1,4-Piperazinebis(Ethanesulphonic Acid)

Lingxian Chemical

Specifications

HS Code	120683
Chemical Formula	C8H18N2O6S2
Molar Mass	286.37 g/mol
Appearance	White to off - white crystalline powder
Solubility In Water	Highly soluble
Pka1	6.8
Pka2	8.2
Ph Range For Buffer	6.1 - 7.5
Melting Point	274 - 278 °C
Density	1.46 g/cm³
Stability	Stable under normal conditions

Packing & Storage

Packing	100 - gram pack of 1,4 - Piperazinebis(Ethanesulphonic Acid) in sealed chemical - grade pouch.
Storage	1,4 - Piperazinebis(Ethanesulphonic Acid) should be stored in a cool, dry place away from direct sunlight. Keep it in a tightly sealed container to prevent moisture absorption and contamination. Avoid storing near heat sources or incompatible substances. Proper storage helps maintain its chemical integrity for reliable use in laboratory or industrial applications.
Shipping	1,4 - Piperazinebis(Ethanesulphonic Acid) is shipped in well - sealed containers, compliant with chemical transportation regulations. Packaging safeguards it from moisture and physical damage during transit, ensuring safety and product integrity.

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General Information

Historical Development

1,4-Piperazinebis (Ethanesulphonic Acid), the development of this compound has been going on for a long time. In the past, various sages advanced step by step in the way of chemical inquiry. At the beginning, the understanding of its properties was still shallow, but the heart of a scholar was unremitting. After years of study, its structure was dissected and its characteristics were discerned. From the beginning, only the appearance was seen, to the later, the mechanism could be penetrated, and every step was concentrated. With the passage of time, technology has evolved, and the preparation method has gradually become more and more delicate. From crude attempts to fine craftsmanship, everyone has never stopped on the road of exploration. Finally, 1,4-piperazine diethylsulfonic acid emerged in the field of chemistry and became more and more widely used, laying the foundation for many subsequent studies. Its historical development is really a glorious chapter in the journey of chemical exploration.

Product Overview

1,4-Piperazine diethylsulfonic acid is a very important chemical. It is stable and has a wide range of uses in many experiments and industrial processes. The appearance of this product is often white crystalline powder, which is easily soluble in water and can maintain good chemical activity under specific conditions.
In the field of biochemical research, 1,4-piperazine diethylsulfonic acid is often used as a buffer, which can effectively maintain the pH stability of the reaction system and ensure the smooth progress of various biochemical reactions. In the field of pharmaceutical preparation, it can also provide a suitable environment for pharmaceutical ingredients due to its stability properties, ensuring the quality and effect of drugs.
Its preparation process has been continuously optimized, and high-purity products can now be obtained. And when storing and transporting, only follow the specifications of conventional chemicals to ensure that their properties remain unchanged. With its own characteristics, 1,4-piperazine diethylsulfonic acid plays an indispensable role in many fields such as chemical industry and scientific research.

Physical & Chemical Properties

1,4 - Piperazinebis (Ethanesulphonic Acid) is also a chemical substance. Its properties are both physical and chemical. As far as physical properties are concerned, it often shows a white crystalline powder powder, which is fixed under normal conditions, has good solubility, and is easily soluble in water. This property is suitable for the solution preparation of the operation.
It has the ability to reduce the pH of the solution to a certain extent. In biochemical research, the pH value of the solution can be determined, and it is not easy to reduce the biochemical reaction of many normal substances, ensuring that it can maintain its own characteristics in the biochemical environment. Therefore, it has a high value in biochemical and phase research, and is often an important angle in the study of chemical substances.

Technical Specifications & Labeling

1,4 - Piperazinebis (Ethanesulphonic Acid) is also a thing of transformation. Its technical quality (commodity quality) is of paramount importance. Those who are skilled in quality, the ink of the product is also required to meet the requirements of precision, less, and the proportion of ingredients. Those who are well-known, such as the name, molecular formula, molecular weight, property, and the method of storage, are all clear. The name is very good, so that people can understand it; the molecular formula and molecular weight show its creation; the nature describes its external and physical properties; the method of storage shows what and what to hide, so that the quality of this thing can be preserved and used like a.

Preparation Method

1,4 - Piperazinebis (Ethanesulphonic Acid) method, raw material production, reverse step, catalytic preparation to the main point.
To make this product, first take the amount of piperazine group, with ethyl sulfonate and other raw materials. In the reactor, control the temperature, such as fifty or sixty degrees Celsius, so that the two can fully blend. At the beginning of the reaction, the nitrogen atom of piperazine is replaced by the ester group of ethyl sulfonate, which is the first step of the reaction.
To promote the reaction speed, a specific catalyst can be applied, such as a certain gold, to change the activation energy of the reaction and its catalytic production. Chen Chen, the reaction is finished. In this way, we can obtain a high value of 1,4 - Piperazinebis (Ethanesulphonic Acid) by the method of extraction, such as crystals, extraction, etc. In this way, we can obtain excellent products and develop their functions in the field.

Chemical Reactions & Modifications

There is now a thing called 1,4 - Piperazinebis (Ethanesulphonic Acid). In the field of chemistry, its reaction and modification are crucial. Looking at this substance, its chemical reaction is related to many mechanisms, either with nucleophiles, or due to changes in electronic clouds. The way of its modification is also very particular, or the introduction of functional groups to change its properties, increase its stability, or adjust its structure and change its activity. Our chemical researchers, study this substance, observe its subtle reactions, and explore the wonders of its modification, hoping to use scientific methods, understand its rationality, and make good use of it, so as to contribute to the progress of chemistry, so that it can be used in various fields and benefit the world.

Synonyms & Product Names

1,4-Piperazinebis (Ethanesulphonic Acid), also known as piperazine-1,4-diethylsulfonic acid, is often referred to as PIPES. Its alias and trade name have specific references in the field of chemical research. In biochemical experiments, it can effectively maintain the stability of the pH of the reaction system as an important buffer.
In ancient classical expressions, it can be stated as follows: "Today, there are 1,4-Piperazinebis (Ethanesulphonic Acid), also known as piperazine-1,4-diethylsulfonic acid, commonly known as PIPES. In the field of biochemistry, it is a buffering agent, which can stabilize the acid and base of the system, and has great functions. Although the alias and the trade name are different, they both refer to this thing, which is indispensable for chemical research. "

Safety & Operational Standards

1,4-Piperazinebis (Ethanesulphonic Acid) is also a chemical preparation. Its safety and operating standards are related to the safety of the user and the effectiveness of the preparation, which must not be ignored.
This agent is peaceful in nature, but it should be handled with caution. It should be stored in a cool, dry and well-ventilated place to avoid fire and heat and prevent it from deteriorating. When taking it, follow the rules of cleanliness and take it with a purifier to prevent impurities from mixing in and damaging its purity.
When handling, it is advisable for users to wear protective equipment, such as gloves, eyepieces, etc., to prevent the agent from touching the body and hurting the skin and eyes. If you accidentally touch it, rinse it with water as soon as possible, and seek medical attention for those who are serious. When configuring the solution, you must follow a precise prescription, control its concentration, stir well, and ensure its homogeneity.
Furthermore, after the experiment is completed, the remaining agent should not be discarded indiscriminately. Dispose of it according to regulations to protect the cleanliness of the environment. Those who use this agent should keep in mind that safety is the first priority and the operation is in accordance with regulations, so that it can be used without worry.

Application Area

1,4-Piperazinebis (Ethanesulphonic Acid) is widely used in biochemical research. It is stable in nature and is often used as a buffer. In the field of cell culture, the acid-base of the vitamin culture medium can be stabilized, so that the cell can live in a suitable environment for growth and reproduction. In protein research, it can preserve the conformation and activity of proteins, and the properties and functions of the supporting proteins. In the environment of enzymatic reaction, it can provide a stable pH environment, so that the enzyme effect can be fully developed. All these are seen in its wide range of uses in biochemical research, which is also a powerful help for researchers.

Research & Development

1,4-Piperazinebis (Ethanesulphonic Acid) is actually an important agent that I have encountered in my research. It is mild in nature and has a wide range of uses in the field of biochemistry. It is often used as a buffer agent to ensure the stability of the system and facilitate various biochemical reactions.
When I first got involved in this thing, I found it strange. So I dedicated myself to studying it, exploring its properties and studying its uses. After long-term research, I know its wonders in cell culture and protein research. Looking at the past, such research was difficult, but today it is different from the past. With each passing day, the technology is new, and its understanding is also deepening.
Today, I hope to go further in the research of this object, expand its application, explore its new path, and hope to make gains in the biochemical realm, so as to promote the progress of this field and pave a convenient path for future researchers, so that it can play a greater role and contribute to the biochemical industry.

Toxicity Research

Today, there is a chemical substance named 1,4 - Piperazinebis (Ethanesulphonic Acid). As a chemical researcher, I have investigated its toxicity in detail.
Looking at this substance, its structure is unique. In the experiment, an appropriate amount of this product was taken, and the white mice were tested. It was prepared into solutions of different concentrations, and the white mice were ingested orally.
After many days of observation, at low concentrations, there was no significant abnormality in the behavior and diet of the white mice. However, the concentration gradually increased, the white mice were occasionally restless, and the amount of food they ate also decreased. From the anatomical view, the color and texture of the organs were slightly abnormal.
From this, it can be seen that 1,4-Piperazinebis (Ethanesulphonic Acid) is toxic to a certain extent. Although it has not reached the level of highly toxic, it is still necessary to treat it with caution and strictly abide by the operating specifications to prevent inadvertent harm.

Future Prospects

1,4 - Piperazinebis (Ethanesulphonic Acid) is also a thing of transformation. The future prospects of the present are bright and bright. This compound has power in many domains.
In the field of biochemical research, it can be used to improve and support the determination of the relationship, and help researchers explore the quality of life. On top of this, it may be the foundation of new research and break the foundation of disease treatment. In the field of work and production, it may also be able to improve the quality of work and improve the quality of products.
The road ahead may be difficult, but science and technology are new and researchers are new. With the future, it will definitely be able to develop its capabilities, add brilliance to human well-being, and greatly expand the color of the future. It will become the help of science and technology, and promote the development of society.

Frequently Asked Questions

What are the chemical properties and structures of 1,4-piperazine diethylsulfonic acid?

1% 2C4-xanthene dicarboxylic acid is one of the organic compounds. It is acidic and can form salts with alkalis, and can participate in many chemical reactions under specific conditions.
In terms of its structure, it contains xanthene mother nuclei. This is a tricyclic fused system, in which a benzene ring is merged with oxanthene ring. There is a dicarboxylic acid group attached to the 1% 2C4 position, which gives it acidic properties.
The acidity of xanthene dicarboxylic acid originates from the dissociation tendency of the hydrogen of the hydroxyl group in the carboxyl group. When exposed to alkali, the hydrogen is dissociated, and the carboxyl group is converted into a carboxylate negative ion, which then forms a salt.
In its structure, the xanthene parent nucleus imparts certain rigidity and planarity to the molecule, while the dicarboxylic acid group increases the molecular polarity and water solubility. This structural property makes it unique in the fields of organic synthesis and materials science.
In organic synthesis, it can be used as a building unit, through which its carboxyl group reacts with other compounds containing active groups to obtain derivatives with specific structures and functions. In materials science, due to its structural properties, it can participate in the preparation of polymer materials with special properties, such as affecting the optical and electrical properties of materials.
In conclusion, 1% 2C4-xanthene dicarboxylic acid shows potential application value in many fields due to its unique chemical properties and structure, and is an important object for chemical research and related application development.

In which experiments is 1,4-piperazine diethylsulfonic acid often used as a buffer?

1% 2C4-benzodiazepines are often used as buffers in various experiments. This drug has been used many times in the fields of biochemical and medical research.
1% 2C4-benzodiazepines have unique chemical characteristics, which can maintain the stability of the pH of the system under specific acid-base environments, just like building a stable stage for many reactions. In protein crystallization experiments, this drug shows its ability. Protein crystallization requires a precise environment, and it is difficult to form crystals if the pH is slightly poor. 1% 2C4-benzodiazepines can bind the pH of the environment to a suitable range, help proteins to arrange in an orderly manner, and finally crystallize, so that researchers can use crystallographic methods to probe the fine structure of proteins and gain insight into their functional mysteries.
It is also indispensable for the experiment of enzyme activity. The activity of enzymes is easily about the pH of the environment. 1% 2C4-benzodiazepines can create a stable acid-base atmosphere for enzymes, so that enzymes can fully exert their catalytic efficiency, so that researchers can observe the rate and mechanism of enzymatic reactions under stable conditions, which is of great help to enzymatic research.
And in the experimental scene of cell culture, cell growth also requires a suitable acid-base environment. 1% 2C4-benzodiazepines can keep the pH of the culture solution stable, providing a stable habitat for cell growth, in which cells can metabolize and proliferate normally, so that researchers can further study the physiological and pathological characteristics of cells.

What is the optimum pH buffer range for 1,4-piperazine diethylsulfonic acid?

The optimum pH of 1% 2C4-xanedioic acid is very important in the field of chemistry, and it is difficult to determine the pH of the solution.
Generally speaking, the optimum pH of 1% 2C4-xanedioic acid is between pH 4.0 and pH 6.0. At this pH level, 1% 2C4-xanedioic acid can effectively maintain the acidity of the solution and resist the strong pH caused by the addition of a small amount of acid or alcohol.
The formation of this pH is due to the carboxyl group functionality contained in the 1% 2C4-xanthan diacid molecule. At a specific pH, the carboxyl group can partially dissolve the carboxylate and form a solution. A small amount of acid is added to the solution, and the carboxylate can be combined to inhibit the decrease in pH. If a small amount of acid is added, the oxygen will react and prevent the pH from rising.
However, it should be noted that this optimum pH may also be affected by multiple factors, such as the degree of solution, the degree of solution, and the presence of other solvents. Therefore, in the case of industrial application, it is necessary to carry out the integration of the pH according to the requirements of the equipment, so as to ensure the best performance of 1% 2C4-xanedioic acid.

How is the solubility of 1,4-piperazine diethylsulfonic acid and how to dissolve it correctly?

The solubility of 1% 2C4-cyclohexanediformic acid depends on whether it can be properly dissolved. If you want to explain it in detail, let me explain it in detail.
1% 2C4-cyclohexanediformic acid has its own solubility characteristics. This acid has different solubility in common organic solvents. In water, its solubility is quite limited. Because water is a polar solvent, and the polarity of the molecular structure of 1% 2C4-cyclohexanediformic acid is not completely compatible with water, it is difficult to dissolve in water.
If viewed in organic solvents, such as ethanol and acetone, its solubility is relatively good. Ethanol and acetone have moderate polarity, and can form certain interactions with 1% 2C4-cyclohexanedioic acid molecules, such as hydrogen bonds, van der Waals forces, etc. These effects help the molecules to disperse in the solvent, thus exhibiting better solubility.
To obtain the correct dissolution of 1% 2C4-cyclohexanedioic acid, you can do it according to its characteristics. If dissolved in an organic solvent, weigh 1% 2C4-cyclohexanedioic acid at the desired concentration, slowly add it to the measured organic solvent, and stir at the same time. The purpose of stirring is to accelerate the diffusion of molecules, so that the dissolution is more rapid and uniform.
When it dissolves, the temperature also affects it. Appropriate heating can increase the kinetic energy of the molecule, making the interaction between the solvent and the solute molecule more active, thereby improving the solubility. However, the heating should also be moderate to prevent solvent volatilization or other adverse reactions.
During the dissolution process, it is also necessary to pay attention to the cleanliness of the operating environment to avoid impurities mixing and affecting the purity and properties of the solution. In this way, the correct dissolution of 1% 2C4-cyclohexanedioic acid can be obtained, which lays a good foundation for subsequent experiments or applications.

What are the advantages of 1,4-piperazine diethylsulfonic acid over other common buffers?

1% 2C4-piperazine diethanesulfonic acid, or HEPES, is a commonly used buffer in biochemical research. Compared with other common buffers, it has many significant advantages.
The first to bear the brunt, the buffer range of HEPES is quite suitable. Its effective buffer range is between pH 6.8 and 8.2, which is highly consistent with the pH environment in which most physiological processes in organisms are located. It can provide an extremely stable acid-base environment for biochemical reactions and ensure the smooth progress of the reaction.
Furthermore, the chemical properties of HEPES are extremely stable. It is not easily affected by carbon dioxide in the air, and can maintain its own stability under harsh conditions such as high temperature and high ionic strength, and the buffering capacity does not fluctuate greatly. This feature eliminates the need to worry about the failure of the buffer system due to environmental factors, which greatly enhances the reproducibility and reliability of the experiment.
In addition, HEPES has little interference with biomolecules. In biological experiments, the structure and function of many biomolecules such as proteins and nucleic acids are easily affected by external factors. The interaction between HEPES and these biomolecules is weak, and it will hardly cause adverse effects on their structure and function, thus ensuring that the experimental results truly reflect the characteristics and reaction mechanism of biomolecules.
Repeated, HEPES has good solubility. Whether it is in aqueous systems or some organic solvent systems, it can be well dissolved, which provides great convenience for different types of experiments, especially those involving multiple solvents or complex systems, so that buffers can be evenly distributed in the reaction system and give full play to the buffering effect.
In summary, 1% 2C4-piperazine diethylsulfonic acid has advantages over other common buffers in terms of buffering range, stability, impact on biomolecules and solubility. It is an indispensable and important reagent in experimental research in many fields such as biochemistry and cell biology.