1,4-Piperazinediethanesulfonic Acid

Lingxian Chemical

Specifications

HS Code	181307
Name	1,4-Piperazinediethanesulfonic Acid
Formula	C8H18N2O6S2
Molar Mass	294.37 g/mol
Appearance	White crystalline powder
Solubility	Soluble in water
Ph Range	6.1 - 7.5
Pka1	6.8
Pka2	8.2
Stability	Stable under normal conditions
Melting Point	274 - 275 °C
Density	N/A (powder)

Packing & Storage

Packing	100 - gram pack of 1,4 - Piperazinediethanesulfonic Acid in a sealed plastic pouch.
Storage	1,4 - Piperazinediethanesulfonic Acid should be stored in a cool, dry place. Keep it in a tightly - sealed container to prevent moisture absorption, as it can be hygroscopic. Avoid storage near sources of heat or ignition. Store away from incompatible substances like strong oxidizing agents to prevent potential chemical reactions that could compromise its integrity.
Shipping	1,4 - Piperazinediethanesulfonic Acid is shipped in well - sealed containers, compliant with chemical transport regulations. Packaging ensures protection from moisture and damage during transit to maintain product integrity.

Free Quote

For samples, pricing, or more information, please call us at +8615651039172 or mail to info@bouling-chem.com.

We will respond to you as soon as possible.

Tel: +8615651039172

Email: info@bouling-chem.com

General Information

Historical Development

1,4 - piperazine diethylsulfonic acid (1,4 - Piperazinediethanesulfonic Acid), the origin of its substance, quite a source. In his early years, various sages explored diligently on the road of chemical research. At that time, chemical technology was not as sophisticated as it is today, but everyone was determined. After years of study, several generations of chemists have worked hard to figure out various reactions and material properties. Finally, at some point, this compound was obtained. At first, it was only the result of the laboratory, little known. After years of circulation, everyone found that it has extraordinary effects in many fields, such as biological experiments and chemical processes. Then it gradually expanded its application, from a corner of the laboratory to a wide range of people, emerging on the stage of chemistry and related industries. Its development process is really a fascinating chapter in the history of chemical exploration.

Product Overview

1,4 - Piperazinediethanesulfonic Acid is an important chemical. It is stable and often used in biochemical research and other fields. The appearance of this product is mostly white crystalline powder, soluble in water, with good buffering properties. In experiments, it is often used as a buffer to maintain the stability of the pH value of the system and ensure a suitable reaction environment. The preparation method is carefully controlled by a specific chemical synthesis path. In many scientific research applications, it plays a key role in the study of biological macromolecules and the determination of enzyme activity. It is also a commonly used reagent for biochemical experiments.

Physical & Chemical Properties

1,4 - Piperazinediethanesulfonic Acid, the rationalization of this material is of paramount importance. Its properties are often white crystalline powder, with good solubility, soluble in water, this property makes it in the polychemical and biological systems can be widely used. Its melting value has a specific value, and it can be known that this value is necessary to control the phase. In addition, its acidity also has a certain degree. In a specific solution environment, it can be used to solve the acid balance of the phase. In addition, the physicochemical properties of 1,4 - Piperazinediethanesulfonic Acid, which lays a foundation for its use in multiple fields, helping researchers to develop their delicate research according to their characteristics.

Technical Specifications & Labeling

1,4 - Piperazinediethanesulfonic Acid is an essential product of the chemical industry. Its technical specifications and labels (commodity parameters) are related to the quality and cannot be ignored. The technical specifications of this product must follow a rigorous system, and the selection of raw materials must be pure and flawless; the synthesis method should follow the precise order, and the temperature and humidity control must also be appropriate. As for the identification, the parameters of the product name, composition, and purity should be clear and clear, so that the user can see at a glance. In this way, the quality of this product can be guaranteed, and its ability can be fully displayed in various applications, so as not to risk misuse, and the technical specifications and labels (commodity parameters) must fulfill their responsibilities to become a good product.

Preparation Method

The preparation method of 1,4-piperazine diethylsulfonic acid (1,4-Piperazinediethanesulfonic Acid) is of great importance in raw material production. First, the piperazine is mixed with an amount of ethanesulfonic acid. In the reactor, the mixture is controlled by mixing, so that the two are fully blended. The reverse step is to put in the raw materials in sequence according to the proportion of the fine, and control the reaction. After the reaction is completed, the obtained mixture is extracted by the method of precipitation and purification. As for the catalytic preparation and efficient catalysis, the reaction can be accelerated and the reaction rate can be improved. In this way, the high-quality 1,4-piperazine diethylsulfonic acid can be obtained, which is needed for general engineering and scientific research.

Chemical Reactions & Modifications

Today, there are 1,4 - Piperazinediethanesulfonic Acid. In chemical research, its chemical reactions and modifications are worth exploring. The beauty of chemistry depends on the change of matter. The reaction of this compound is related to many chemical mechanisms. To understand its reaction, it is necessary to examine the conditions, such as temperature and solvent, which are all affected. The way of modification, or the change of functional groups, is involved in order to improve the quality. Chemists work hard to find the best way to explore its potential, add new colors to the field of chemistry, and help the expansion of various applications. It is of great significance in scientific research and practical applications.

Synonyms & Product Names

1,4 - Piperazinediethanesulfonic Acid, which is quite important in the field of biochemistry. Its synonymous name, or piperazine-1,4-diethylsulfonic acid. The name of the commodity, also follow this name.
Looking at ancient books, although this thing is not directly described, the principle of biochemistry is the same in ancient and modern times. This product is an important agent for scientific research. In many experiments, it is often a buffer choice. Its nature is peaceful, it can stabilize the acid and base of the solution, and make the reaction smooth.
Think of the wisdom of the ancient world. If you are in this situation, you should also pay attention to its nature and study its use. Although there is a gap in time and space, the heart of seeking knowledge is in the same vein. Today's researchers, leveraging the benefits of science and technology, explore its quality in detail, and hope to gain more understanding in the path of biochemistry, so as to benefit the world.

Safety & Operational Standards

1,4-Piperazine diethylsulfonic acid (1,4-Piperazinediethanesulfonic Acid) is a reagent commonly used in our chemical research. Safety and operating standards are of paramount importance in its experimental use.
First of all, it is about safety. Although this reagent is not extremely dangerous, it should not be taken lightly. It should be stored in a dry, cool and well-ventilated place, away from fire and heat sources. If it is heated or may decompose, it will produce harmful gases that endanger the safety of the experimenter. When using it, be sure to wear appropriate protective equipment, such as gloves and goggles, to prevent the reagent from coming into contact with the skin and eyes, causing discomfort and even injury.
Furthermore, the operating standards should not be underestimated. When configuring the solution, the reagents should be accurately weighed according to the precise requirements of the experiment. The dissolution process requires patient stirring to ensure that it is fully dissolved. And pay attention to the choice of solvent, usually water is appropriate, but some special experiments may require other solvents. At this time, it is necessary to choose carefully and act strictly according to the experimental requirements. During the reaction process, pay close attention to the reaction conditions, such as temperature, pH, etc. 1,4-piperazine diethyl sulfonic acid is often used as a buffer to adjust the pH, so it is essential to control the pH of the reaction system. After the experiment is completed, properly dispose of the remaining reagents and reaction products, and must not discard them at will to avoid polluting the environment.
Strict adherence to safety and operating standards can ensure that 1,4-piperazine diethylsulfonic acid plays its due role in the experiment, and also ensures the personal safety of the experimenter and the cleanliness of the experimental environment.

Application Area

1,4-Piperazine diethylsulfonic acid (1,4-Piperazinediethanesulfonic Acid), this substance has a wide range of uses in the field of biochemistry. In the context of cell culture, it can stabilize the pH of the medium, make the cell safe in a suitable acid-base environment, and grow smoothly. In protein research, it is also indispensable, which can protect the structure and function of proteins and help them maintain their natural state. In the enzymatic reaction system, it can adjust the reaction environment, maintain the activity of enzymes, and make the reaction occur in an orderly manner. It is a key element in many biochemical experiments and biotechnology processes, helping researchers in the microscopic environment, exploring the mystery of life, and unraveling the secrets of biochemistry. It has important application value in many fields such as biomedicine and bioengineering.

Research & Development

Those who have studied chemical substances in modern times have studied this substance in 1,4-Piperazinediethanesulfonic Acid. It is specific in nature and has a wide range of uses. At the beginning, people's understanding of it was still shallow, and only a few or two of its characteristics were known. However, researchers are reluctant to explore, and after years of study, their understanding of its structure and characteristics has gradually deepened.
Researchers use scientific methods and rigorous states to analyze its components and measure its properties. After repeated experiments, it is known that it can be used as a buffering agent in biochemical reactions to maintain the stability of the environment. And it also has unique uses in the fields of medicine and biotechnology, either to assist in the production of drugs or to benefit the nourishment of cells.
From the initial ignorance to the current clarity, this is the unremitting work of the researcher. In the future, it is expected that it will be able to demonstrate great achievements in various fields, promote the progress of science and technology, and help the development path. The prospects are broad and can be expected to be great.

Toxicity Research

Scholars who have heard of the ancient times have studied the properties of matter and tried their best. In this sentence, 1,4 - Piperazinediethanesulfonic Acid, the study of its toxicity is related to people's livelihood and academic theory, and cannot be ignored.
To understand its toxicity, we should use a rigorous method to observe its response to various things. Or try insects to observe the change of its form and spirit; or test it on plants and trees to observe its prosperity and withering. And observe its toxicity in different situations.
Also think about it, the appearance of toxicity, or the amount of quantity, or the length of time. Therefore, when exploring, the control of measurement and time is particularly critical. If the quantity is improper, the time is unlimited, and the conclusion is difficult to determine.
Scholars should study the toxicity of 1,4-Piperazinediethanesulfonic Acid with caution, and use it for later generations to avoid its harm and promote its benefits, so as to live up to the responsibility of studying.

Future Prospects

In the future, in 1, 4 - Piperazinediethanesulfonic Acid, its use has been greatly improved. Today, this acid is often used in biochemical research, and it can determine the pH value of the solution, so that it can be used for many purposes.
Looking forward to the future, science and technology are improving, and it is expected that its use will expand. In the field of bioengineering, gene modification, protein extraction, etc. are also expected to use their power to make the operation more refined and achieve better results.
In addition, this acid may be applied to water and other methods, with its characteristics, in addition to water and water properties. In addition, 1,4 - Piperazinediethanesulfonic Acid has not yet been developed, and it is hoped that it will be able to add new colors.

Frequently Asked Questions

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

1% 2C4-diisooctyl phthalate, also known as DEHP, is an organic compound. It has the following chemical properties:
Under normal conditions, it is a colorless, transparent and slightly odorous viscous liquid. In terms of solubility, it is difficult to dissolve in water, but it can be miscible with most organic solvents, such as common ethanol, ether, acetone, etc. This property is related to the long-chain alkyl group and benzene ring contained in its molecular structure. The lipophilicity of long-chain alkyl group and benzene ring makes it have good solubility in organic solvents.
In terms of thermal stability, 1% 2C4-diisooctyl phthalate is quite excellent. Its physical and chemical properties are relatively stable within a certain temperature range, and it is not easy to decompose when heated. Therefore, it is often used in the production of some plastic products that need to withstand a certain temperature environment.
Chemical stability is also good. Under normal conditions, it is not easy to chemically react with acids and alkalis. This property ensures that it can maintain stability in plastic products for a long time, and it is not easy to deteriorate due to changes in the external acid and alkali environment, ensuring the performance of plastic products.
However, it is necessary to pay attention to its toxicity. Although it is relatively stable in conventional use, if it enters the human body, it will pose a threat to health. Due to its endocrine disrupting effect, it may affect the balance of human hormones, interfere with normal physiological functions, and have adverse effects on the reproductive system and immune system.
In the industrial field, 1% 2C4-diisooctyl phthalate is often used as a plasticizer. Adding it to plastics can enhance the flexibility, plasticity and processing properties of plastics. It is widely used in the production of polyvinyl chloride (PVC) plastic products, such as films, artificial leather, cable materials, etc.

In which experiments is 1,4-piperazine diethylsulfonic acid commonly used?

1% 2C4-pyridinedicarboxylic acid is commonly used in many experiments. In chemical synthesis experiments, it is often used as a ligand. Due to its unique molecular structure and coordination ability, it can be combined with metal ions to synthesize metal-organic complexes with specific structures and properties. These complexes have shown extraordinary potential in the field of catalysis, such as acting as efficient catalysts in some organic reactions, speeding up the reaction process and increasing the reaction yield.
In materials science experiments, 1% 2C4-pyridinedicarboxylic acid also plays a key role. By self-assembling with metal ions, metal-organic framework materials (MOFs) with special pore structures can be prepared. This type of material has excellent performance in gas adsorption and separation, and can efficiently adsorb and separate specific gases. For example, for the capture and separation of gases such as carbon dioxide, such materials have potential application value.
In the field of biomedical experiments, 1% 2C4-pyridine dicarboxylic acid cannot be ignored. Because of its certain biocompatibility, it can be used as a building material for drug carriers. Loading drugs on a carrier based on 1% 2C4-pyridine dicarboxylic acid can achieve controlled release of drugs, improve the efficacy of drugs, and reduce the toxic and side effects of drugs on normal tissues. In addition, in some biological detection experiments, it can also be used as a component of fluorescent probes to detect the content and distribution of specific substances in living organisms, assisting researchers in delving deeper into physiological and pathological processes in living organisms.

What are the storage conditions for 1,4-piperazine diethylsulfonic acid?

1% 2C4-terephthalic acid is also an important product in the chemical industry. Its storage conditions are related to the quality of quality and the safety of use, which cannot be ignored.
Store 1% 2C4-terephthalic acid, the first heavy dry. This material likes to be dry but not wet. If it is wet, it is easy to absorb moisture, cause qualitative changes and damage its use. Therefore, when placed in a dry place, and the surrounding humidity should be controlled at a low level, such as relative humidity not exceeding 40%.
It is better to avoid heat. 1% 2C4-terephthalic acid is prone to change when heated, and the temperature is too high, or cause it to melt and decompose. It is the temperature of Tibet, and it is best to keep it at room temperature, about 20 ℃ - 30 ℃. If it is in hot summer, there should be measures to reduce the heat to prevent damage from high temperature.
It is also necessary to prevent oxidation. This product is prone to oxygen corrosion in the air, causing color change and poor quality. Therefore, when stored, it can be sealed in an airtight device to reduce the contact with the air, or filled with inert gas such as nitrogen in the device to protect it from oxygen invasion.
And its storage should be well connected. To prevent the accumulation of harmful gas, if there are scattered micro-matter, it can be quickly discharged and the environment is safe. At the same time, it should be stored separately with other things, avoiding strong oxygen agents, acids, alkalis, etc., which will cause chemical reactions to be close to it, so as to avoid danger to life.
To store 1% 2C4-terephthalic acid, it is necessary to observe the principles of dryness, moderate temperature, anti-oxidation, good communication and separate storage to ensure its purity and stability, so as to prepare it for industrial use.

Effect of the Purity of 1,4-Piperazine Diethylsulfonic Acid on the Experiment

The purity of 1% 2C4-naphthoquinone sodium disulfite has a great impact on the experiment. If the purity is insufficient, it is like a good material is flawed, and the experimental results will be subject to error.
1% 2C4-naphthoquinone sodium disulfite of high purity has a regular and orderly molecular structure and few impurities. In the reaction, it can accurately fit the reaction path, just like the interlocking of mortise and tenon, so that the reaction advances in the expected direction. The purity and yield of the product can be guaranteed, and the data is stable and reliable. If a boat is sailing on a calm lake, the trajectory can be followed.
On the contrary, if the purity is not good, impurities are mixed in, and it is like being mixed with foreign troops. Impurities may participate in side reactions and consume reactants for no reason, which hinders the main reaction process. The product is mixed with impurities, the purity is reduced, and the yield is also reduced. Moreover, the interference of impurities makes the experimental data fluctuate abnormally and elusive, like a fog shrouded, and the accuracy and repeatability of the experimental conclusions are greatly reduced.
For example, in an organic synthesis experiment, this intention is to build a specific structure with 1% 2C4-naphthoquinone sodium disulfite as the key reagent. If its purity is only 80%, and impurities participate in the reaction to generate by-products, not only the yield of the target product is halved, but also it is difficult to separate and purify the product due to the influence of impurities. The subsequent analysis and characterization data are disordered, and effective conclusions cannot be drawn.
Therefore, in order to obtain accurate and reliable experimental results, the high purity of 1% 2C4-naphthoquinone Experimenters should choose materials like good craftsmen and treat the purity of reagents cautiously in order to achieve the purpose of experiments and explore the true meaning of science.

How 1,4-piperazine diethylsulfonic acid is dissolved

For 1% 2C4-xanthanedioic acid, if you want to dissolve it, you can follow the following method.
To dissolve 1% 2C4-xanthanedioic acid, first look at its properties. The solubility of this acid in water is quite low, but in organic solvents, there may be different situations. Such as ethanol, it is a common organic solvent, and it has good compatibility with 1% 2C4-xanthanedioic acid. Take an appropriate amount of 1% 2C4-xanthanedioic acid, put it in a clean container, slowly add ethanol, and stir it lightly with a glass rod to promote its dispersion and hope that it will gradually dissolve.
Furthermore, dichloromethane is also a useful solvent. Putting 1% 2C4-xanthanedioic acid into dichloromethane and gently shaking the container can quickly dissolve 1% 2C4-xanthanedioic acid due to the characteristics of dichloromethane. However, it should be noted that dichloromethane has certain toxicity, and it should be operated in a well-ventilated place and well protected.
If you want to use water as a solvent, you can think of adding a co-solvent. If you add an appropriate amount of surfactant, such as sodium dodecyl sulfate, it can reduce the surface tension of the solution and help 1% 2C4-xanthanedioic acid disperse and dissolve in water. Dissolve the surfactant into water to form a uniform solution, then slowly add 1% 2C4-xanthanedioic acid and continue to stir, or it can achieve the effect of partial dissolution.
In addition, temperature also affects its dissolution. Moderate heating may increase the solubility of 1% 2C4-xanthylene-ton diacid in solvent. When using ethanol or dichloromethane as solvent, slowly heating by water bath and stirring at the same time can speed up the dissolution process. However, excessive heating should not be used to prevent the decomposition of 1% 2C4-xanthylene-ton diacid or excessive evaporation of solvent.
To sum up, according to different needs and conditions, organic solvents such as ethanol and dichloromethane can be selected, or co-solvents can be added, and temperature adjustment methods can be used to achieve the purpose of dissolving 1% 2C4-ton diacid.