2-Morpholinoethanesulfonic Acid Potassium Salt

Lingxian Chemical

Specifications

HS Code	812518
Chemical Formula	C6H12NO4S.K
Molecular Weight	233.33 g/mol
Appearance	White to off - white powder
Solubility	Soluble in water
Ph Range For Buffer	5.0 - 6.5
Pka Value	6.15 (at 25°C)
Stability	Stable under normal conditions
Storage Condition	Store at room temperature, keep container tightly closed
Cas Number	145224-94-8
Application	Used as a buffer in biological and biochemical research

Packing & Storage

Packing	100g of 2 - Morpholinoethanesulfonic Acid Potassium Salt in a sealed, chemical - grade bag.
Storage	2-Morpholinoethanesulfonic Acid Potassium Salt should be stored in a cool, dry place, away from direct sunlight and heat sources. It should be kept in a tightly sealed container to prevent moisture absorption and contact with air, which could potentially affect its chemical properties. Store it separately from incompatible substances to avoid reactions.
Shipping	2 - Morpholinoethanesulfonic Acid Potassium Salt is shipped in well - sealed containers, safeguarded against moisture and temperature fluctuations, ensuring product integrity during transit by standard or expedited freight as per customer need.

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2-Morpholinoethanesulfonic Acid Potassium Salt

General Information

Historical Development

2 - Morpholinoethanesulfonic Acid Potassium Salt, it is also a matter of transformation in the material. Chase its source, the past, and the nature of the research object. At the beginning of the year, if you don't know this, then the research will be deep, and you will be sensitive to the method of research and intensive research, and explore the field of transformation. In the month, it will be clear about its characteristics. From the initial ignorance, to the ability to analyze its transformation and make its products. Research in the past, or encounter problems, but those who do not, one by one clarify this 2 - Morpholinoethanesulfonic Acid Potassium Salt, use it in the world of transformation, and promote the process of research, its history evolution, and the heart of exploration.

Product Overview

2 - Morpholinoethanesulfonic Acid Potassium Salt is a commonly used reagent in chemical research. It is stable and has many wonderful uses in biochemical experiments. Viewing its shape, or white crystalline powder, easily soluble in water, it can create a suitable acid-base environment for the reaction system. In cell culture and other experiments, it can effectively maintain the stability of pH value and maintain the normal physiological function of cells. And because of its mild nature, it has little effect on the activity of biomolecules, so it is widely favored by researchers. In many chemical reactions, it is often used as a buffer to control pH, so that the reaction proceeds smoothly as expected, providing a solid boost for scientific research. It is an indispensable material for chemical research.

Physical & Chemical Properties

2-Morpholinoethanesulfonic Acid Potassium Salt, it is also a chemical substance. Its properties are physical and chemical. Its physics is often solid, the color is positive, and it is like a particle. Its solubility can be investigated, and it is easily soluble in water and forms a clarifying liquid.
Its chemical properties, with certain acid properties. As an acid formula, it can be used to create a reaction, forming a phase of water. And in the reaction, it can be used for specific synthesis steps, and it is used as a raw material for research engineering processes. Because of its general characteristics, it is also useful in biochemical, chemical and other research fields, helping researchers to explore micro-knowledge and push forward the best steps.

Technical Specifications & Labeling

Today there are 2 - Morpholinoethanesulfonic Acid Potassium Salt, which has its own rules and standards in industrial manufacturing and quality control. The rules, from the selection of raw materials, must be pure and free of impurities. In the subsequent process, temperature and pressure variables need to be precisely controlled. According to scientific methods, follow an orderly process to obtain high-quality products. The rules of identification are related to its purity geometry, the amount of impurities, and the determination of appearance and shape. Purity should be measured by high-end instrumentation, impurities must be controlled in trace amounts, and the appearance should be uniform and stable. In this way, based on technical regulations, standards are considered accurate to ensure that the quality of this industrial product can be satisfactory for all purposes and live up to expectations.

Preparation Method

To prepare 2 - Morpholinoethanesulfonic Acid Potassium Salt, prepare all kinds of raw materials. Appropriate amounts of 2 - morpholine ethanesulfonic acid and potassium hydroxide are required. The preparation process is as follows:
Dissolve 2 - morpholine ethanesulfonic acid in an appropriate amount of solvent in a certain proportion, slowly add potassium hydroxide, and stir while adding to control the reaction temperature and rate. This reaction process needs to be carefully monitored to make the two fully react.
After the reaction is completed, separate the product according to appropriate steps, or go through crystallization, filtration, washing and other processes. Then dry under specific conditions to obtain pure 2 - Morpholinoethanesulfonic Acid Potassium Salt. Throughout the process, all links must strictly abide by the specifications to ensure the quality of the product.

Chemical Reactions & Modifications

There are now 2 - Morpholinoethanesulfonic Acid Potassium Salt. The reaction and modification of this substance in chemistry are really the focus of our chemical researchers. Its nature is active, participating in various reactions, or generating new substances, or changing physical properties.
When looking at its sympathetic with other substances, observe the clutch of ions and the ease of valence bonds. Changes in reaction conditions, such as temperature rise and fall, pressure increase or decrease, and the amount of agent, can affect its change. Or make the reaction speed, or cause the product to be different.
As for modification, chemical means can be used to adjust its structure to suit various uses. or increase its stability, or change its solubility, or change its activity. It is hoped that it can be widely used, and it has made progress in the fields of medicine and materials, which is beneficial to the world.

Synonyms & Product Names

2-Morpholinoethanesulfonic Acid Potassium Salt, often used in MES. This product is meaningful in the research and development. Its same product name is the key to inquiry. Just like the ancient Fang Jiadan, if you want to find refinement, you need to check the name and quality of the product. MES, in the context of the world, or there are names for different needs, the product name is also different due to the home and use. If you want to find refinement, the research of this chemical product also needs to clarify its same product name, in order to make the product more efficient and achieve results.

Safety & Operational Standards

2-Morpholinoethanesulfonic Acid Potassium Salt, which is 2-morpholine ethanesulfonic acid, potassium salt, is a commonly used chemical reagent. Its safety and operation specifications are of paramount importance, and it is related to the safety of the experimenter and the accuracy of the experiment.
In terms of safety, although this reagent is not an extremely dangerous product, it should be treated with caution. When touching, be sure to avoid direct touch. If you accidentally touch the skin, rinse with a lot of water immediately. If you feel unwell, seek medical attention immediately. If it enters the eye, rinse quickly with flowing water or normal saline, and seek medical attention in time.
In the operating specifications, when taking it, use clean and dry utensils to prevent contamination of the reagent. The weighing must be accurate, and the amount required for the experiment should not be increased or decreased at will. When dissolving, according to its characteristics, choose the appropriate solvent, control the temperature and stirring speed, and promote its full dissolution. After use, properly seal and store, and place in a dry, cool and well-ventilated place to prevent moisture and deterioration. The experimental site should also be kept clean, and the remaining reagents and utensils should be cleaned up in time after the experiment to ensure that the next experimental environment is safe and suitable. In this way, strict adherence to safety and operating standards can make the experiment proceed smoothly and obtain accurate results.

Application Area

2 - Morpholinoethanesulfonic Acid Potassium Salt, this is a delicate chemical substance. Its application field is quite wide, and it is often used as a buffer in the context of biochemical research. Because biochemical reactions need to be carried out smoothly in a specific pH environment, this substance can maintain the stability of the pH of the system and make the reaction stable.
In the field of cell culture, it is also indispensable. Cell growth requires harsh environmental requirements, and appropriate pH is the key to its survival and proliferation. 2 - Morpholinoethanesulfonic Acid Potassium Salt can create acid-base conditions suitable for cell growth and help cells to multiply and prosper. It is a powerful assistant in many fields such as biochemical research and cell culture, paving the way for scientific inquiry.

Research & Development

In recent years, I have had some experience in the research of 2 - Morpholinoethanesulfonic Acid Potassium Salt. This compound has unique properties and has a wide range of uses in biochemical experiments.
Initially studied this compound, its structure is exquisite and its properties are unique, which intrigued me. Then I focused my efforts to explore its synthesis method. After many attempts, it has been frustrated many times, but it has not changed its resolve. Finally, a method was obtained, which can be prepared more stably and has good yield.
Then its application was investigated. In the buffer system, it can maintain pH stability and provide a good environment for many reactions. In the field of cell culture, it protects the state of cells and promotes their growth.
Today, this compound has broad prospects. I should continue to study it, hoping to expand its use, contribute to biochemical research, and promote the development of this field to meet more practical needs.

Toxicity Research

Taste and study of highly toxic things, related to the health of people's livelihood, and also involved in the balance of all things, must be observed. Today there are 2 - Morpholinoethanesulfonic Acid Potassium Salt this thing, its toxicity should be investigated in detail.
The method of research requires strict rules. Observe its reaction to various things, observe its change in different situations. Applied to various organisms, record their responses in detail, observe their impact on vitality, and observe whether they have signs of harming the body.
Analysis of toxicity is related to the safety of humans and animals, and is related to the environment. If the toxicity is minimal, or it can be used to benefit people's lives and promote karmic prosperity; if the toxicity is severe, it should be carefully avoided, so as not to leave a disaster in the world. Therefore, toxicity research is the top priority, and it cannot be slack.

Future Prospects

Wuguan 2 - Morpholinoethanesulfonic Acid Potassium Salt has extraordinary potential. The future development may shine in the field of biomedicine. Its characteristics are stable, or it can help drug research and development, accurately act on lesions, and improve curative effect. And in the context of cell culture, it can also create a suitable environment to promote cell growth and research. It is also expected to become a key component in the construction of new materials in materials science and improve material properties. Although there may be challenges ahead, looking at the current research situation, its future will be able to break through many obstacles, expand the vast world, and contribute to the progress of various fields, and open a new chapter.

Frequently Asked Questions

2-Morpholinoethanesulfonic chemical structure of Acid Potassium Salt

2 - Morpholinoethanesulfonic Acid Potassium Salt, that is, 2 - morpholine ethanesulfonate potassium salt. Its chemical structure can be as follows:
The main structure of this compound is composed of morpholine ring, ethanesulfonate group and potassium ion. The morpholine ring is a nitrogen-containing six-membered heterocyclic ring, and the nitrogen atom is connected with two methylene groups to form a ring structure, showing a certain stability and spatial configuration. On the nitrogen atom of the morpholine ring, there is an ethanesulfonate group connected. The ethanesulfonate group is formed by connecting the ethyl group to the sulfonate group. The sulfonate group -SO 🥰 H is a strong acidic group with good water solubility and ionization ability. Due to the acidic nature of the sulfonic acid group, it can react with potassium ions to form potassium salts, that is, the hydrogen atoms in the sulfonic acid group are replaced by potassium ions, so that the whole compound has the characteristics of potassium ions. This structure makes the potassium salt of 2-morpholine ethanesulfonate not only have some chemical properties of the morpholine ring, such as participating in some organic reactions, but also has good water solubility and ionic conductivity due to the existence of ethanesulfonate groups and potassium ions. It has important applications in biochemistry and molecular biology experiments and other fields. It is often used as a buffer to maintain the pH value of the reaction system by taking advantage of the acid-base equilibrium characteristics in its structure.

What are the main uses of 2-Morpholinoethanesulfonic Acid Potassium Salt?

2 - Morpholinoethanesulfonic Acid Potassium Salt has a wide range of uses and is important in many fields such as biochemical research and biopharmaceuticals.
First, in the biological buffer system, this salt occupies a key position. The internal environment of organisms is extremely sensitive to pH, and it needs to be precisely maintained within a specific range to ensure the smooth progress of various biochemical reactions. 2 - Morpholine ethanesulfonate potassium salt has excellent buffering properties, which can effectively resist external acid-base factors and maintain the stability of pH value of the system. In the process of cell culture, cell growth has strict requirements on the pH value of the environment. Adding an appropriate amount of this salt can keep the pH value of the culture medium stable in the range suitable for cell growth, ensure the normal metabolism and proliferation of cells, and create an excellent living environment for cells.
Second, in the field of enzymatic reactions, it also plays an indispensable role. The activities of many enzymes are closely related to the pH value of the reaction environment. Only under suitable pH conditions can enzymes exhibit the best activity. 2-Morpholine ethanesulfonate potassium salt, with its buffering effect, creates a stable pH environment for enzymatic reactions, allowing enzymes to efficiently catalyze substrate conversion, thereby improving reaction efficiency and product production. For example, in some enzymatic reactions involved in drug synthesis, the use of this salt to ensure the pH stability of the reaction system is of great significance to improve the yield of drug synthesis.
Third, in protein research, this salt also plays an important role. The structure and function of proteins are easily affected by environmental factors, and pH is one of the key ones. In the process of protein separation, purification and property research, 2-morpholine ethanesulfonate potassium salt can maintain the pH stability of the system, avoid protein denaturation due to pH fluctuations, ensure that proteins maintain their natural conformation and biological activity, and help researchers accurately explore the relationship between protein structure and function.

What are the precautions for 2-Morpholinoethanesulfonic Acid Potassium Salt during storage?

2-Morpholine ethanesulfonate potassium salt, when storing, there are many things to pay attention to.
This salt should be stored in a cool, dry and well-ventilated place. Because it is quite sensitive to humidity, humid environment can easily cause it to absorb moisture, which in turn affects the quality and even causes chemical properties to change. Therefore, it needs to be properly sealed to prevent moisture from invading.
Temperature is also a key factor. Excessive temperature may cause it to decompose or accelerate chemical reactions; too low temperature may cause its crystallization or physical state to change. Therefore, it is usually suitable for conventional room temperature (about 15-30 ° C) storage.
At the same time, this salt should be avoided from coming into contact with substances such as oxidants, reducing agents and strong acids and bases. Due to its chemical structure characteristics, it may encounter these substances or cause violent chemical reactions, causing them to deteriorate, and may pose a safety risk.
Storage should also be kept away from fire and heat sources in case of accidental reactions, causing dangerous situations such as fires. And, it should be placed out of the reach of children to prevent accidental ingestion, because if the substance is accidentally ingested, it may cause damage to human health. During storage, it is also necessary to regularly check whether the packaging is in good condition. If there is any damage, it needs to be dealt with in time to ensure that its storage conditions are always suitable.

2-Morpholinoethanesulfonic the solubility of Acid Potassium Salt

2 - Morpholinoethanesulfonic Acid Potassium Salt, that is, 2 - morpholine ethanesulfonate potassium salt, its solubility is very important. This salt has good solubility in water, and can dissolve smoothly in water at room temperature to form a clear solution. Because of its molecular structure, it contains both hydrophilic sulfonic acid groups (-SO 🥰) and a morpholine ring with a certain polarity. The synergistic effect of the two promotes the salt to form strong interactions with water molecules, such as hydrogen bonds. Therefore, it exhibits good water solubility.
However, its solubility is also affected by temperature. Generally speaking, when the temperature increases, its solubility in water also increases. Appropriate heating of the solution can speed up the dissolution rate of the salt, making the dissolution process more rapid and sufficient.
As for organic solvents, this salt also has a certain solubility in some polar organic solvents, such as methanol, ethanol, etc. However, compared with water, its solubility in organic solvents is relatively low. Due to the different polarity of organic solvents and water molecules, the interaction with the salt molecules is also different, making it difficult to effectively promote the dissolution of salts like water.
Overall, 2-Morpholinoethanesulfonic Acid Potassium Salt exhibits different degrees of solubility in water and some polar organic solvents. This property is crucial for selecting suitable solvents to prepare the desired solution in many chemical and biological experimental applications.

2-Morpholinoethanesulfonic Acid Potassium Salt has an impact on the environment

The impact of 2 - Morpholinoethanesulfonic ethanesulfonic acid (MES) potassium salt on the environment is of great concern to the world.
MES potassium salt is often used in biochemical experiments and buffer systems. Its properties are relatively stable, but its potential role in the environment should not be ignored.
If it accidentally flows into the water body, it may migrate with the water flow. In the complex ecology of natural water bodies, although MES potassium salt has a certain water solubility, it cannot be dispersed and degraded indefinitely. In aquatic ecosystems, it may affect primary producers such as plankton and algae. Phytoplankton and algae are the key to the ecological balance of water bodies. If MES potassium salts interfere with their normal physiological metabolism, growth and reproduction, it will chain and cause changes in the upper organisms of the food chain, which will endanger the stability of the entire aquatic ecosystem.
In the soil environment, if it infiltrates, it may have complex effects such as adsorption and desorption with soil particles. Some soil microbial communities may change their activity and composition due to the existence of MES potassium salts. Soil microorganisms contribute greatly to the process of soil nutrient cycle and organic matter decomposition. If MES potassium salts cause microbial community imbalance, soil fertility and structure may also be affected. In the long run, it may affect vegetation growth and land productivity.
Although current research has not yet fully clarified all the effects of MES potassium in the environment, its potential impact on the ecological environment cannot be underestimated. When used with caution, strengthen control and monitoring to prevent irreparable damage to the environment.