Morpholinoethanesulfonic Acid Sodium Salt

Lingxian Chemical

Specifications

HS Code	812577
Chemical Formula	C6H12NO4SNa
Molecular Weight	217.22 g/mol
Appearance	White to off - white powder
Solubility	Soluble in water
Pka Value	6.15 (at 25°C)
Ph Range For Buffering	5.5 - 6.7
Melting Point	~270°C (decomposes)
Density	N/A (as a powder)
Stability	Stable under normal conditions
Storage Condition	Store in a cool, dry place

Packing & Storage

Packing	100 - gram pack of Morpholinoethanesulfonic Acid Sodium Salt in sealed, chemical - grade pouch.
Storage	Morpholinoethanesulfonic Acid Sodium Salt should be stored in a cool, dry place, away from heat and direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption. Store it separately from incompatible substances like strong oxidizing agents. This helps maintain its chemical stability and prevents degradation, ensuring its usability for various applications.
Shipping	Morpholinoethanesulfonic Acid Sodium Salt is shipped with care. It's packaged to prevent damage and spillage. Shipping follows regulations for chemical transport to ensure its safe arrival in proper condition.

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Morpholinoethanesulfonic Acid Sodium Salt

General Information

Historical Development

Morpholinoethanesulfonic Acid Sodium Salt, it is also a chemical product. Its origin, the first time to research and chemical substances, and the period of new development in the field. Years ago, I have changed my family's mental effort to explore the properties and methods of this substance.
Beginning to study, I still know a little about its characteristics. However, research has deepened, and its use in biochemical research, research and other fields is very important. In the past, the method was developed and the amount was limited, and the method has been changed. Today's method has been well-developed, and the amount has also increased greatly. Its scientific progress is like a cornerstone, helping to deepen more research and promote the development of chemical and biological sciences. Today's scientific research is huge.

Product Overview

There is a substance today called Morpholinoethanesulfonic Acid Sodium Salt. This substance is the key to chemical research. It is stable and has important functions in many experimental situations.
Looking at its shape, it is often white powder, easily soluble in water, forming a uniform solution. In biochemical experiments, it is often used as a buffer, which can precisely regulate the pH of the reaction system, maintain the stability of the environment, and make the reaction proceed smoothly.
In the field of cell culture, it can create acid-base conditions suitable for cell growth, and help cells multiply and metabolize. In molecular biology experiments, it is also an indispensable reagent to ensure the orderly development of various reactions. It is an extremely important substance in chemical research and has made great contributions to scientific research progress.

Physical & Chemical Properties

Morpholinoethanesulfonic Acid Sodium Salt, that is, morpholine ethanesulfonic acid, sodium salt, the physical and chemical properties of this substance are crucial. Its appearance is often white crystalline powder, uniform and delicate texture. In terms of solubility, it is easily soluble in water, which makes it widely used in many aqueous system experiments. When it comes to stability, it is quite stable under conventional conditions, but when it encounters strong acid and alkali, or high temperature environment, its chemical structure is afraid of change. As for the pH-related properties, it is a buffer, which can effectively maintain the stability of the pH value of the system. In biochemical experiments, cell culture and other fields, it can create a suitable acid-base environment to ensure the normal physiological functions of biomolecules and cells, laying a solid foundation for the smooth development of experiments.

Technical Specifications & Labeling

Morpholinoethanesulfonic Acid Sodium Salt is a commonly used product in chemical research. Its technical specifications and identification (product parameters) are the key. In terms of technical specifications, it is necessary to clarify its purity geometry, and the impurity content should be strictly controlled to what limit, which is related to the accuracy of its experimental application. Looking at its logo, the product name must be accurate, and the molecular formula and molecular weight must also be clearly marked so that the user can see it at a glance. And there should be appropriate warning labels to inform safety precautions. These are all elements to ensure that the product can be standardized, safe and effective in scientific research applications. Researchers should carefully observe it in order to live up to the rigor of scientific research.

Preparation Method

This Morpholinoethanesulfonic Acid Sodium Salt, the first thing to know about its raw materials. An appropriate amount of ethylene diamine, ethylene oxide and sulfonic acid needs to be prepared. The production process is as follows: First, ethylene diamine and ethylene oxide are reacted in an appropriate ratio at a suitable temperature and pressure to form an intermediate. This reaction needs to control its rate to prevent side reactions from happening.
Then, the intermediate reacts with sulfonic acid. This step also needs to precisely control the temperature and time to make the reaction sufficient. After the reaction is completed, it is purified and refined to obtain a pure product.
In order to ensure the quality of the product, a feedback mechanism needs to be set up. After each step of the reaction, the key indicators are detected, and the parameters are adjusted if they do not match. In addition, an optimization mechanism is established to continuously improve the process according to production conditions and product feedback, and to improve product quality and production efficiency.

Chemical Reactions & Modifications

In recent times, chemical research has deepened, and there is a substance named Morpholinoethanesulfonic Acid Sodium Salt, whose chemical reaction and denaturation ability are of great importance to researchers. This substance often shows unique characteristics in the reaction. When it encounters different agents, the reaction is different, or fast or slow, and the product is also special. And the beauty of its denaturation can vary depending on temperature, pressure and the existence of other things. Researchers work hard to understand the reason, hoping to make good use of its reaction and denaturation, and make progress in various industries. Although the road ahead is still far away, everyone is determined, hoping to explore the mystery, and make achievements for the prosperity of chemistry and the benefit of people's livelihood.

Synonyms & Product Names

Today there is a thing called Morpholinoethanesulfonic Acid Sodium Salt. This thing is used in the field of biochemistry and has a wide range of uses. Its nicknames are also many, such as so-and-so, all refer to the same thing. It is a commonly used agent in biochemical experiments and can play a key role in many reactions. It is sold by merchants under this name, but it may also be known by other similar names. Although it is called differently, it is actually the same thing. In the process of biochemical research, this thing often accompanies researchers to help them explore the unknown, solve many biochemical mysteries, and make scientific progress.

Safety & Operational Standards

Morpholinoethanesulfonic Acid Sodium Salt, it is also a chemical product. In its experimental use, safety and operating standards are of paramount importance.
In terms of safety, although this product has specific chemical properties, it should also beware of its harm to the human body. When touching, it is necessary to take strict care of the skin and eyes. If you accidentally touch it, rinse it with a lot of water as soon as possible, and seek medical attention as appropriate. The use environment should also be well ventilated to avoid the accumulation of volatile gas, so as not to cause the risk of inhalation.
As for the operating norms, when weighing first, use a precise weighing instrument and take the amount required by the experiment, not more or less, to ensure the accuracy of the experiment. When dissolving, it is advisable to use a suitable solvent and stir at a suitable temperature and rate to promote its instant dissolution and uniformity. During the reaction process, closely observe its changes, such as differences in temperature and color, and control according to predetermined steps. Use it properly to avoid moisture, heat, and light to prevent qualitative changes. In this way, when using Morpholinoethanesulfonic Acid Sodium Salt, it is safe and the experiment is smooth.

Application Area

Morpholinoethanesulfonic Acid Sodium Salt, it has a wide range of uses in the field of biochemistry. In the realm of cell culture, it can stabilize the degree of acid and alkali, and ensure the safe growth of cells, just like fertile soil to raise plantlets. In protein research, it can be used as a buffer agent to help protein analyze its structure and function. If the craftsman is good at using the device, it can be accurately analyzed. And in the nucleic acid experiment, it can also create a stable environment, which is conducive to the operation and analysis of nucleic acid. It is a powerful aid in all kinds of biochemical experiments, an indispensable good product for scientific researchers, and helps the progress of scientific research. The function is significant, and it is really important in the field of biochemical applications.

Research & Development

There are Morpholinoethanesulfonic Acid Sodium Salt, which is very important in our chemical research. We have dedicated ourselves to studying and striving to clarify its properties, uses and development possibilities. After months of investigation, we have obtained some results. It can stabilize the acid and base of the environment in many chemical reaction systems and help the reaction go smoothly. And looking at its performance under different conditions, subtle changes can be observed to infer its inherent mechanism.
However, if it is to be widely used, it still needs to be deeply cultivated. In the preparation process, we strive to improve, reduce costs and improve quality. In the application and expansion, explore new fields, and hope to create a new situation in medicine, materials and many other aspects. We will persevere in the research and development of this material, contributing to the field of chemistry, promoting the progress of science and technology, and benefiting the world.

Toxicity Research

The study of toxicity is of paramount importance. There are Morpholinoethanesulfonic Acid Sodium Salt today, and we will investigate its toxicity in detail.
In various experiments, observe its interaction with various organisms. Observe its effect on microscopic life, such as insects and algae. Observe its effect, or observe whether it has abnormal changes in the shape and metabolism of cells.
Examine its contact route carefully, orally, percutaneously, or between respiration. Observe its dosage and the relationship between toxic reactions. After months of study, I hope to obtain detailed evidence to clarify the truth about the toxicity of this substance, and to add a bit more caution when using this substance for the world to avoid the risk of poisoning.

Future Prospects

There are Morpholinoethanesulfonic Acid Sodium Salt today, which is quite promising in the field of scientific research. Looking at its nature, it has a unique quality and can be used for many experiments. Although the current understanding is still limited, the future development can still be expected.
Those of us who aspire to scientific research should study it carefully. In time, we may be able to explore its secrets and develop our talents in medicine and biochemistry. Make it difficult to solve and well-being widespread. In the future, everyone will work together to make the ability of this thing fully manifest, use it for the world, and create infinite benefits. This is our hope for its future.

Frequently Asked Questions

What are the main uses of Morpholinoethanesulfonic Acid Sodium Salt?

Morpholinoethanesulfonic Acid Sodium Salt (MES) is widely used in the field of biochemical research.
First, it can be used as a buffer in the context of cell culture. Cell growth is extremely sensitive to environmental pH value, and a slight deviation will affect its growth, metabolism and even survival. MES sodium salt has good buffering ability and can maintain the pH value of cell culture medium in a stable range. Generally, the effect is very good between pH 5.5 and 6.7. It creates a suitable growth microenvironment for cells, just like building a stable home for cells, so that they can multiply without worry.
Second, it plays a key role in the enzymatic reaction system. Many enzymes have the best activity and stability only under specific pH conditions. The MES sodium salt can adjust the pH of the reaction system on demand, so that the enzyme can fully exert its catalytic efficiency and ensure the smooth progress of the reaction.
Third, it is also indispensable in nucleic acid electrophoresis experiments. Electrophoresis needs to stabilize the pH environment to ensure that the migration rate of nucleic acid molecules is stable and the bands are clearly distinguishable. The MES sodium salt buffer system can effectively maintain this environment and help the precise separation and analysis of nucleic acids, just like paving the way for nucleic acid electrophoresis, so that the results are accurate.
In short, Morpholinoethanesulfonic Acid SoSaldium t plays a key role in stabilizing the pH environment in biochemical research scenarios such as cell culture, enzymatic reaction and nucleic acid electrophoresis, which greatly promotes scientific research progress.

Morpholinoethanesulfonic Acid Sodium Salt is commonly used in which experiments

Morpholinoethanesulfonic Acid Sodium Salt, the sodium salt of morpholine ethanesulfonic acid, is often abbreviated as MES sodium salt, which is frequently used in biochemical experiments, cell culture and many other experiments.
In biochemical experiments, because of its good buffering performance, it can maintain a stable pH environment in a narrow pH range (usually pH 5.5 - 6.7), just like a stable "cornerstone" for biochemical reactions. Many enzymatic reactions are extremely sensitive to the pH of the reaction environment. The stable environment created by MES sodium salt can keep the enzyme in the best active state, just like "escort" for the enzyme to ensure the smooth progress of the reaction.
Cell culture experiments also often use it as a buffer. Cell growth is extremely sensitive to the pH of the environment in which it is located, and small fluctuations may affect cell growth, proliferation and even survival. MES sodium salts can effectively regulate the pH of the medium and build a suitable "hotbed" for cell growth, so that cells can grow healthily in a stable environment. For example, to cultivate some adherent cells that are sensitive to pH changes, the rational use of MES sodium salts can significantly improve the success rate of cell culture and cell state.
In the field of molecular biology experiments, such as nucleic acid extraction and purification, in order to prevent the degradation or denaturation of nucleic acids due to pH changes, MES sodium salts can maintain the pH stability of the system and protect the integrity of nucleic acid structure and function, just like loyal "guards" guarding precious "treasures", which is of great significance for the smooth development of subsequent experimental steps.

What are the storage conditions for Morpholinoethanesulfonic Acid Sodium Salt?

Morpholinoethanesulfonic Acid Sodium Salt, it is a commonly used reagent for biochemical experiments. Its storage conditions are quite important, which is related to the quality and utility of the reagent.
This reagent should be stored in a cool and dry place. A cool environment can protect the reagent from high temperature. High temperature often causes chemical reactions in the reagent, or causes it to decompose and deteriorate, damaging its chemical structure and activity. If the temperature is too high, the molecular movement will intensify, or cause uncontrollable changes, resulting in deviations in the experimental results. Therefore, the temperature range of 15-25 ° C is appropriate. If it exceeds this range, it may affect the stability of the reagent.
Drying conditions are also indispensable. Water vapor in the air can make the reagent damp, Morpholinoethanesulfonic Acid Sodium Salt is damp, or deliquescence occurs, resulting in a decrease in its purity and affecting the accuracy of the experiment. And humid environment or promote it to react with other components in the air, such as carbon dioxide, etc., to change the chemical properties of the reagent. It should be placed in a dryer or in an environment with a desiccant to maintain a low humidity, preferably 40% - 60%.
Furthermore, it should be avoided from contact with strong oxidants, strong acids and alkalis and other substances. Such substances have high chemical activity. When meeting Morpholinoethanesulfonic Acid Sodium Salt, it is easy to cause violent reactions, cause the failure of the reagent, and even risk safety. When storing, it should be placed separately from such substances and kept at a certain distance.
and the reagent should be properly sealed and stored. The seal can prevent the intrusion of air, water vapor and other impurities, and maintain the purity and stability of the reagent. After taking it, it should be sealed in time to avoid deterioration due to long-term exposure to air. In this way, according to this storage condition, the quality of Morpholinoethanesulfonic Acid Sodium Salt can be guaranteed and its due effect can be played in the experiment.

Morpholinoethanesulfonic chemical properties of Acid Sodium Salt

Morpholinoethanesulfonic Acid Sodium Salt, the sodium salt of morpholine ethanesulfonic acid, has the following chemical properties.
This salt is a white crystalline powder with stable properties. From the perspective of acid-base properties, morpholine ethanesulfonic acid itself is a zwitterion buffer, and its sodium salt can play a role in regulating and stabilizing pH value in aqueous solution. It is often used in biochemical and molecular biology experiments. The generally applicable pH range is 6.1-7.5. In this range, it can effectively maintain the pH stability of the system and resist the pH fluctuation caused by the addition of a small amount of acid or base.
In terms of solubility, the sodium salt is easily soluble in water, and the formed aqueous solution is clear and transparent, which is conducive to rapid and uniform dispersion and function in various experimental systems. It is chemically stable and is not easy to decompose or deteriorate under normal storage conditions. However, care should be taken to avoid contact with strong oxidants, strong acids, strong bases and other substances to prevent chemical reactions and damage its structure and buffering properties. Due to its good chemical stability and specific pH buffer, it is widely used in many biochemical processes such as cell culture and protein purification. It can provide a suitable and stable acid-base environment for biomolecules and ensure the functional and structural integrity of bioactive substances.

Morpholinoethanesulfonic reaction of Acid Sodium Salt with other reagents

Alas! If you want to know the reaction of Morpholinoethanesulfonic Acid Sodium Salt (sodium salt of morpholine ethanesulfonate) with other drugs, you must investigate its properties in detail. This salt is weakly acidic and can dissociate in solution.
If it encounters a strong base, such as sodium hydroxide, etc., it will have a neutralization reaction. Acid and hydroxide combine to produce corresponding salts and water. It is common sense to cover acid and base neutralization.
And if it encounters certain metal salts, such as copper salts, iron salts, etc., or new compounds are formed due to ion exchange. This is because of the tendency of acid groups to combine with metal ions.
As for oxidizing agents, they have certain reducing properties, or are oxidized, resulting in structural changes, and their chemical properties are also different. However, in case of reducing agents, due to their weak oxidizing properties, the reaction may be difficult to occur.
And meet with biological macromolecules such as proteins and enzymes, or affect their structure and function due to electrostatic action, hydrogen bonding and other forces. This is not to be overlooked in biochemical experiments and medical applications. In short, the various reactions depend on the characteristics of other drugs and environmental conditions mixed with them. When using drugs, you must be cautious.