatic reactions. The specific pH environment can ensure that the enzyme activity is in the best state, which in turn promotes the reaction to proceed efficiently.
Second, for cell culture. Cell growth has strict environmental requirements, and appropriate pH is the key to normal cell metabolism and function. MES potassium salt can adjust the pH of cell culture medium and create a stable living environment for cells. Especially in the culture of some pH-sensitive cell lines, MES potassium salt has a more significant effect, which helps to maintain the normal physiological function and growth state of cells.
Third, in the field of protein research, pH control is often required for protein isolation, purification and identification experiments. MES potassium salt can provide a stable pH environment, prevent protein denaturation due to pH fluctuations, and ensure the integrity of protein structure and function, which is convenient for subsequent analysis and research. For example, in protein electrophoresis experiments, a suitable pH buffer system is an important prerequisite for effective protein separation and accurate identification, and MES potassium salts can meet this demand.

What are the physicochemical properties of 2- (N-Morpholino) Ethanesulfonic Acid Potassium Salt?

2-%28N-Morpholino%29Ethanesulfonic Acid Potassium Salt is 2- (N-morpholino) ethanesulfonate potassium salt, often abbreviated as MES-K. The physical and chemical properties of this substance are as follows:
- ** Properties **: Usually in the form of white crystalline powder, the appearance is pure, and the texture is fine and uniform. This form is conducive to accurate weighing and experimental operation, and is quite convenient in many experimental scenarios.
- ** Solubility **: Easily soluble in water, it can be quickly and uniformly dispersed in water to form a clear and transparent solution. This property allows it to quickly achieve a uniform system when formulating buffers, laying a good foundation for subsequent experiments. Because it is easily soluble in water, it can function smoothly in aqueous systems involved in biochemical experiments. However, its solubility in organic solvents is poor, and organic solvents such as common ethanol and ether have limited solubility. This characteristic limits its application scenarios in non-aqueous systems.
- * pH **: MES-K, as a buffer, has a specific buffer range. Its effective buffer pH range is about 5.5 - 6.7. In this pH range, it can effectively resist the interference of a small amount of external acids or bases and maintain the relative stability of the pH value of the solution. This buffering property is of great significance in biochemical experiments. Many biochemical reactions are extremely sensitive to pH value and need to be carried out smoothly under specific pH conditions. MES-K can precisely create and maintain a suitable pH environment to ensure the stability of the structure and function of biomolecules.
- ** Stability **: Under normal storage conditions, that is, at room temperature and in a dry place, it has good stability, stable properties, and is not prone to decomposition or deterioration. However, if the storage environment is humid, it may absorb water, affecting its purity and performance. At the same time, high temperature environment may also promote chemical reactions, resulting in decomposition or structural changes. Therefore, proper attention should be paid to environmental conditions when storing.

2- (N-Morpholino) Ethanesulfonic Acid Potassium Salt What are the precautions during use?

2-%28N-Morpholino%29Ethanesulfonic Acid Potassium Salt is 2- (N-morpholino) ethanesulfonate potassium salt, often abbreviated as MES potassium salt. This is a commonly used reagent in biochemical experiments, and many matters need to be paid attention to when using it.
First safety protection. This reagent may be irritating to a certain extent, and may cause adverse effects when it comes into contact with the skin, eyes, or inhalation or ingestion. Therefore, when using, it is necessary to wear complete protective equipment, such as laboratory clothes, gloves and goggles. In case of accidental contact, eye contact should be washed with a lot of water immediately, and then medical treatment; skin contact should also be washed with soap and water as soon as possible.
Furthermore, its dissolution characteristics need to be well known. MES potassium salt is easily soluble in water and can be prepared into a solution of the required concentration. However, when dissolving, water temperature, stirring speed and other factors have an impact on the dissolution rate and effect. Usually it is better to dissolve at room temperature or slightly higher temperature, and moderate stirring helps it dissolve. At the same time, the pH value of the solution is about 6.0-7.0. If the experiment requires strict pH value, it needs to be accurately measured and adjusted.
Solution preservation should not be ignored. The stability of MES potassium salt solution is affected by many factors, such as temperature, light, microbial contamination, etc. Generally speaking, it should be stored at low temperature and in a dark place, and in order to prevent the growth of microorganisms, an appropriate amount of preservatives can be added. If stored for a long time, it is recommended to divide it into small portions to avoid repeated freezing and thawing to cause it to deteriorate.
In addition, compatibility with other reagents needs to be considered. In the experimental system, MES potassium salts may react with other reagents, which affects the experimental results. Therefore, before launching a new experiment, you should consult the data or do a pre-experiment to clarify its compatibility with other reagents.
Only by paying careful attention to the above matters and strictly operating the experiment can we ensure that 2- (N-morpholino) ethanesulfonate potassium salts play their due role in the experiment, and the experimental results are accurate and reliable.

What are the advantages of 2- (N-Morpholino) Ethanesulfonic Acid Potassium Salt over other similar substances?

2-%28N-Morpholino%29Ethanesulfonic Acid Potassium Salt, which is 2- (N-morpholino) ethanesulfonate potassium salt, is often referred to as MES potassium salt. Compared with other similar substances, its advantages are quite significant.
One is the buffering performance. MES potassium salt has a specific pH buffer range, about 5.5-6.7. In this range, it can effectively maintain the stability of the pH value of the solution. Compared with some similar substances whose buffer range is too wide or too narrow, MES potassium salt is like a helmsman who precisely controls the direction of the ship, creating a suitable and stable acid-base environment for specific chemical reactions or biological processes, so that the reaction or process can advance smoothly and orderly.
Second, good biocompatibility. In biology-related experiments, such as cell culture and other fields, MES potassium salts have shown excellent performance. It has minimal interference with the biological system, like a behind-the-scenes hero who quietly helps, and will not have adverse effects on key activities such as cell growth and metabolism. Some similar substances may interact with biomolecules or cause damage to biofilms, thus interfering with the accuracy and reliability of experimental results.
Third, good solubility. MES potassium salts can dissolve quickly and fully in water, forming a uniform and stable solution as naturally and smoothly as sugar fused into hot water. This property makes it simple and easy to configure different concentrations of solutions or integrate them into complex reaction systems during the experimental operation, which greatly improves the operability and repeatability of the experiment. And some similar substances may have poor solubility, resulting in turbidity and precipitation in the solution, which in turn affects the experimental effect.
Fourth, high chemical stability. MES potassium salts are not prone to chemical reactions such as decomposition and oxidation under conventional conditions, just like a solid fortress, which can exist stably for a long time. This ensures its quality stability during storage and use. Experimenters do not need to worry about deviations in experimental results due to changes in the substance itself, providing a solid guarantee for the smooth progress of the experiment.