1-{[1,3-Dihydroxy-2-(Hydroxymethyl)Propan-2-Yl]Amino}Propane-1-Sulfonic Acid

Lingxian Chemical

Specifications

HS Code	678230
Name	1-{[1,3-Dihydroxy-2-(Hydroxymethyl)Propan-2-Yl]Amino}Propane-1-Sulfonic Acid
Chemical Formula	C7H17NO6S
Molar Mass	243.28 g/mol
Appearance	Typically a white crystalline powder
Solubility	Soluble in water
Pka Value	Around 9.4 (approximate value for buffer applications)
Ph Range For Buffering	8.6 - 10.0
Density	Data may vary, but often in a range typical for similar organic salts
Stability	Stable under normal conditions, but may decompose under extreme heat or strong oxidizing agents
Melting Point	Data may vary, usually in the range of typical organic solid melting points
Application	Used as a biological buffer in biochemical and molecular biology experiments

Packing & Storage

Packing	500 - gram vial packaging for 1 - {[1,3 - Dihydroxy - 2 - (Hydroxymethyl)Propan - 2 - Yl]Amino}Propane - 1 - Sulfonic Acid
Storage	1-{[1,3 - Dihydroxy - 2-(hydroxymethyl)propan - 2 - yl]amino}propane - 1 - sulfonic acid should be stored in a cool, dry place, away from heat sources and direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption. Store separately from incompatible substances to avoid reactions that could compromise its purity or safety.
Shipping	1-{[1,3 - Dihydroxy - 2-(hydroxymethyl)propan - 2 - yl]amino}propane - 1 - sulfonic acid is shipped in sealed, corrosion - resistant containers. Packaging ensures protection from moisture and damage during transit, compliant with chemical shipping regulations.

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

1-{[1,3-Dihydroxy-2-(Hydroxymethyl)Propan-2-Yl]Amino}Propane-1-Sulfonic Acid

General Information

Historical Development

Guanfu 1 - {[1,3-dihydroxy-2 - (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid, which originated from the evolution of ancient chemical technology. In the past, at the beginning of chemistry, many people have explored the changes of matter. At the beginning, only simple compound decomposition was known, and all kinds of compounds were not deeply understood.
And over the years, the Fang family has deepened its research and refined its experimental methods. In the field of organic synthesis, we have been unremitting in our exploration of new substances. After years of research and countless attempts, we have obtained this exquisite compound.
Its preparation is not achieved overnight, but is a collection of wisdom and hard work. The scholars of the past, unafraid of difficulties, dissected the light between bottles and jars, and finally made this compound present in the world, a treasure house of chemistry, a bright pearl, and a cornerstone for future applications.

Product Overview

Today there is a substance called 1 - {[1,3-dihydroxy-2 - (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid. This is an important substance for chemical research. Its unique properties, with hydroxyl, amino and sulfonic acid groups, have exquisite structures. Hydroxyl groups are active and flexible, and can react with many substances, or form hydrogen bonds, or participate in the process of synthesis. Amino groups are also non-idle, alkaline, and have a unique performance between acid and base. Sulfonic acid groups give this substance good water solubility, so that it can fully display its characteristics in solution. In the field of scientific research, it is either a reaction medium or a key to synthesis, helping to explore the mysteries of microchemistry, and is an indispensable material for chemical research.

Physical & Chemical Properties

1 - {[1,3 -dihydroxy-2 - (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid is important for chemical research due to its physical and chemical properties. Its properties are crucial to the investigation of substances. Looking at its properties, there may be unique features. Regarding its solubility, it behaves differently in various solvents, which is related to its dispersion and fusion in different environments. Its stability also needs to be considered. In case of temperature, light, acid and alkali conditions, it changes differently. Or under specific conditions, it can maintain a stable state. And its molecular structure has a great influence on its physical and chemical properties, with slight changes in structure or very different properties. The study of the physical and chemical properties of this substance can lay the foundation for applications in many fields, such as chemical engineering and medicine, and help to open up new avenues and enhance the understanding of the material world.

Technical Specifications & Labeling

There is now a product named 1 - {[1,3-dihydroxy-2 - (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid. In my chemical research, its technical specifications and identification (commodity parameters) are the key.
The technical specifications of this product need to be clear that its composition is accurate and its properties are stable. Its molecular structure is established, and the bonds of each atom are orderly, so that the properties can be maintained. When preparing, the temperature, humidity, reaction time, etc. must be strictly adhered to, so that the purity can be obtained.
In terms of identification (commodity parameters), its physical and chemical properties, such as melting point, boiling point, solubility, etc. On the packaging, the composition and content must be clear to help users understand. And its safety marking should not be ignored, which is related to the safety of use. Strictly abide by the technical specifications and labeling standards, this product can be used correctly and is beneficial to all things chemical.

Preparation Method

To prepare [1 - {[1,3 - dihydroxy - 2 - (hydroxymethyl) propane - 2 - yl] amino} propane - 1 - sulfonic acid], the method is as follows: Prepare all kinds of raw materials, select high-quality starting materials, which are key parts of the chemical structure and need to be used accurately. The preparation process is the first step of the reaction. Under specific reaction conditions, make each raw material interact, or under suitable temperature and pressure, according to the established reaction path, make ingenious changes between molecules. At the same time, adjust the reaction rate and degree to prevent excessive or insufficient. In addition, the catalytic mechanism, select the appropriate catalyst to accelerate the reaction process and improve the yield and purity. The dosage and activity of the catalyst need to be carefully controlled to optimize its effectiveness in the reaction system. Through this series of operations, it is expected to obtain the desired product and ensure that its quality and characteristics meet expectations.

Chemical Reactions & Modifications

Today there is a substance called 1 - {[1,3-dihydroxy-2 - (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid. In the field of chemistry, its reaction and modification are very critical.
Looking at its chemical properties, the reaction of this substance often involves the change of hydroxyl groups and sulfonic acid groups. Hydroxyl groups are active and easily condensed with other substances to form new bonds. Sulfonic acid groups are acidic, can be neutralized with bases, and can also participate in many nucleophilic substitution reactions.
As for modification, it is designed to optimize its properties. Or introduce specific groups to increase its solubility and make it better dispersed in solution; or change the molecular structure to improve stability and maintain activity for a long time in different environments. Through this reaction and modification, this chemical substance may play a more important role in industry, scientific research and other fields, contributing to the development of chemistry.

Synonyms & Product Names

Today there is a product called 1 - {[1,3-dihydroxy-2 - (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid. This product is widely used in the field of chemical industry. There are also many synonyms, such as so-and-so aliases, all referring to this product.
Among the trade names, there are also many titles, all of which are used to identify this product. Chemical researchers can only be accurate when they understand its many names, so that they can be used in research and application. Knowing its synonyms and trade names is like unlocking a key, allowing you to navigate the world of chemical materials without confusion and confusion. Only then can you make better use of it and contribute to the chemical industry, promoting its progress and development.

Safety & Operational Standards

1 - {[1,3 -dihydroxy-2 - (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid This product is crucial to safety and operating standards, and should not be ignored.
If you want to be good at things, you must first understand its safety. When storing this product, you need to choose a dry and cool place to avoid water and fire invasion, and it should not be co-stored with strong acid and alkali to prevent its properties from becoming dangerous. Its packaging must be complete and there is no risk of leakage to ensure storage safety.
As for the rules of operation, the operator should be in front of protective equipment, such as gloves, eyepieces, and masks, to prevent it from touching the skin, entering the eyes, or inhaling into the lungs. If it is accidentally stained on the body and skin, rinse it with a lot of water quickly, and if it is still not enough, seek medical treatment. In the place of operation, ventilation must be good, and gas accumulation should not cause hidden dangers.
And the dosage of this thing must be in accordance with precise methods, and it cannot be increased or decreased arbitrarily. After the operation, the equipment and utensils must be washed, and the site should also be cleaned, leaving no residue. In this way, the best way to operate safely is to ensure that people, things, and environments are safe, so that the use of this chemical is in accordance with regulations, safe, and harmless to all things.

Application Area

There is now a product named 1- {[1,3-dihydroxy-2- (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid. This product is useful in many fields.
In the field of biochemical research, it can be used as a buffer. Due to its unique chemical structure, it can effectively maintain the pH of the solution, stabilize the biochemical reaction environment, and help researchers explore the mysteries of life. Many enzymatic reactions and protein studies rely on its stable environment to obtain accurate results.
In the field of pharmaceutical preparation, or as a key excipient. Auxiliary drug ingredients are stable, ensuring drug quality and efficacy, and ensuring the safety and effectiveness of patient medication.
It also has a place in the chemical production process. Or participate in the synthesis of special materials to optimize product performance and contribute to industrial development. This is its application field, which shows its importance.

Research & Development

Today there is a product called 1- {[1,3-dihydroxy-2- (hydroxymethyl) propylene-2-yl] amino} propane-1-sulfonic acid. As a chemical researcher, I have dedicated myself to the research and development of this product.
This product has unique characteristics and has great potential in many fields. I have carefully investigated its structure, studied the reaction mechanism, and hoped to understand its mysteries. After repeated experiments, I have explored its properties and changes, hoping to expand its application.
Although the road to research is full of thorns, I have persevered and studied unremitting. It is hoped that through continuous exploration, this compound will play a greater role, making significant progress in scientific research, industry, etc., for the well-being of the world, and promoting progress in the field of chemistry.

Toxicity Research

Toxicity Study
Recently, I have been studying a chemical named 1- {[1,3-dihydroxy-2 - (hydroxymethyl) propylene-2-yl] amino} propane-1-sulfonic acid. This substance has a wide range of uses, but its toxicity is unknown, so efforts are made to study it.
First, take all experimental animals and give them at different doses. Observe their diet, activities, and mental state, and examine the changes in their organs. At the beginning, at low doses, no significant abnormalities were seen. However, the dose gradually increased, and the animals occasionally showed signs of listlessness and reduced eating. From the dissection, there are slight signs of pathology in organs such as liver and kidney.
Re-analyze its effect on cells. Add this substance to cultured cells to observe their growth and metabolism. When seen at high concentrations, cell proliferation is inhibited and metabolism is also chaotic.
In summary, 1- {[1,3-dihydroxy-2- (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid has certain toxicity. Follow-up application should be cautious, and its toxicology should be studied in depth to clarify the safe use method.

Future Prospects

Fu Jin has a product named 1- {[1,3-dihydroxy-2- (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid. This compound has extraordinary potential in the field of our chemical research.
In the future, it is expected to shine in the field of biomedicine. Or it can help develop new drugs, accurately treat difficult diseases, and save people from pain. It may also emerge in materials science, adding to innovative materials, making materials more tough and practical.
Our scientific researchers should diligently study and explore its mysteries, with the hope that in the near future, we can release the full potential of this compound, seek the well-being of the world, and draw a new chapter in science and technology, living up to the future prospects.

Frequently Asked Questions

What is the chemical structure of 1- {[1,3-dihydroxy-2- (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid?

This is a problem related to the derivation of chemical structures. I shall analyze it with a text as detailed as "Tiangong Kaiwu".
The expression of many chemical groups involved in the first view of the title. "Dihydroxy" is a group containing two hydroxyl groups (-OH); "methyl" is a -CH 🥰 group.
In the question, the expression "1 - {[1,3 -dihydroxy-2 - (methyl) propanol-2 - yl] ethyl} propanol-1 - carboxylic acid".
From the starting analysis of the main chain, "propanol" indicates that the main chain is an alcohol structure containing three carbon atoms. Where "1,3-dihydroxy" means that there are hydroxyl groups attached to the No. 1 and No. 3 carbon atoms of the main chain, respectively. "2- (methyl) propanol-2-yl" This part can be regarded as connecting a methyl group to the No. 2 carbon of the main chain of propanol, and this propanol structure is connected to other structures as a substituent. "Ethyl" is connected to the above substituent as a dicarbon chain substituent. "Propanol-1-carboxylic acid" indicates that a carboxyl group (-COOH) is connected to the No. 1 carbon of propanol.
The chemical structure of this compound, the main chain is a carboxyl-containing propanol structure, with a hydroxyl group in carbons 1 and 3, and a methyl-containing propanol substituent in carbon 2 connected by an ethyl group. Its structural formula can be roughly described as: HOOC - CH (OH) - CH (OH) - CH (CH) - CH (OH) - CH (CH).
In this structure, the carboxyl group imparts acidity to the compound, and the hydroxyl group can participate in many chemical reactions, such as esterification reactions. The presence of methyl groups affects the spatial structure and physicochemical properties of molecules, such as the polarity and boiling point of molecules.
In this way, the chemical structure of this compound is clearly presented to you.

What are the main physical properties of 1- {[1,3-dihydroxy-2- (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid?

Alas, this question is rather strange, and the content seems to contain many mixed symbols and unknown concepts. Then let me try to solve it.
First look at this formula "1 - %{[[ 1,3 -dipentyl-2 - (pentyl methyl) propyl-2 - yl] alkyl} propyl-1 - what are the main physical properties of the acid?", among which "dipentyl", "pentyl methyl", "propyl" and other expressions are rare in conventional chemical concepts, or some kind of conjecture or misrepresentation of words.
In the field of real chemistry, when it comes to the main physical properties of an acid, the common ones are physical states. At room temperature and pressure, acids may be liquid, such as common sulfuric acid, hydrochloric acid, etc., and solid states, such as some high-grade fatty acids. Furthermore, some acids have a pungent smell, such as hydrochloric acid, while others have a weak or no special smell.
Solubility is also an important property. Many inorganic acids can be dissolved in water to form a uniform and stable solution. Boiling point and melting point are also key physical properties. Different acids vary due to their molecular structures and intermolecular forces. For example, sulfuric acid has a higher boiling point, while hydrochloric acid has a lower boiling point and is volatile.
However, due to the absurdity and bizarre content given, it is difficult to accurately correspond to conventional chemical substances and their properties. To clarify the physical properties of acids, accurate and standardized chemical names and structural descriptions are required.

In what fields is 1- {[1,3-dihydroxy-2- (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid used?

When I look at this formula, it is actually complicated. First analyze the things involved in the formula.
There are many inexplicable words mentioned in the
formula, such as "second foundation building", "a foundation building", "propylene tiger", "obvious acid" and so on. "Foundation building" is often seen in the language of alchemy cultivation, and refers to the meaning of laying a foundation and building a foundation. And words such as "A", "B" and "C" refer to each other in the traditional five elements theory. "A" belongs to wood, "C" belongs to fire, or is associated with cultivation, pharmacology and other related concepts. "Tiger" in some contexts may be a symbol of the corresponding system of the five elements, orientation, and viscera. " The meaning of "obvious acid", or refers to the characteristic of acidic substances, but in the traditional context, this straightforward expression is less common, and it must be a mixture of concepts from later generations.
As for the question of "what fields are the application of obvious acid" in this formula, if viewed from the perspective of traditional alchemy cultivation, it may be related to drug processing, alchemy refining, etc. In traditional alchemy, in order to obtain the effect of alchemy, it is often necessary to treat various types of gold stones, plants and other medicines. The acidity and alkalinity of certain substances may affect the formation of alchemy. For example, in the process of alchemy, using acidic substances or dissolving certain minerals to extract the essence of the ingredients and achieve the refining of alchemy.
From the perspective of traditional medicine, the acidity and alkalinity of drugs are closely related to their medicinal properties and pharmacology. Acidic drugs may have astringent and astringent effects, and may be used in the treatment of diarrhea, hyperhidrosis and other diseases. And different meridians and organs have different reactions to the acidity and alkalinity of drugs. Doctors need to choose drugs reasonably according to the conditions of diseases, meridians and organs.
It is also manufactured from ancient processes, such as ceramic firing, metal smelting and other fields. The acidity and alkalinity of substances are also affected. In the preparation of ceramic glazes, knowing the acidity and alkalinity of certain raw materials may control the composition and properties of glazes, so that the color and texture of fired ceramics are better. During metal smelting, acidic substances may be used for ore dissolution, impurity removal, and metal purity improvement.
To sum up, although this formula is strange, the application of "acid" may be found in traditional alchemy, medicine, process manufacturing and other fields.

What is the preparation method of 1- {[1,3-dihydroxy-2- (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid?

In order to know the method involved in this, it is necessary to first understand what each ingredient refers to. However, the expressions such as "diamyl" and "pentyl methyl" in the text seem to be specific, and the description is slightly obscure. It is necessary to first clarify the specific content.
If this is a product or a special product, it should be selected according to the format of "Tiangong", or the first mentioned raw materials. Those who need to carefully select the best products, such as the "base" mentioned in the raw materials, must be selected.
The first step is to use "1,3-diamyl-2- (pentyl methyl) propanol" for compatibility with other products. This compatibility needs to be carried out in specific utensils, such as pottery kettles. And the heat control is very important. It is advisable to warm the fire at the beginning, so that the various things are integrated, and it should be observed. If there is any foam or color change, it is necessary to pay attention.
Add its ingredients such as "-2-based", and also study. When the contents of the kettle are in a specific state, such as slightly viscous or with a specific color, it can be added, and it should be boiled at a suitable temperature.
Until it is in the state of "-1-acid", another process may be required. Or it involves acid neutralization, or there is an oxidation process. For example, if a certain acid-containing substance is mixed in an amount, it is mixed in a dense container, and it is reduced to a certain degree, reversed, and lifted, etc., the required "acid" can be obtained.
In addition, this method requires a lot of factors such as controlling raw materials, utensils, heat, and heat, etc., and a little difference can be made to obtain the required materials. However, because the expression in the text still needs to be clarified in a step, the above is also based on the formula of "Tiangong Materials".

What are the market prospects for 1- {[1,3-dihydroxy-2- (hydroxymethyl) propane-2-yl] amino} propane-1-sulfonic acid?

Looking at this question, it seems to be involved in commercial affairs, but the expression is strange, and many terms are mixed and unclear, which is difficult to explain directly. If you speculate in the style of the text of "Tiangong Kaiwu", you can say:
There is a case today that is "1-% 7B% 5B1% 2C3 -dibase-2- (methyl) propyl-2-yl% 5D ethylpropyl-1 -lactic acid. What is the market prospect?" This involves both the name of the chemical and the market prospect.
To understand the market prospect of lactic acid, you need to look at many parties. In today's world, lactic acid has a wide range of uses. In the food industry, because of its antiseptic and flavoring abilities, it can be added to various diets to enhance flavor and extend quality. In the pharmaceutical industry, lactic acid can be used to produce slow-release drug carriers, assist in drug controlled release, and improve drug efficacy. In the chemical industry, it can be used as a raw material for degradable materials, conforming to the general trend of environmental protection, and the demand is increasing.
However, changes in the market are also influenced by other factors. Whether the supply of raw materials is stable or not is related to the cost of lactic acid. If raw materials are scarce, prices will rise, which will affect market expansion. Furthermore, technological innovation is also the key. If a new method for making lactic acid comes out, it may reduce costs and improve quality, changing the market pattern. And the quality of consumers and policy orientation are all variables in the market outlook. Therefore, in order to clarify the market prospects of lactic acid, we must study various factors in detail and weigh the pros and cons before we can make a guess.