Piperazine-1,4-Bis(2-Ethanesulfonic Acid) Sesquisodium Salt

Lingxian Chemical

Specifications

HS Code	991887
Chemical Formula	C8H16N2Na3O6S2·1.5H2O
Molecular Weight	401.37 g/mol
Appearance	White to off - white powder
Solubility	Soluble in water
Ph Range	6.1 - 7.5 (0.1M solution)
Pka1	6.8
Pka2	8.2
Buffering Capacity	Effective buffer in the pH range of 6.4 - 8.0
Storage Condition	Store at room temperature, keep container tightly closed
Stability	Stable under normal conditions
Cas Number	108321-03-9

Packing & Storage

Packing	100 - gram pack of Piperazine - 1,4 - Bis(2 - Ethanesulfonic Acid) Sesquisodium Salt.
Storage	Piperazine - 1,4 - Bis(2 - Ethanesulfonic Acid) Sesquisodium Salt should be stored in a cool, dry place. Keep it away from sources of heat, ignition, and moisture. Store in a tightly - sealed container to prevent exposure to air, which could lead to degradation. Additionally, ensure storage area is well - ventilated and away from incompatible substances to maintain its chemical integrity.
Shipping	Piperazine - 1,4 - Bis(2 - Ethanesulfonic Acid) Sesquisodium Salt is shipped in containers designed to prevent leakage. It requires proper handling to avoid damage, with strict transport regulations due to its chemical nature.

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Piperazine-1,4-Bis(2-Ethanesulfonic Acid) Sesquisodium Salt

General Information

Historical Development

I have tasted all kinds of chemical products, each has its own source, Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt This product has also undergone evolution. At the beginning, the art of chemistry was not refined, and the road to exploration was long. At that time, the sages repeatedly studied various methods of chemical synthesis.
Over the years, science and technology have gradually developed, and the deeper the understanding of its structure and characteristics. The craftsmen improved the method of preparation with ingenuity and diligence. From the crude method at the beginning to the exquisite craftsmanship today, it was difficult to describe.
In the past, it relied on manpower, time-consuming and laborious, and the finished product was not perfect. After the instrument is refined, the analysis is meticulous, and the quality is better. From this perspective, the development of this product is actually due to the hard work of the wise men of all dynasties, and it has today's appearance.

Product Overview

Today there is a thing called Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt. This is finely made and has unique characteristics. Its quality is pure and stable, and it is useful in many fields. Looking at its shape, or in the shape of a powder, it is white and uniform in color, delicate and considerable. It is indispensable in biochemical experiments and pharmaceutical research and development. It can adjust the acid and alkali of the solution, keep the environment suitable, make the reaction smooth, and achieve excellent results. With its characteristics, it can help researchers explore the details, solve difficult problems, and promote the progress of learning. Although its name is complex and stubborn, it is the way of scientific research, which is a treasure of helping, silently contributing its energy to the advancement of biochemical medicine.

Physical & Chemical Properties

Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt is a special chemical substance. Its physical and chemical properties are crucial. Looking at its morphology, it often takes a specific shape, or is a powder, or a crystalline state, which is related to its microstructure and molecular arrangement. Regarding solubility, it may be soluble or slightly soluble in a specific solvent, which is caused by the interaction of intermolecular forces and the properties of the solvent. Its stability cannot be ignored. Under different environmental factors such as temperature and humidity, it can maintain its inherent structure or undergo chemical changes, which is determined by the strength and activity of its chemical bonds. Its pH and other properties also have a profound impact on its application field, which is the key point that needs to be explored in detail in chemical research.

Technical Specifications & Labeling

Today there is Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt. Its technical specifications and identification (product parameters) are the key. Regarding its technical specifications, it is necessary to determine its purity geometry, impurity content, physical and chemical properties such as melting point and solubility. In terms of identification, the name must be accurate and not ambiguous, and the product parameters should also be clearly listed, such as molecular weight, molecular formula, etc., so that everyone can know its characteristics at a glance. This is all about the quality and application of the product. It must not be ignored. It must be treated with rigor to ensure that it is suitable for various purposes.

Preparation Method

This product is made of Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt. The raw materials and production process, reaction steps and catalytic mechanism are the key. First take an appropriate amount of piperazine, supplemented by a precise proportion of 2 - chloroethane sulfonic acid, in a special reactor, control the appropriate temperature and pressure, add a specific catalyst to initiate the reaction. At the beginning of the reaction, closely monitor the parameters and fine-tune them in a timely manner. When the reaction is expected to approach gradually, after multiple purification processes, impurities are removed and purity is improved. To obtain this product, the process needs to strictly abide by the procedures. Every step is related to the quality of the product. Don't slack off, so that the product meets the required standards.

Chemical Reactions & Modifications

Taste the wonders of chemical industry, it is related to the change of all things. Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt This product, in the field of chemistry, its reaction and modification are worth studying.
View its reaction, in a specific environment, molecules touch each other, such as dancers join joints, follow the laws of chemistry, or break bonds and recombine, or add or delete groups. The process is subtle, and changes in temperature, pressure, and medium need to be observed. If there is a slight difference, the results will be very different.
As for modification, it is designed to give it new energy. Or make it more stable to resist environmental disturbances; or add activity to suit diverse needs. After ingenious design and adjustment of its structure, the performance is improved. This is the focus of chemical researchers. We can turn the ordinary into the miraculous, and see the extraordinary at the end.

Synonyms & Product Names

Today there is a thing called Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt. This is a chemical product, which is quite useful in the field of scientific research. It also has another name, but for the sake of accuracy, it is often called by its scientific name.
This substance can be used in experiments for specific purposes to help researchers explore the mysteries of chemistry. Although it has another name, the scientific name can confirm its characteristics and avoid confusion.
Viewed with the rigor of scientific research, this name is like a logo, clear and clear, so that everyone can use it accurately. Although it may have a popular name, it is necessary to use this scientific name in formal research to maintain academic norms and to ensure that the research results can be accurately transmitted without ambiguity.

Safety & Operational Standards

Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt is also a chemical product. Its safety and operating practices are related to the safety of the experimenter and the smooth progress of the research, and must not be ignored.
When using this product, wash your hands, wear appropriate protective clothing, such as lab clothes, gloves, and wear goggles to prevent it from touching your skin and eyes. If you accidentally touch it, rinse it with plenty of water immediately. If you feel unwell, seek medical attention as soon as possible.
When storing, it should be placed in a dry, cool and well-ventilated place, away from fire and heat sources, and avoid mixing with oxidizing substances to prevent accidents.
During the operation, it must be carried out in the fume hood. If heating is required, it must not be done directly with an open flame. When using suitable heating equipment, and strictly control the temperature. When stirring, the action should be slow and the solution should not be splashed out.
This waste must also be disposed of in accordance with relevant regulations, and cannot be discarded at will to avoid polluting the environment.
In short, although Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt is commonly used in research, safety and operation specifications must be kept in mind, so as to ensure the safety of the experiment and the orderly progress of the research.

Application Area

Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt is a chemical substance. Its application field is quite wide. In the field of biochemical research, it is often used as a buffer. Because it can stabilize the pH of the solution, the biochemical reaction can be carried out in a suitable environment.
In the field of pharmaceutical research and development, it can also be seen. Or help the stability of drugs and ensure the development of drug effects. And because of its chemical properties, or in the process of pharmaceutical preparations, it helps to form the ideal form and increases the dissolution and bioavailability of drugs.
In the field of cell culture, it can create a suitable acid-base environment for cells, promote cell growth, reproduction, and maintain normal physiological functions of cells. This is the specialty of Piperazine - 1, 4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt, which is of great value in various application fields.

Research & Development

The industry of chemical industry is related to people's livelihood, and there is something in it, which is called Piperazine-1,4-Bis (2-Ethanesulfonic Acid) Sesquisodium Salt. I have devoted myself to the research, at the beginning, analyzing its properties, observing its shape, solubility and stability, all of which are recorded in detail. Re-exploring its use in various fields, medical medicine can adjust the acid and base of body fluids, and protect the state of cells; biochemical research can be used as a medium for reaction and promote its smooth progress.
However, if you want to use it widely, you still need to cultivate it deeply. The method of craftsmanship is to seek its simplicity and refinement, reduce its consumption and increase its production. And explore its new path, hoping that the genus of electronics and materials can also emerge. With unremitting research, we can promote the progress of this product and make it more beneficial. It can contribute to scientific research and industry, and contribute to the prosperity of the industry.

Toxicity Research

I have dedicated myself to the study of poisons, and recently focused on Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt. It has occasionally appeared in various chemical uses, but its toxicity is unknown. It is related to the health of living beings and cannot be ignored.
I have searched ancient books and tested it with various wonderful methods. Observe its phase integration with other substances and observe the changes in its entry into the body. After months of study, I have first obtained clues. Under specific conditions, or toxic side effects, this substance can damage the functions of the viscera. Although it is not fully understood, it is sufficient to prove its toxicity.
In the future, we should conduct thorough investigation to clarify the details of its toxicology, and find evidence for protection and application. We hope to avoid disasters and ensure health for the world.

Future Prospects

The industry of chemical industry is changing with each passing day, and all kinds of wonderful things are emerging in an endless stream. Today there is Piperazine - 1, 4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt, which is really a treasure of chemical industry. Looking at its current application, it is becoming more and more widely used, and it has shown miraculous effects in various fields.
Looking to the future, its development can be expected. With the advance of technology and the increasing demand, this product will also be refined. Or in biomedicine, helping research and development to make the treatment of diseases more accurate; or in material science, adding bricks and tiles to make the material more outstanding. Our generation of chemical researchers should do their best to explore its infinite possibilities, hoping that in the future, they will be able to shine, work for the well-being of the world, and achieve a brilliant new chapter in chemical industry.

Frequently Asked Questions

What is the chemical structure of Piperazine-1,4-Bis (2-Ethanesulfonic Acid) Sesquisodium Salt?

Piperazine-1,4-bis (2-ethanesulfonic acid) sesquinone salt, this is the name of a chemical substance. Its chemical structure is quite complex, let me elaborate.
The main structure of this substance is a piperazine ring, which has the shape of a six-membered nitrogen-containing heterocycle. The nitrogen atoms on the ring are chemically active and can form bonds to participate in the reaction. At the 1,4 positions of the piperazine ring, each is connected with a (2-ethanesulfonic acid) group. This group is composed of an ethane chain linked to a sulfonic acid group, which is strongly acidic and can ionize hydrogen ions, making the substance acidic in solution.
And the so-called sesquinone salt means that the ratio of sodium ions to the main structure is 1.5:1. Sodium ions are exchanged with hydrogen ions ionized from the sulfonic acid group to form a sodium salt structure. In this way, this substance contains both organic piperazine and sulfonic acid structures and inorganic sodium ions. The interaction between the organic and inorganic parts gives the substance unique physical and chemical properties. It has a wide range of uses in many chemical and biological fields, such as the preparation of buffers.

What are the main uses of Piperazine-1,4-Bis (2-Ethanesulfonic Acid) Sesquisodium Salt?

Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt, the Chinese name is often PIPES times and a half. This product is very useful and is often used in multiple fields such as biochemistry and chemistry.
First, it is very important in biological chemistry. Because of its specific pH, the temperature is between 6.1 and 7.5, which can keep the inverse system in a certain acidity environment. In the study of biological macromolecules such as proteins and enzymes, the specific pH is very important to avoid the change of the properties or activities of biological macromolecules due to pH waves. For example, in the determination of enzyme activity, PIPES can be used to precisely control the pH value of the reaction solution, and the enzyme can be used in the most suitable environment to ensure the reliability and reliability of the fruit.
Second, in the field of cell culture, it also plays an indispensable role. The environment of cell production is demanding, and the acidity is one of the factors. PIPES can be used as one of the three parts of the cell culture solution, and the pH of the cell culture solution can be determined. The cell provides a stable living environment like the general environment, which is beneficial to the normal growth, proliferation and maintenance of various physiological functions of the cell.
Third, in the chemical synthesis, some chemical reactions can only be performed under specific pH conditions. PIPES is half as good as it is. Thanks to its performance, it can synthesize chemical reactions and create a certain acid environment. For example, in some synthetic reactions, it can avoid the generation of side reactions due to the change of acidity in the reaction process, and improve the efficiency of the target substance.

How soluble is Piperazine-1,4-Bis (2-Ethanesulfonic Acid) Sesquisodium Salt?

Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt, this is a chemical substance. Its solubility is quite important, and it is related to the process of many chemical experiments and industrial applications.
Looking at this substance, its solubility is really related to many factors. The first one to bear the brunt is the characteristics of solvents. Among common solvents, water is the source of all things, and many substances have different solubility in water. This salt substance may have a certain solubility in water because it contains sulfonic acid groups in its own structure and is hydrophilic.
Furthermore, temperature is also a key factor. Generally speaking, when the temperature increases, the thermal movement of molecules intensifies, and the diffusion rate of substances in solvents accelerates, and the solubility may be enhanced. However, there are also special cases where the solubility of some substances does not change much or even decreases with increasing temperature. For this Piperazine-1,4-Bis (2-Ethanesulfonic Acid) Sesquisodium Salt, when heated, it may be able to cause it to dissolve better in the solvent.
In addition, the pH value of the solution should not be underestimated. Because it is a sodium-containing salt, the change of the pH value of the solution may affect the degree of ionization, which in turn affects the solubility. In an acidic environment, the sulfonic acid group or protonation causes its solubility to change; in an alkaline environment, its ionic state may be more stable, and its solubility may be different.
To know its solubility for sure, it needs to be determined through rigorous experiments. You can measure a certain amount of the substance, gradually add different solvents, observe the dissolution status, and record the temperature, pH value, and other conditions required for dissolution, so that you can accurately grasp its solubility characteristics and make good use of it in practical applications.

What are the precautions for using Piperazine-1,4-Bis (2-Ethanesulfonic Acid) Sesquisodium Salt?

Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt, that is, piperazine - 1,4 - bis (2 - ethanesulfonic acid) sesquisodium salt, when using this product, you need to pay attention to many matters.
The first thing to pay attention to is its solubility. Its solubility in water is very critical. When preparing the solution, the water temperature, stirring time and strength will all affect the dissolution process. If the water temperature is too low, the dissolution may be extremely slow, or even difficult to completely dissolve; if the stirring is insufficient, it is easy to cause local uneven concentration.
Furthermore, the regulation of pH value is crucial. This compound is often used in buffer systems, and the pH value of the system must be accurately measured and regulated when used. Due to changes in environmental pH, or its buffering capacity changes, which in turn affects the effect of experiments or production.
Stability should not be ignored. Pay attention to temperature, humidity and light conditions when storing. High temperature, high humidity environment or strong light direct exposure may promote chemical changes and reduce its purity and activity. When stored for a long time, a dry, cool and dark place should be selected.
Repeat, safety protection should not be ignored. Although its toxicity or relatively low, it is still necessary to avoid direct contact with the skin and eyes during operation. In case of accidental contact, rinse with plenty of water immediately and seek medical attention according to specific conditions.
Finally, the dosage must be precisely controlled. Accurately calculate and measure the required dosage according to different use purposes and system requirements. If the dosage is too small, the desired effect may not be achieved; if the dosage is too large, it may cause adverse reactions in the system and may also cause waste. Only by careful treatment of all details can this compound be properly used to achieve the desired purpose.

How stable is Piperazine-1,4-Bis (2-Ethanesulfonic Acid) Sesquisodium Salt?

Piperazine - 1,4 - Bis (2 - Ethanesulfonic Acid) Sesquisodium Salt, this is a chemical substance, and its stability is related to many aspects.
In terms of chemical structure, the substance contains a piperazine ring, and the 1 and 4 positions of the ring are connected with a 2-ethanesulfonic acid group, and it also has a sodium sesquidine salt structure. The piperazine ring is relatively stable, because it is a hexamembered heterocycle, it has certain aromatic properties and can exist stably. In the sulfonic acid group, the strong covalent bond formed between the sulfur atom and the oxygen atom makes the sulfonic acid group relatively stable and difficult to decompose. However, the sulfonic acid group is easy to react with metal ions. If there are other metal ions in the system, its stability may be affected.
From the perspective of environmental factors, when the temperature increases, the thermal motion of molecules intensifies, or the vibration of chemical bonds is enhanced. If it reaches a certain degree, some chemical bonds may be broken, which affects the stability. The stability of the substance is also different in different pH solutions. It is too acidic or alkaline, or causes structural changes. In a strongly acidic environment, piperazine ring nitrogen atoms or protons change the molecular charge distribution and structure; in a strongly alkaline environment, sulfonic acid groups may react, affecting the overall stability.
In addition, light may also affect its stability. Specific wavelengths of light energy or excite intramolecular electron transitions, triggering photochemical reactions and causing structural changes.
In order to maintain its stability during storage and use, it is necessary to control the ambient temperature, pH, and avoid strong light exposure. In this way, the stability of the substance can be ensured and its original chemical properties and functions can be maintained.