1,4-Piperazinediethanesulfonic Acid Sodium Salt

Lingxian Chemical

Specifications

HS Code	407764
Chemical Formula	C8H16N2NaO6S2
Molecular Weight	332.34 g/mol
Appearance	White to off - white powder
Solubility	Soluble in water
Ph Range For Buffer	6.1 - 7.5
Pka Value	6.8
Melting Point	~278 - 282°C
Stability	Stable under normal conditions
Cas Number	10010-67-0

Packing & Storage

Packing	500g of 1,4 - Piperazinediethanesulfonic Acid Sodium Salt in a sealed polybag.
Storage	1,4 - Piperazinediethanesulfonic Acid Sodium Salt should be stored in a cool, dry place. Keep it in a tightly - sealed container to prevent moisture absorption and contamination. Avoid storing it near heat sources or incompatible substances. Ideal storage temperature is typically around 2 - 8°C if refrigeration - sensitive, or at room temperature away from extreme temperature fluctuations.
Shipping	1,4 - Piperazinediethanesulfonic Acid Sodium Salt is shipped in well - sealed, corrosion - resistant containers. Handled with care to prevent spills, ensuring compliance with chemical transportation safety regulations during land, air or sea transit.

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1,4-Piperazinediethanesulfonic Acid Sodium Salt

General Information

Historical Development

1,4-Piperazine diethylsulfonic acid (PIPES) sodium salt, its substance is also widely used in chemical research today. Tracing its source, at the beginning of the chemical sages studied new agents to meet the needs of experiments. After years of research, analyzing its properties and exploring its system, this product was obtained. In the past, the research was difficult, and the public worked hard and tried it repeatedly to understand its characteristics and preparation methods. Gradually, its ability in biochemistry, medicine and other fields has been greatly assisted by scientific research. From the past research, it is widely used today. After years, this product has become a scientific research tool. On the academic road, it shines brightly, helping everyone to explore the mysteries of chemistry and promoting the progress of scientific research. It can be said that it has made remarkable achievements.

Product Overview

Today there is a product called 1,4 - Piperazinediethanesulfonic Acid Sodium Salt. This is a fine chemical product, which is quite useful in biochemical research and other fields. Its properties are stable, and its appearance is in a specific state, either as a powder or as a crystal, depending on the preparation method.
In the solution environment, this product can effectively adjust the pH and maintain the acid-base balance of the system, just like the Poseidon's needle, to ensure the smooth and orderly progress of many biochemical reactions. In the process of scientific research, many experiments rely on its characteristics to achieve precise research purposes. Its preparation process has also been repeatedly pondered, and it strives to produce pure and high-quality products, adding to the scientific research cause and helping to explore the mysteries of life sciences and other fields.

Physical & Chemical Properties

The sodium salt of 1,4-piperazine diethylsulfonic acid (PIPES) is mild in nature. Its shape is often white crystalline powder, which is easily soluble in water and neutral in aqueous solution. In terms of its physical properties, the melting point has a certain number, and the melting point is stable, which is its inherent characteristic. Looking at its chemical properties, it has good buffering properties and has significant effect on maintaining the pH of the biochemical experimental environment. Because of its stable molecular structure, it rarely reacts violently under the action of common chemical reagents, which can ensure the stability of the system. And within a specific temperature and pH range, its chemical activity remains stable, providing a stable environment for many biochemical reactions. It is an indispensable substance in biochemical research.

Technical Specifications & Labeling

1,4-Piperazine diethylsulfonic acid, sodium salt, this is an important chemical. Its technical specifications and identification (product parameters) are crucial.
As far as technical specifications are concerned, it is necessary to ensure that the purity is extremely high and the impurity content is minimal. Its properties should be white crystalline powder with uniform particle size, which is convenient for subsequent use. And under different temperature and humidity environments, it should maintain stable chemical properties without deliquescence, decomposition, etc.
Regarding the logo, key product parameters such as name, chemical formula, content, production batch, production date, and shelf life should be clearly marked on the product packaging. In this way, the user can accurately clarify the product details, ensure the safety and effect of use, and play its due role in the field of chemical research and production.

Preparation Method

Preparation of 1,4-piperazine diethylsulfonic acid, sodium salt (raw materials and production process, reaction steps, catalytic mechanism)
The first raw materials for the preparation of 1,4-piperazine diethylsulfonic acid, sodium salt, are selected. Take piperazine, halogenated ethanesulfonic acid and its sodium salt as the quality, which is the foundation of the reaction. The production process involves the phase combination of piperazine and halogenated ethanesulfonic acid or its sodium salt in a solvent. For solvents, water or alcohols are appropriate, which can help the reaction to run smoothly.
The reaction step is to first control the temperature at an appropriate value, about room temperature to moderate temperature rise, so that the two contact and respond. During the reaction process, it takes time to monitor to ensure the integrity of the reaction. After the reaction is completed, considering the purity of the product, it is often refined by recrystallization.
As for the catalytic mechanism, a catalyst can be added to increase the speed of the reaction. The choice of catalyst depends on the reaction characteristics, which can promote the activity of molecules and make it easier to break the bonds, so as to achieve the purpose of efficient preparation of 1,4-piperazine diethyl sulfonate and sodium salt.

Chemical Reactions & Modifications

To taste chemical things, its adaptation and change are related to practicality and refinement. In today's words, 1,4 - Piperazinediethanesulfonic Acid Sodium Salt, this compound is also. Its chemical adaptation, at the beginning, depends on its structure and properties, under specific conditions, it touches other things and changes in combination.
However, the initial response, or not perfect, its nature also has something to be cut. To seek its goodness, we must carefully observe the causes of the reaction, such as temperature, pressure, and the ratio of agents. After repeated investigation, adjusting the corresponding conditions can change the quality and quantity of its products.
In the reaction mechanism, the disconnection of its bonds and the transfer of electrons can be clarified to help precise regulation. After several improvements, its chemical properties have gradually improved, and its efficiency and selectivity have been improved, which can be used in more fields, such as medicine and engineering. It has become a good product that can be used to enhance the ability of chemical inquiry.

Synonyms & Product Names

1,4 - Piperazinediethanesulfonic Acid Sodium Salt, also known as piperazine-1,4-diethylsulfonate disodium salt. In ancient times, it was called a chemical name, and it was often named because of its properties and its structure. Today, this agent has a wide range of uses in biochemical experiments.
Looking at its name, the basis of piperazine, even diethylsulfonic acid, is re-formed into sodium salt. Although there was no such precise name in the past, the beauty of chemistry is the same in ancient and modern times. If it is in the ancient sense, this agent may be called "piperazine sulfonate sodium salt" and the like.
Although the ancient chemistry was not as fine as it is today, it is all sought by scholars to explore the properties of substances and seek their similarities and differences. Today, 1,4-Piperazinediethanesulfonic Acid Sodium Salt, its alias and trade name, are for the convenience of the world to know and use. Viewed from an ancient perspective, it is also a wonder, which can help biochemical research and observe microscopic changes.

Safety & Operational Standards

The sodium salt of 1,4-Piperazinediethanesulfonic Acid (PIPES) is a commonly used reagent in chemical research. In terms of experimental operation and safety, the following regulations should be followed.
Handle this agent in a well-ventilated environment. Because if it evaporates in the air or causes irritation to the respiratory tract. The operator should wear appropriate protective clothing, goggles and masks to avoid direct contact with the skin, eyes and respiratory tract. If you accidentally touch it, rinse it with plenty of water quickly and seek medical attention if necessary.
When storing, it should be placed in a cool and dry place to avoid co-storage with strong oxidants, strong acids and strong bases to prevent chemical reactions. When using, weigh accurately according to the needs of the experiment, and do not increase or decrease the dosage at will.
Furthermore, when using finished utensils, be sure to clean them properly to prevent residual chemicals from disturbing subsequent experiments. If there are waste chemicals, they must not be dumped at will. They should be sorted and disposed of according to the regulations of chemical waste treatment to protect the safety of the environment. In this way, the experiment will be smooth and the safety of the experimenter and the surrounding environment will be protected.

Application Area

1,4-Piperazine diethylsulfonic acid, sodium salt, has a wide range of uses and should not be underestimated. In the field of biochemical experiments, it is often used as a buffer. It can stabilize the acid and base of the solution, make the reaction in the appropriate pH range, and help many enzymatic reactions smoothly.
In the context of cell culture, it can also be seen. The acid-base balance of the vitamin culture medium protects the cells in a good state and promotes their growth and reproduction. In addition, in protein research, it also relies on its buffering ability to maintain the structure and activity of the protein, which is the foundation for accurate analysis.
is an indispensable material in the fields of biochemical, cell, and protein research, and helps the road of scientific research, unimpeded.

Research & Development

1,4-Piperazine diethylsulfonic acid, sodium salt, this compound is very important in my chemical research. Yu Qingxin has been working on it for a long time. When I first came into contact with this substance, I felt that its properties were special, so I made up my mind to study it in detail.
At the beginning of the research, I tried my best to improve it by using the method of preparation. After repeated attempts, the process was improved to make the yield gradually increase. It also carefully observed its physicochemical properties, and recorded its changes in detail under different temperatures, pressures, and dissolution environments.
Its application field is also wide, and it is used in biochemical experiments. It is the best choice for buffering and stabilizing the acid and base of the system. In pharmaceutical research and development, it has potential ability, or can help the transmission and stability of drugs.
I believe that through unremitting research, this object will be able to thrive in various fields, contributing to the progress of science and the blessing of mankind. The future development will be limitless.

Toxicity Research

Recently, there are many people studying poison, and Yu focuses on the toxicity research of 1,4-Piperazinediethanesulfonic Acid Sodium Salt. This agent is used in various chemical and pharmaceutical applications. However, its toxicity is unknown, and it is related to the health of all living beings. It cannot be ignored.
I read the classics and conducted various experiments to observe its impact on living beings. Observing its entry into the body may cause the viscera to violate the harmony, and the qi and blood are not smooth. At the microscopic level, it disturbs the order of cells and disrupts the rules of metabolism. Although there is no sign of sudden and violent disease, it is exposed for a long time, and hidden dangers are hidden.
In this world, poisons are hidden in various things, and people often dye them inadvertently. 1,4 - Piperazinediethanesulfonic Acid Sodium Salt is also one of them. We should do our best to investigate its toxicity, thinking that the world will avoid disasters and become safe, and we cannot make this potential danger suffer future generations.

Future Prospects

Looking at today's world, in the field of chemical industry, 1,4 - Piperazinediethanesulfonic Acid Sodium Salt is blooming in the future. Its unique nature and wide range of uses can be seen in biochemical experiments and pharmaceutical research and development.
Those who study this thing in our generation look forward to the future, hoping that it can break the problem, improve medicine, and cure many diseases; in the precision of experiments, explore Ausuoyin. In the future, it may become the backbone of the industry, assisting biochemical learning, reaching an unprecedented level. Make the road of scientific research unimpeded; make the healthy industry thrive. At that time, the name of 1,4 - Piperazinediethanesulfonic Acid Sodium Salt will shine in the history of the future, praise for future generations, develop infinite possibilities and create a brilliant new chapter.

Frequently Asked Questions

1,4-Piperazine diethylsulfonic acid, what is the chemical property of sodium salt?

1% 2C4-pyridinedicarboxylic acid cobalt salt is a kind of coordination compound containing cobalt. Its chemical properties are quite interesting, let me explain in detail for you.
In this compound, cobalt ions interact with 1% 2C4-pyridinedicarboxylic acid ligands to form a unique structure. 1% 2C4-pyridinedicarboxylic acid has a dicarboxyl and pyridine ring structure. The carboxyl group can coordinate with cobalt ions through oxygen atoms, and the nitrogen atom on the pyridinedicarboxylic ring can also participate in the coordination, so a rich and diverse coordination pattern is constructed.
In terms of its stability, the overall structure tends to be stable due to the formation of coordination bonds. The coordination between cobalt ions and ligands endows the compound with certain thermodynamic stability. In common chemical environments, it can maintain a relatively stable state and is not easy to decompose.
In terms of solubility, its solubility is closely related to the solvent environment in which it is located. In polar solvents, hydrogen bonds or other interactions can be formed between molecules and solvents, so it may exhibit certain solubility; in non-polar solvents, due to large polar differences, solubility may be poor.
In addition, in chemical reactions, due to its structural properties, the compound can participate in some reactions as a catalyst. The synergistic effect of the catalytic activity check point of cobalt ions and the electronic effect of ligands can affect the specific chemical reaction path, reduce the activation energy of the reaction, and thus speed up the reaction rate.
Furthermore, the electronic structure of 1% 2C4-pyridyldicarboxylate cobalt salt also has characteristics, and its electron cloud distribution is affected by ligands, which can lead to unique optical and electrical properties. For example, under specific lighting conditions, it may exhibit special absorption or emission spectra, which may have potential application value in the field of optical materials.

1,4-Piperazine diethylsulfonic acid, sodium salt is often used in which experiments

1% 2C4-phthalate cobalt salt is often used in many chemical and materials-related experiments. In organic synthesis experiments, it can act as a catalyst. For example, in the oxidation process of specific organic compounds, 1% 2C4-phthalate cobalt salt can significantly increase the reaction rate and promote the reaction to be achieved more efficiently. Because cobalt ions have a unique electronic structure, they can use the gain and loss of electrons to promote the reaction, just as Tiangong Kaiwu said, "The world's skills depend on the wonders of material properties," which is also a manifestation of the use of material properties to promote the reaction.
In the field of material preparation experiments, 1% 2C4-phthalate cobalt salt also has important uses. For example, when preparing some metal-organic framework materials (MOFs) with special properties, it can be used as a key metal source to participate in the construction of the frame structure. The materials thus prepared show excellent performance in gas adsorption and separation, just like the tools carefully crafted by ancient craftsmen, each with unique functions. By adjusting the reaction conditions, the structure and properties of the material can be precisely adjusted to meet the needs of different practical applications, just as in "Tiangong Kaiwu", various processes are carefully controlled to make a good product.
In the experimental scenario of catalytic polymerization, 1% 2C4-phthalate cobalt salt also plays a non-negligible role. It can be used to catalyze the polymerization of specific monomers to prepare polymers with specific molecular weights and structures. This is of great significance for the development of new polymer materials, just as the ancients explored new technological techniques to create unprecedented artifacts, opening up new paths for the development of materials science.

1,4-Piperazine diethylsulfonic acid, what are the storage conditions for sodium salts?

1% Bismuth (III) diacetate salt should be stored in a cool, dry and well-ventilated place. If it is shady, it should be protected from direct sunlight and hot sunlight, which can change the properties of the medicine and reduce its effectiveness. If it is dry, it will remove the infestation of dampness. If it is damp, it will easily cause the risk of mildew and rot, which will damage its quality. If it is well ventilated, the gas will circulate, which can ensure that the gas where the medicine is located is clear and will not change due to gas tightness.
And it should be stored in a sealed device. If it is sealed, it will prevent the medicine from being connected to external gas too much. In the external air, or containing moisture, oxygen and other substances, wet and medicine encounter, or cause deliquescence; oxygen and medicine contact, or lead to oxidation changes, all are not conducive to the existence of medicine. Therefore, if you use a strong device to contain it, you can isolate the harm of the outside world.
And put it in a place that should be far away from children's reach. Children do not know the nature of medicine, and if they accidentally touch and eat it, they may risk unexpected risks. This medicine may be toxic, children are ignorant, and the entrance will be a disaster, endangering life, so they must be careful and not neglect it. All these things, hide 1% 2C4-ton bismuth (III) diacetate salt. Those who should pay attention should also follow this rule to ensure the quality and effect of the medicine for a long time.

1,4-Piperazine diethylsulfonic acid, how soluble is the sodium salt?

The solubility of 1% 2C4-benzoquinone dioxime lanthanum salt is related to many physical and chemical properties. The solubility of this salt varies greatly in different solvents.
In common solvents such as water, the solubility of 1% 2C4-benzoquinone dioxime lanthanum salt is low. Because water is a polar solvent, the polarity of the molecular structure of this salt is not well suited to water. Water molecules are closely connected by hydrogen bonds. To integrate salt molecules into it, it is necessary to overcome the interaction between water molecules and establish new interactions with water molecules. However, the structure of 1% 2C4-benzoquinone dioxime lanthanum salt is difficult to form an effective interaction with water, so the solubility is limited.
If placed in some organic solvents, the situation is different. Organic solvents such as ethanol and acetone have moderate polarity and can form interactions such as van der Waals forces with 1% 2C4-benzoquinone dioxime lanthanum salt molecules, which is conducive to the dissolution of salts. In particular, some organic solvents with specific functional groups may have stronger interactions with salt molecules, resulting in increased solubility.
Temperature is also a key factor affecting its solubility. Generally speaking, when the temperature increases, the solubility of most substances increases, and 1% 2C4-benzoquinone dioxime lanthanum salt is no exception. When the temperature increases, the thermal motion of the molecule intensifies, and the lattice energy of the salt is more easily overcome, which prompts more salt molecules to enter the solution, and the solubility increases accordingly.
In addition, the pH value of the solution may also affect its solubility. The chemical properties of 1% 2C4-benzoquinone dioxime lanthanum salt may change due to the change of pH value, which in turn affects its existence and solubility in the solution. If the pH change can cause reactions such as hydrolysis of the salt, its solubility will be significantly changed.

1,4-Piperazine diethylsulfonic acid, sodium salt Whether there are specific Quality Standards

1% 2C4-thiadiazole dicarboxylate cobalt salt does have specific Quality Standards. This substance is widely used in many fields such as chemical industry and materials, and its quality has a significant impact on the performance of subsequent products.
In terms of chemical purity, high-purity 1% 2C4-thiadiazole dicarboxylate cobalt salt is essential. The presence of impurities not only alters its chemical properties, but may also trigger side reactions in the reaction and interfere with the main reaction process. Usually, its purity needs to reach a very high proportion to ensure stability and reliability in various application scenarios.
Crystal structure is also a key quality indicator. Regular and stable crystal structure is conducive to the performance of this substance. If there are defects or irregularities in the crystal structure, it will affect its physical properties, such as solubility, melting point, etc., which in turn affects its dispersion and compatibility in different systems.
In addition, the particle size distribution is also quite important for 1% 2C4-thiadiazole dicarboxylate cobalt salt. Appropriate particle size can ensure that it is evenly dispersed in the material. If the particle size is uneven, it may lead to local concentrations that are too high or too low, affecting the overall performance of the material. For example, in the preparation of composite materials, particle size differences may cause uneven material properties and reduce the overall quality of the material.
At the same time, stability is also a key point in quality measurement. 1% 2C4-thiadiazole dicarboxylate cobalt salt needs to be stored under certain conditions and for a certain period of time to maintain the stability of its chemical and physical properties, and to avoid decomposition and deterioration due to environmental factors such as temperature and humidity changes, in order to ensure that it can play the expected role in actual use.