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Home Products 3-[(3-Cholamidopropyl)Dimethylammonio]-1-Propane Sulphonate

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

3-[(3-Cholamidopropyl)Dimethylammonio]-1-Propane Sulphonate

Lingxian Chemical

Specifications

HS Code	696127
Name	3-[(3-Cholamidopropyl)Dimethylammonio]-1-Propane Sulphonate
Chemical Formula	C32H58N2O7S
Molar Mass	614.88 g/mol
Appearance	White powder
Solubility	Soluble in water
Purity	Typically high purity in commercial products
Ionic Nature	Amphoteric ionic surfactant
Critical Micelle Concentration	Specific value depending on conditions
Ph Range Compatibility	Generally works well in a certain pH range
Surface Activity	Reduces surface tension of solutions
Application	Used in biochemical and cell biology research

As an accredited 3-[(3-Cholamidopropyl)Dimethylammonio]-1-Propane Sulphonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100 - gram vial packaging for 3-[(3 - Cholamidopropyl)Dimethylammonio]-1 - Propane Sulphonate.
Storage	3 -[(3 - Cholamidopropyl)dimethylammonio]-1 - propane sulphonate (CHAPS) should be stored in a cool, dry place away from direct sunlight. Keep it in a well - sealed container to prevent moisture absorption and contamination. As a zwitterionic detergent, proper storage at room temperature (around 15 - 30°C) ensures its stability and prolonged usability for various biological and biochemical applications.
Shipping	3 -[(3 - Cholamidopropyl)dimethylammonio]-1 -Propane Sulphonate is typically shipped in well - sealed containers, safeguarded to prevent spills. Transport adheres to chemical shipping regulations, ensuring its safe delivery under appropriate storage conditions.

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3-[(3-Cholamidopropyl)Dimethylammonio]-1-Propane Sulphonate

General Information

Historical Development

3 - [ (3 - cholamidopropyl) dimethylammonium] -1 - propane sulfonate, the development of this compound has a profound history. In the past, scholars have been exploring the field of active agents and making unremitting efforts. At first, only a little knowledge of surface activity, and after repeated experiments and explorations, its characteristics were gradually clarified. The early research conditions were simple, but the ancestors were fearless and difficult, and they were determined to move forward. With the passage of time, science and technology have advanced, and their understanding has gradually deepened. From the preliminary structure analysis to the precise control of performance, countless efforts have been poured into it. Today, this compound is widely used in many fields. Looking back on the road of development in the past, it is a witness of scientific research progress, inspiring my generation to continue to move forward bravely on the road of chemical exploration.

Product Overview

Today there is a substance called 3- [ (3 - Cholamidopropyl) Dimethylammonio] -1 - Propane Sulphonate. This substance is quite useful in the field of chemical inquiry. Its mild nature does not disturb various biochemical reactions, and is often used in biochemical experiments. It can maintain the inherent state of biological macromolecules such as proteins without damaging their activity. When studying cell membranes, it can help analyze the structure and function of membranes. It has extraordinary performance in biochemical analysis, drug development and other fields. Although it is a chemical product, its unique characteristics can open up new paths for scientific inquiry and help our generation to understand the mysteries of the microscopic world. It is indispensable in biochemical science.

Physical & Chemical Properties

There is a thing today, named 3 - [ (3 - Cholamidopropyl) Dimethylammonio] -1 - Propane Sulphonate. Its physical and chemical properties are of great importance to our research. The properties of this thing play an important role in the exploration of matter.
Looking at its physical properties, it has its own unique characteristics. Its texture, color, odor and other characteristics are the keys to the study. Chemically, its reactivity, stability, etc. are also of our concern. Or under specific conditions, it can change wonderfully with other things.
The physical and chemical properties of this substance are like the key to unlocking the mystery of matter. In-depth research may open up new paths for the field of chemistry, contribute to future development, and lead us to the unknown temple of knowledge.

Technical Specifications & Labeling

Today there is a thing called 3 - [ (3 - Cholamidopropyl) Dimethylammonio] -1 - Propane Sulphonate. Its technical specifications and identification (commodity parameters) are crucial. In terms of technical specifications, it is necessary to precisely control the proportion of each ingredient, and the production process should be rigorous and orderly, without allowing any mistakes. In terms of identification, various commodity parameters, such as purity geometry and scope of application, should be clearly marked so that the user can see at a glance. In this way, the quality of this product can be guaranteed, and it can be used in various applications to show its ability, live up to expectations, and play its due effect.

Preparation Method

Method for preparing 3- [ (3-cholamidopropyl) dimethylammonium] -1-propane sulfonate (raw materials and production process, reaction steps, catalytic mechanism)
To prepare this 3- [ (3-cholamidopropyl) dimethylammonium] -1-propane sulfonate, the first raw materials are cholic acid, dimethylamine, 1,3-propane sulfonolactone, etc. The production process first reacts cholic acid with dimethylamine to form an intermediate. In this step, temperature control and time control are used to achieve optimal production.
In the reaction step, cholic acid is mixed with dimethylamine, an appropriate amount of catalyst is added, and the reaction is stirred at a specific temperature. When the reaction is sufficient, the intermediate is obtained. After the intermediate reacts with 1,3-propane sulfonolactone, the conditions are carefully regulated to achieve complete sulfonation.
Catalytic mechanism, the catalyst used can reduce the activation energy of the reaction, promote molecular collision, and accelerate the reaction process. After many debugging and optimization conditions, high-quality 3-[ (3-cholamidopropyl) dimethylammonium] -1-propane sulfonate products are obtained.

Chemical Reactions & Modifications

There is now a substance called 3- [ (3-cholamidopropyl) dimethylammonium] -1 -propanesulfonate. As a chemical researcher, I often study the chemical reaction and modification of this substance.
Looking at its reaction, in a specific environment, the interaction between molecules is regular, or bond breaking and recombination, or polymerization and cracking are all based on the laws of chemistry. However, if you want its better properties, it is urgent to modify it.
Want to change its properties, or adjust the temperature and pressure of the reaction, or add catalytic agents. In this way, hope that its solubility and stability will be improved. Through various attempts, I gradually understand the rules of its sexual change, and hope that I can use this to create better products in the future, which will be beneficial to industry and scientific research.

Synonyms & Product Names

Today there is a thing called 3 - [ (3 - Cholamidopropyl) Dimethylammonio] -1 - Propane Sulphonate. This thing has a synonymous name and a commodity name. Its synonymous name is also the name used to identify this thing. The name of a commodity is also the name used in the circulation of the market.
This thing is used in the field of chemistry and is commonly used in research. Its synonymous name is often mentioned by scholars, and it is covered with precise meaning and conforms to the rules of science. The name of a commodity is to facilitate trade and is widely spread in the market. Although the two names are different, they both refer to this thing.
Although the names are different, they are the same. In research, scholars use their names as needed, or take synonymous names for reason, or use the names of commodities to purchase. This is all for the convenience of chemical research and related affairs.

Safety & Operational Standards

3 - [ (3 -cholamidopropyl) dimethylammonium] -1 -propane sulfonate, the safety and operation standards of this compound are of paramount importance.
In the field of Guanfu Chemical Industry, this compound needs to be used with caution in experiments and production. Although its properties are unique, if it is not handled properly, it may cause danger.
The most important thing for safety is protection. Those who handle this product must wear suitable protective equipment, such as gloves, goggles, protective clothing, etc., to prevent it from coming into contact with the skin and eyes and causing damage. And where it is operated, it must be well ventilated so that harmful gases can escape in time and do not gather in the room to avoid personal invasion.
In addition, the storage must also be appropriate. It should be placed in a cool and dry place, away from fire and heat sources, and avoid co-storage with incompatible objects to prevent unexpected reactions.
As for the operating specifications, when weighing, use precise instruments and use them according to the amount. Do not use excess or insufficient. When dissolving, slowly add the solvent in sequence, and stir moderately to make the solution uniform. During the reaction process, pay close attention to variables such as temperature and pressure, and control them according to the established process. In case of abnormalities, stop and investigate the reasons in detail to ensure safety.
In short, the safety and operation specifications of 3- [ (3-cholamidopropyl) dimethylammonium] -1 -propane sulfonate should be kept in mind and implemented in order to avoid disasters and ensure the smooth operation of the chemical industry.

Application Area

3 - [ (3 - cholamidopropyl) dimethylammonium] - 1 - propane sulfonate, this compound has a wide application field. In biochemical research, it can help the exploration of protein structure and function, because it can create a suitable environment and stabilize protein conformation. In the field of drug research and development, it is helpful for the construction of drug carriers, improving drug delivery efficiency and targeting. In the field of analysis and detection, it can optimize analytical methods, improve detection sensitivity and accuracy. And its unique properties can play a role in many complex systems and provide assistance for the development of various fields. It is an indispensable key substance with broad application prospects.

Research & Development

Recently, in the field of biochemistry, I have focused on the analysis of 3 - [ (3 - Cholamidopropyl) Dimethylammonio] -1 - Propane Sulphonate. Its properties are unique and are crucial in many aspects of biochemical experiments.
At the beginning, explore its molecular structure, explain the wonders of its conformation, and understand the functions of its functional groups. Then observe its properties in different media, such as solubility and stability.
When analyzing, we also think about its development path. Nowadays, the biochemical technology is advancing, and this substance is being used more and more widely. It can be used as an excellent descaling agent in the process of protein purification to help protein dissociation and preserve its activity.
In the future, through continuous research, we can expand the field of its application, and have more outstanding effects in pharmaceutical research and development, biological testing, etc., adding to the development of biochemistry and promoting the vigorous progress of this field.

Toxicity Research

Study on Toxicity of 3- [ (3 - Cholamidopropyl) Dimethylammonio] -1 - Propane Sulphonate
Study on the physical properties and toxicity of 3- [ (3 - Cholamidopropyl) Dimethylammonio] -1 - Propane Sulphonate is the key. Examine this substance in detail to understand its impact on living beings.
Examine its experiments in detail, take all kinds of living beings as tests, and observe their behavior when they are affected by this substance. Observe its physiological changes, behavior, and signs of organs. After repeated research, obtain all kinds of data.
When this substance is at high concentration, it has a significant effect on the tested creatures. It may cause physiological disharmony, misbehavior, and organ damage. However, when it is at low concentration, its effect is minimal.
From this point of view, the toxicity of 3 - [ (3 - Cholamidopropyl) Dimethylammonio] -1 - Propane Sulphonate varies with concentration. High concentration is harmful, low concentration is slightly safe. Researchers should be careful. When using this substance, make sure that the concentration is appropriate to prevent harm to organisms and the environment.

Future Prospects

I have tried to study the product of 3- [ (3 - Cholamidopropyl) Dimethylammonio] -1 -Propane Sulphonate. This product has shown extraordinary ability in this world. However, when I look at its future, there is still a vast expansion.
This thing has already played a role in the field of biochemistry and the secret of the aid molecules. However, in the future, it can be explored in a more subtle structure. The deep and hidden relationship between the elements of the Ming Dynasty can be added to the diagnosis of diseases and the research of medicinal stones. And its nature is stable, and it can be used for new purposes. If it is used in the art of material making, it can be used to help make special materials, which should meet the needs of ever-changing times.
I believe that with time, everyone will work together and dig deep into its potential. It will definitely be able to make this product shine in the undeveloped path, be used by the world, and benefit all people. It will become a bright chapter in the biochemical industry.

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Frequently Asked Questions

As a leading 3-[(3-Cholamidopropyl)Dimethylammonio]-1-Propane Sulphonate supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What is the chemical structure of 3- [ (3-cholamidopropyl) dimethylammonium] -1-propanesulfonate?

I look at your words, and I am inquiring about the chemical structure of 3 - [ (3-thymidine nucleoside) dimethylmercuryl] -1 -pyrithione zinc. This is a complex chemical, and in order to understand its structure, it is necessary to analyze the composition of each part in detail.
First words "Thymidine nucleoside", Thymidine is a nitrogen-containing base, which is linked to ribose to form a nucleoside, and the nucleoside is then linked to phosphoric acid to form a nucleotide. Here, the nucleoside loses phosphoric acid, and only the nucleoside part is left, which is called "base". There are pyrimidine rings in its structure, and specific substituents on the rings, such as 4-carbonyl, 5-methyl, etc.
times and "dimethylmercury group", the mercury atom is connected to two methyl groups, and the methyl group is the group obtained by removing one hydrogen atom from methane. Mercury is toxic, and this dimethylmercury group is attached to a specific structure, which affects the overall properties.
In addition, "zinc pyrithione", pyridine is a nitrogen-containing six-membered heterocycle and has aromatic properties. The thione group is attached to the pyridine ring, and zinc ions interact with thione groups. The distribution of electron clouds on the pyridine ring varies with the presence of nitrogen atoms, which affects the properties of the groups connected to it.
This compound 3- [ (3-thymidine nucleoside) dimethylmercury group] -1-zinc pyrithione, each part is connected by specific chemical bonds to form a unique chemical structure. The connection method and spatial orientation of chemical bonds all have important effects on its physical and chemical properties and biological activities. However, due to the limitation of the description, it is difficult to fully develop its three-dimensional delicate structure. To know the details, it is necessary to model with professional chemical software or accurately analyze according to experimental data.

In which experiments is 3- [ (3-cholamidopropyl) dimethylammonium] -1-propane sulfonate often used?

3- [ (3 -benzyloxybenzyl) dibenzylmercuryl] -1 -pyridine thiocarboxylate is commonly used in many organic synthesis experiments. This compound is frequently used in the field of organic mercury chemistry and sulfur-containing heterocyclic compounds due to its special chemical structure.
In organic synthesis experiments, it is often used as a key intermediate for constructing complex organic molecular structures. Chemists perform various chemical reactions on it, such as nucleophilic substitution, redox, etc., to prepare a series of organic compounds with special functions and structures. For example, in some experiments aimed at synthesizing new drug molecules or materials with special optoelectronic properties, 3- [ (3-benzyloxybenzyl) dibenzylmercuryl] -1-pyridine thiocarboxylate plays an important role as a starting material or intermediate.
However, it should be noted that due to the mercury content of this compound, it has certain toxicity and environmental risks. During the experimental operation, researchers must strictly follow safety regulations and properly dispose of experimental waste to prevent harm to the environment and human health. Nonetheless, due to its unique chemical properties and reactivity, it is still an indispensable experimental reagent in specific organic synthesis fields, continuing to contribute to the research and development of organic chemistry.

How is the solubility of 3- [ (3-cholamidopropyl) dimethylammonium] -1-propanesulfonate?

In order to know the solubility of the three-minus [ (three-minus thymine ethyl) diethylaminomercury group] minus one ethyl cadmium acid anhydride, it is necessary to investigate in detail.
To observe the solubility of this chemical substance, it must be based on the structure, functional group and characteristics of its molecules. The components of this chemical substance have their own properties and interact with each other, resulting in different solubility.
The part of thymine ethyl has specific chemical properties, and its structure or affects the forces between molecules, such as hydrogen bonds, van der Waals forces, etc. The properties of mercury and amino groups of diethylaminomercury groups are all involved in solubility. The hydrocarbon properties of ethyl cadmium, the metallic properties of cadmium, and the chemical properties of acid anhydrides also affect its dispersion in solvents.
Water is a common solvent. If this substance has polar functional groups and can form hydrogen bonds or other forces with water, it may be soluble in water. If it contains polar groups such as hydroxyl and carboxyl groups, it is easy to mate with water molecules. If the molecule has more non-polar parts, such as long-chain alkyl groups, it tends to dissolve in non-polar solvents, such as alkanes.
However, to determine its solubility, experiments are needed to prove it. Try different solvents, observe their dissolution state, and measure their solubility to get accurate conclusions. During the experiment, conditions such as temperature control and pressure control will also cause different solubility due to changes in temperature and pressure.
Although not personally tested, according to chemical reasons, the approximate solubility tendency can be deduced according to its structural functional groups, but it needs to be determined by experiments.

What is the effect of 3- [ (3-cholamidopropyl) dimethylammonium] -1-propane sulfonate on protein?

In the context of "Tiangong Kaiwu", try to answer this question.

The tiller is an important item in winemaking, which is related to the flavor and quality of wine. (3 - [ (3 - tilleramyl) dimethylmercury group] -1 -pentazole alcohol anhydride, although these chemical formulas are not ancient, they can be compared to the characteristics of things to solve it.)

Those, containing various microorganisms and enzymes, can make grain starch saccharify and ferment when brewing, and turn it into wine. It is like a craftsman's tool, which controls the brewing process and determines the quality of wine.
As for the effect on protein, it is because the raw materials of winemaking contain more protein. The enzymes in the tiller can decompose the protein into small molecules of peptides and amino acids. This process, one is the growth of microorganisms to provide nutrients, and the other is the amino acid in the subsequent reaction to generate aroma components, making the wine fragrant. If the protein decomposition is moderate, the taste of the wine is mellow and harmonious; if it is excessive or insufficient, it will affect the quality of the wine.
Like ancient brewing, those who make good use of the tiller, the wine brewed is clear and sweet, and is famous all over the world. Although science is prosperous today, the wisdom and principles of ancient methods are still the foundation of winemaking. Although this chemical formula is complex, it is analogous to the principle of tiller brewing, and it is also possible to understand the wonders of its effect on proteins. It is related to the brewing of things that are closely related and affect each other, resulting in this wonderful brewing process.

What are the safety precautions for 3- [ (3-cholamidopropyl) dimethylammonium] -1-propane sulfonate?

The safety of 3 - [ (3 - thymine dimethylmercuryl) diethylmercuryl] - 1 - ethylterephthalic anhydride is related to many precautions. Let me explain in detail.
First of all, such chemicals are many toxic. Among them, mercury is a highly toxic heavy metal. After entering the human body, it can accumulate in the body and cause serious damage to the nervous system, kidneys and many other organs. In mild cases, you may experience symptoms such as headache, dizziness, fatigue, and insomnia. In severe cases, it can cause kidney failure, nervous system disorders, and even life-threatening.
Furthermore, the way of exposure also needs to be very careful. When it comes into contact with the skin, it may quietly invade the human body through the skin barrier, so when operating, be sure to be fully armed, wear protective clothing and gloves to prevent skin contact. If you come into contact accidentally, you should immediately rinse with plenty of water and seek medical attention quickly.
Respiratory inhalation is also a major hazard. If such substances evaporate in the air, they will directly endanger the respiratory tract and lungs after being inhaled. The operation should be carried out in a well-ventilated place, or equipped with professional ventilation equipment, and wear a suitable gas mask to block the invasion of harmful gases.
And the risk of ingesting by mistake should not be underestimated. Once ingested by mistake, toxic substances will quickly spread in the body, causing severe poisoning reactions. Therefore, food and drink must be strictly prohibited in the operation site, and hands should be thoroughly cleaned after operation.
For storage, it should be placed in a cool, dry and well-ventilated place, away from fire and heat sources, and should be stored separately from other chemicals to avoid danger caused by mutual reaction.
In summary, for such dangerous chemicals, it is necessary to strictly follow safety procedures when operating, and must not be taken lightly to ensure personal safety and environmental safety.