N-[Tris(Hydroxymethyl)Methyl]-3-Amionpropanesulfonic Acid

Lingxian Chemical

Specifications

HS Code	813979
Name	N-[Tris(Hydroxymethyl)Methyl]-3-Amionpropanesulfonic Acid
Abbreviation	TAPS
Chemical Formula	C7H17NO6S
Molar Mass	243.28 g/mol
Appearance	White crystalline powder
Solubility	Soluble in water
Ph Range	7.7 - 9.1
Pka At 25 C	8.4
Melting Point	157 - 162 °C
Buffer Capacity	Good buffering capacity in its pH range
Stability	Stable under normal conditions

Packing & Storage

Packing	100 - gram bottle packaging for N - [Tris(Hydroxymethyl)Methyl] - 3 - Amionpropanesulfonic Acid.
Storage	N - [Tris(Hydroxymethyl)Methyl]-3 - Aminopropanesulfonic Acid, often used in biological and biochemical applications, should be stored in a cool, dry place. Keep it in a tightly sealed container to prevent moisture absorption. Avoid storing near strong oxidants or chemicals that may react with it. Optimal storage temperatures range around 2 - 8 °C if stability at lower temperatures is beneficial for its intended use.
Shipping	N - [Tris(Hydroxymethyl)Methyl]-3 - Amionpropanesulfonic Acid is typically shipped in well - sealed containers, safeguarded from moisture and extreme temperatures. Secure packaging ensures integrity during transit for safety and proper chemical storage.

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N-[Tris(Hydroxymethyl)Methyl]-3-Amionpropanesulfonic Acid

General Information

Historical Development

N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid, those who transform things. At the beginning, those who transform things, study the nature of things, and explore the secrets. At the beginning of time, the research is not easy, but the frustration is not changed. The moon is full, the wisdom and perseverance are clear, the nature is clear, and the method of its system is clear.
It is made from its own method, and it is used in the field of biochemistry. Or it can help the biochemical reaction, or it is important for analysis. Therefore, it is indispensable for the research and production of the world. Its development process is the gathering of hard work and hard work, and the promotion of the science of chemistry. There are many benefits, and there is no great merit.

Product Overview

Today there is a substance called N- [Tris (Hydroxymethyl) Methyl] -3-Amionpropanesulfonic Acid. This substance is a wonderful chemical product and is quite useful in the field of scientific research. It is stable and often used as a buffering agent to maintain the acid-base balance of the solution, so that many experiments can be carried out smoothly.
Looking at its structure, it is unique and cleverly connected by specific atoms, creating its extraordinary properties. When preparing, it needs fine operation and controlled conditions to obtain high-quality products.
In biochemical experiments, it is an indispensable material to help researchers explore the mysteries of life. With its own characteristics, it plays a key role in protein, nucleic acid and other research, contributing to the progress of scientific research, which is really a good aid to scientific research.

Physical & Chemical Properties

N- [Tris (Hydroxymethyl) Methyl] -3-Amionpropanesulfonic Acid is also a chemical product. Its properties are both physical and chemical. Looking at its physics, it is often solid, pure and uniform in color, fine in powder, and easy to use. Its solubility is good in water, and it can be quickly dissolved and uniform to form a clear liquid, which is very convenient for experimental operation. On its chemical properties, it is stable, and it is not easy to change in common temperature environments and chemical agents. In case of strong acid and alkali, it also responds, and according to its corresponding regulations, it can be widely used in the fields of chemical and biochemical. Chemists, study the properties of this product in detail, and hope to develop its capabilities in various industries to facilitate work.

Technical Specifications & Labeling

Today there is N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid, which is crucial to its technical specifications and identification (product parameters). Its technical specifications need to be accurate and accurate, and it is related to the quality. The logo cannot be ignored, and the product parameters should be clearly presented so that the user can see at a glance. In this way, it can get its subtlety, and it can be accurately applied in experiments and production. There are no mistakes, ensuring significant results. If the technical specifications are ambiguous and the logo is unclear, it will cause a lot of inconvenience and even delay. Therefore, strictly abiding by the technical specifications and labeling specifications is the foundation of the product and cannot be ignored.

Preparation Method

This product is made of N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid. The method is as follows: Prepare all raw materials, carefully select their quality, and ensure that they are pure. The raw materials are determined, and the production process is determined according to the wonderful principles of chemistry. First set the conditions of the reaction, control its temperature and pressure, so that it is just right. When reacting, pay attention to the steps, step by step, and do not be impatient. After the reaction is completed, apply a purifying mechanism to remove its impurities and leave its essence. After many twists and turns, this pure product can be obtained. In this way, the production method is interlocking, and step by step is cautious to ensure the quality of the product.

Chemical Reactions & Modifications

Taste the wonders of chemical industry, it is related to the change of substances and the change of efficacy. Today there is N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid. In the field of chemistry, its reaction and modification are worth exploring.
The reaction of this compound is like the sympathetic reaction of yin and yang, changing thousands. Or combine with other things to form new substances, and the properties are also changed accordingly. The way of modification is like carving beautiful jade, which can have different characteristics. Or increase its stability, such as the solidification of a rock; or change its activity, which should change from time to time, suitable for different needs.
Chemists should study the wonders of this reaction and modification in depth, so as to explore the new realm of chemical industry, expand its path for various applications, and start a new chapter. Hope to be able to control the changes of matter in the microscopic world, so as to be used in the vast world.

Synonyms & Product Names

Today there is a thing called N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid. This substance is used in the field of chemistry and has a wide range of uses. Its different names are also numerous, each referring to its own, all of which are to clarify its nature and facilitate its use.
Looking at the different names, they all revolve around the characteristics and structure of this object. The name of the product ordered by the merchant also varies according to the market and audience, but they are all inseparable from its origin. This substance is often a key agent in experiments, helping researchers explore the details and solve the mysteries of chemistry. Although the names are different, the nature is the same. Scientific researchers should scrutinize their characteristics and understand their various names in order to be able to use them without error, to travel freely in the path of chemical research, and to contribute to academic progress.

Safety & Operational Standards

N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid Product Safety and Operation Specifications
F N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid, the reagent is also used. If you want to use this product, you must understand its safety and operation rules, so as to keep it safe.
Its nature is mild, but it should not be ignored. If it touches the body, rinse it with water quickly, and it may hurt the skin for a long time. If it enters the eye, you need to rinse it with clean water urgently, and seek medical treatment to avoid eye diseases.
When using it, you must choose a well-ventilated place to avoid its gas accumulation. And the operator should use protective equipment, such as gloves and eyepieces, to prevent splashing.
It is also suitable for storage in a cool and dry place, avoiding fire and heat, and should not be mixed with other things to prevent it from changing.
When weighing, when using a fine tool, measure according to the square, and do not exceed it. When it dissolves, stir it slowly to make it uniform and stable.
When discarding, dispose of it according to regulations, do not discard it indiscriminately, and do not pollute the environment.
In short, those who use N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid must abide by safety and operation regulations, so that things can be done, and the body and environment are safe.

Application Area

There is a substance called N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid. This substance has a wide range of uses and is often used as a buffer reagent in the field of biochemical research. Because of its stable characteristics, it can regulate the pH of the reaction system and ensure the smooth progress of biochemical reactions. In protein electrophoresis experiments, it can create a suitable environment for effective separation of proteins according to their characteristics, helping researchers to clarify their structure and function. In cell culture, it can provide stable acid-base conditions for cells to grow and multiply. In the study of enzymatic reactions, it can maintain the stability of the pH of the system, ensure the activity of enzymes, and help explore the mechanism of enzyme action. It is an indispensable thing for biochemical research.

Research & Development

The recent research on N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid is quite important. We have carefully studied its properties, production methods and applications. After repeated experiments, we have observed the law of its reaction and found the best conditions.
In the process of research, analyze its chemical structure in detail, clarify the check point of its activity, and hope to improve the production method and increase the yield. And think about expanding its application field, or in biochemical analysis, or in pharmaceutical research and development, all hope to make progress.
This substance has great potential, but it will take time to perfect it. We should persevere and explore unremittingly, hoping to promote its development and contribute to the academic community and industry, so that this material can fully demonstrate its value and benefit the world.

Toxicity Research

To taste and investigate the nature of poisons is related to the health of people's livelihood, and everything is essential. Today there is N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid, and the study of its toxicity is quite important.
If you want to understand its nature, you should use a rigorous method. Or observe its response to various things, observe its contact with other substances, and see what changes it has; or experience it in living beings, observe it when applied to insects, fish, birds and beasts, what are the differences in body movements and viscera functions.
Only by studying the toxicity of this substance can you understand its advantages and disadvantages in the environment and in people. If the toxicity is minimal, it can be used, and it can be used in medical and industrial techniques to explore its path; if the toxicity is severe, it should be cautious and its use should be strictly controlled to prevent it from being a disaster to the world, to ensure the safety of all people, and to protect the peace of heaven and earth.

Future Prospects

The future prospect concerns N- [Tris (hydroxymethyl) methyl] -3-aminopropane sulfonic acid. Our generation of chemical researchers often study this product. It is widely used in the field of biochemistry, and can be used as a buffer reagent to maintain the stability of the system.
At present, science and technology are new, and biochemical science is also advancing. This product may have new uses, in the development of medicine, or it can help the stability of drugs and improve the curative effect; in biological testing, it may increase the accuracy and expand the detection.
In the future, it may be able to improve the production method, improve production and quality, and reduce costs and consumption. It is also hoped that it will emerge in emerging fields, such as gene editing and cell therapy, and contribute to human well-being, developing infinite possibilities and becoming a brilliant future.

Frequently Asked Questions

What is the chemical structure of N- [Tris (Hydroxymethyl) Methyl] -3-Amionpropanesulfonic Acid

N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid, Chinese name: N - Tris (Hydroxymethyl) Methyl - 3 - Aminopropanesulfonic Acid, often used for TAPS. Its chemical properties are specific.
This compound is composed of three methyl groups (- CH ² OH) in the same central carbon atom. This central carbon atom has another nitrogen atom, and the nitrogen atom has a propanesulfonic acid group (- CH ² CH ² SO 🥰 H).
Looking at the whole framework, based on the core of the central carbon atom, the methyl part can be used for multiple functions due to the existence of the methyl group, which can give the molecule a certain degree of stability and water resistance. The sulfonic acid group (-SO-H) in the propanesulfonic acid group is easy to dissolve in aqueous solution, and is acidic, so that the compound has certain characteristics.
This transformation makes TAPS useful in biochemical research, such as it is often used as a catalyst. Because of its specific acidity, it can effectively maintain the pH value of the solution and play an important role in the polybiochemical reaction system.

N- [Tris (Hydroxymethyl) Methyl] -3-Amionpropanesulfonic Acid is commonly used in which experiments

N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid, Chinese name tris (methyl) methylaminopropane sulfonic acid, often used as TAPS. This compound is used for multiplication in polymers.
In biochemical and molecular biology, it is often used as a catalyst. Because of its good performance, it can effectively maintain the pH value of the solution. In protein research, the protein's function is sensitive to the pH value of the environment. TAPS can determine the pH of the protein, prevent the protein from changing due to pH waves, and maintain normal activity. It is convenient for researchers to further explore the characteristics of proteins.
In enzymatic reaction, the catalytic activity of enzymes depends on a specific pH. TAPS can provide an appropriate pH environment, so that enzymes can achieve the best activity, thus assisting researchers in their research on enzymatic reaction, resistance, etc., and laying the foundation for phase-domain research.
In cell culture, the pH value requirements of cell-generated culture are strict. Adding TAPS to the culture base can maintain a pH level, create a good environment for cell generation, and ensure normal cell generation and proliferation, which is beneficial to the development of cell-biological research.

What is the pH buffer range of N- [Tris (Hydroxymethyl) Methyl] -3-Amionpropanesulfonic Acid

N- [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid, Chinese name tris (methyl) methylaminopropanesulfonic acid, often TAPS. This is commonly used in biochemical research, and its pH is important.
Generally speaking, the pH of TAPS is between 7.7 and 9.1. At this pH level, TAPS can exhibit good performance and can effectively maintain the pH value of the solution. In biochemical applications, such as protein analysis, enzyme activity determination, etc., it is necessary to control the pH environment to ensure that the function of biomolecules is not affected. Due to its specific performance, TAPS can be filled with high-quality materials under conditions of near-neutral to weak performance. This unique property makes it applicable to the research of polybiotic molecular biology, providing reliable pH conditions and ensuring the reproducibility of fruits.

N- [Tris (Hydroxymethyl) Methyl] -3-Amionpropanesulfonic Acid

N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid, Chinese name: N - tris (methyl) methyl - 3 - aminopropanesulfonic acid, often used for TAPS. This chemical is of paramount importance for proper storage, because its properties affect its performance in chemical and biological applications.
Preservation of TAPS is the first to promote the dry, dry and transparent environment. Because of its absorbency, the humid environment is easy to cause it to absorb water, and it can change its own temperature and chemical properties. Therefore, it should be stored in a dry machine, or use a well-sealed container to block the outside world.
The temperature should not be ignored, and it should be placed in a low-temperature environment. It is generally refrigerated, and the temperature should be 2-8 ° C. In this way, the molecular activity can be effectively reduced, and it may be reversed, such as degradation or polymerization, and its shelf life can be extended.
In addition, TAPS is sensitive to light, and light may cause some photochemical reactions, which will harm its performance. Therefore, it is necessary to use opaque containers for storage, or store it in a dark place to prevent it from being exposed to light and shadow.
Use the TAPS, and it must be used to protect the equipment and dryness used to prevent introduction. And the operation should be rapid, with less exposure to the external environment.
Therefore, in order to properly preserve N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid, it is necessary to pay attention to the dryness of the environment, the suitability of the temperature and the shading of the light, and keep the operation in use. Only in this way can we ensure the stability of the product and ensure the reliability of the product.

What are the advantages of N- [Tris (Hydroxymethyl) Methyl] -3-Amionpropanesulfonic Acid over other buffers

N - [Tris (Hydroxymethyl) Methyl] - 3 - Amionpropanesulfonic Acid, or TAPS, is a commonly used zwitterion buffer in biochemical research. Compared with other buffers, it has several significant advantages.
Bearing the brunt, TAPS has an ideal pH buffer range, about pH 7.7 to 9.1. This range meets the needs of many biochemical reactions and biological systems, such as specific enzymatic reactions, protein stability, etc., which can effectively maintain the pH stability of the system and create a suitable acid-base environment for related biological processes.
Furthermore, the chemical properties of TAPS are quite stable. Under common experimental conditions, it is not easily disturbed by factors such as oxidation and hydrolysis, thus ensuring the reliability and repeatability of the buffer system for a long time. Researchers do not need to change buffers frequently, and the experimental results are more reliable.
Moreover, TAPS has a weak chelation ability for most metal ions. This means that in the reaction system involving metal ions, it will not strongly interact with metal ions, which in turn affects the activity or reaction process of metal ions, which is conducive to the accurate study of biochemical reactions dependent on metal ions.
In addition, the interaction between TAPS and biomacromolecules is weak. This property allows the study of biological macromolecules such as proteins and nucleic acids without interfering with their structure and function, and can truly reflect the behavior and characteristics of biological macromolecules under physiological conditions, providing a strong guarantee for accurately exploring the mechanism of biological macromolecules.