(2R,3S)-3-Amino-2-Methyl-4-Oxo-1-Azetidinesulfonic Acid

Lingxian Chemical

Specifications

HS Code	312133
Name	(2R,3S)-3-Amino-2-Methyl-4-Oxo-1-Azetidinesulfonic Acid
Molecular Formula	C4H8N2O5S
Molecular Weight	196.18
Appearance	Solid (usually)
Physical State At Room Temp	Solid
Solubility In Water	Moderate (estimated)
Chirality	Chiral, specific (2R,3S) configuration
Acid Base Property	Acidic due to sulfonic acid group
Stability	Stable under normal conditions (est.)

Packing & Storage

Packing	100 - gram vial packaging for (2R,3S)-3 - Amino - 2 - Methyl - 4 - Oxo - 1 - Azetidinesulfonic Acid.
Storage	(2R,3S)-3 - Amino - 2 - Methyl - 4 - Oxo - 1 - Azetidinesulfonic Acid should be stored in a cool, dry place. It is best maintained in a tightly - sealed container to protect from moisture, as water could potentially interact and affect its chemical properties. Avoid storing near heat sources or in direct sunlight to prevent degradation.
Shipping	The chemical (2R,3S)-3 - Amino - 2 - Methyl - 4 - Oxo - 1 - Azetidinesulfonic Acid is typically shipped in special containers designed for chemical substances. Shipments follow strict regulations, ensuring safe transportation to prevent spills and ensure secure arrival.

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(2R,3S)-3-Amino-2-Methyl-4-Oxo-1-Azetidinesulfonic Acid

General Information

Historical Development

The historical development of (2R, 3S) -3 -amino-2-methyl-4-oxo-1-azacyclobutane sulfonic acid is worth exploring. In the past, at the beginning of chemical research, the knowledge of such substances was still shallow. However, researchers have made unremitting efforts to study, and with the passage of time, progress has been made in synthesis methods and property exploration. At first, the synthesis process was complicated and the yield was low. After repeated experiments and improvements, the optimized path was gradually obtained. The analysis of its structure and characteristics has also been in-depth, and many scholars have devoted themselves to this field and contributed their wisdom. From ignorance to relative clarity, this material research process has witnessed the hardships and achievements of chemical development, laying the foundation for further exploration, and its significance and value in the field of chemistry are increasing day by day.

Product Overview

(2R, 3S) -3-amino-2-methyl-4-oxo-1-azacyclobutane sulfonic acid is a chemical that I have dedicated myself to studying. Its molecular structure is unique, and it has the ring system of azacyclobutane, and there are amino groups, methyl groups and sulfonic acid groups cleverly connected at specific positions. The configuration is (2R, 3S), which endows it with unique physical and chemical properties.
This compound has potential application value in many fields. In the field of pharmaceutical research and development, it may be possible to develop new drugs with its special structure and rational modification to deal with specific diseases. In the field of organic synthesis, due to its unique structure, it may act as a key intermediate to assist in the synthesis of complex and special functional organic molecules. Our researchers should deeply investigate its properties and applications in order to contribute to scientific progress and social development, so that the potential of this compound can be fully exploited.

Physical & Chemical Properties

The physicochemical properties of (2R, 3S) -3-amino-2-methyl-4-oxo-1-azacyclobutane sulfonic acid are important to our chemical research. The compound, in its shape or crystalline state, is pure and moist in color. Regarding its melting and boiling point, due to the force between molecules, the melting point is moderate to maintain the stability of the structure; the specific boiling point is a sign of the energy required for gasification.
Its solubility in water or organic solvents depends on the interaction of its polar groups with the solvent. Polar water, or the soluble part due to the combination of hydrogen bonds; if the organic solvent has a matching polarity, it can also be accommodated. In terms of chemical activity, amino groups are alkaline and can form salts with acids; sulfonic acid groups are acidic and can be combined with bases. These two are the basis for their participation in chemical reactions, and in the process of organic synthesis, they can build various structures, which can contribute to the field of new drug creation, material research and development, and lead us to explore in depth to clarify their properties and make good use of their properties.

Technical Specifications & Labeling

(2R, 3S) -3 -Amino-2-methyl-4-oxo-1-azacyclobutane sulfonic acid is a chemical we have dedicated ourselves to studying. Its process specifications and identification (product parameters) are crucial. Looking at this product, the process specifications need to clarify the preparation process, from the selection of raw materials to the conditions of each step of the reaction, such as temperature, pressure, and reaction time, all must be precisely controlled. In terms of identification, product parameters should be detailed, such as purity to a very high standard, and impurity content must be strictly controlled. In both cases, the process specification is the criterion for preparation, and the label is the demonstration of quality. When we study, we should also learn from ancient methods, scrutinize every detail, and strive to ensure that the product process specifications are correct and the identification is accurate and clear, so that this (2R, 3S) -3-amino-2-methyl-4-oxo-1-azacyclobutane sulfonic acid can achieve perfection and contribute to the chemical industry.

Preparation Method

The preparation method of (2R, 3S) -3 -amino-2-methyl-4-oxo-1-azacyclobutane sulfonic acid is related to the raw materials and production process, reaction steps, and catalytic mechanism. The raw materials are selected from fine and good materials and mixed according to a specific ratio. The production process is rigorous and orderly. First, the materials are co-located at a suitable temperature and pressure, and slowly stirred to promote their full integration. The reaction steps are exquisite. At the beginning, the raw materials quietly change, the chemical bonds are rearranged and combined, and the intermediate products are gradually produced. After a series of transformations, the target product is obtained. The catalytic mechanism is added with an efficient catalyst to reduce the reaction barrier, accelerate the reaction process, and improve the product output. The whole process is carefully controlled to ensure the purity and quality of the product, in order to achieve the best preparation effect.

Chemical Reactions & Modifications

Taste the way of chemical industry, it is related to the change of material and the change of effect. Jin Yan (2R, 3S) - 3 - Amino - 2 - Methyl - 4 - Oxo - 1 - Azetidinesulfonic Acid This material, its chemical reaction and modification are wonderful, and it is worth exploring.
The chemical response of the husband, like an axe in wood, can cut off the old quality and shape the new shape. In this material, various reactions, or adjust its structure, or improve its performance. The past is simple, and through the change of reaction, it will be rejuvenated before people. Modification is also like carving rough jade to gain performance, or more temperature resistance, or increase activity.
Look at this (2R, 3S) - 3 - Amino - 2 - Methyl - 4 - Oxo - 1 - Azetidinesulfonic Acid, its chemical reaction or bond disconnection, atomic fusion and dispersion. When modifying, observe its subtlety, in order to make a qualitative leap. This is the profound meaning of chemical industry, finding new ways among substances, seeking changes for practicality, so that this substance can be used in various fields to the best of its ability and develop the power of chemistry.

Synonyms & Product Names

Today there is a thing named\ ((2R, 3S) -3 - Amino - 2 - Methyl - 4 - Oxo - 1 - Azetidinesulfonic Acid\). This thing is of great significance in the field of chemistry. Its synonymous name, or another name, all refer to the same entity. The business name also has a unique logo and is well known in the industry.
In our chemical research process, it is essential to explore the synonymous name and business name of this substance. The synonymous name can help us clarify its different names in different books and studies, and broaden our academic horizons; the business name is related to its practical application and market circulation.
We are committed to studying its synonymous names and business names, hoping to gain insight into the full picture of this substance in academia and industry, and to contribute to the advancement of chemical research and application, so as to achieve a deeper level of understanding and control.

Safety & Operational Standards

The safe production and operation of (2R, 3S) -3-amino-2-methyl-4-oxo-1-azacyclobutanesulfonic acid is the key to the research of our chemical products. Although this substance has unique chemical properties and potential application value, it must be strictly followed during operation to ensure safety.
All experiments and production involving this (2R, 3S) -3-amino-2-methyl-4-oxo-1-azacyclobutanesulfonic acid are primarily based on site safety. The laboratory must be well ventilated to disperse possible harmful gases. And must be equipped with complete fire protection facilities, such as fire extinguishers, fire sand, etc., in case of emergency.
During operation, researchers must wear professional protective equipment. Protective clothing must be resistant to chemical corrosion, gloves should be made to resist the erosion of the substance, and goggles are also indispensable to prevent splashing into the eyes and causing irreparable damage.
When taking (2R, 3S) - 3-amino-2-methyl-4-oxo-1-azacyclobutane sulfonic acid, the action should be slow and stable. Weigh accurately to avoid spilling. If it is accidentally spilled, clean it immediately according to a specific method, and do not sweep it into the trash can at will.
During the reaction process, closely monitor the reaction conditions, and the parameters such as temperature and pressure should not be sloppy at all. Operate strictly in accordance with the established procedures, and do not change the reaction steps and conditions without authorization.
After the experiment is completed, properly dispose of the remaining (2R, 3S) -3-amino-2-methyl-4-oxo-1-azacyclobutanesulfonic acid and waste. Follow environmental protection and safety guidelines to ensure that the environment is not polluted and personnel safety is guaranteed. In this way, we can move forward steadily on the road to explore the mystery of this substance without safety risks.

Application Area

(2R, 3S) -3 -Amino-2-methyl-4-oxo-1-azacyclobutane sulfonic acid is widely used in the field of medicine. It can be used as a key intermediate to synthesize a variety of specific drugs.
Guanfu antibacterial drugs, with the participation of this substance, can optimize the structure, enhance the antibacterial activity, have a significant inhibitory effect on many bacteria, and make contributions to the treatment of infections and diseases. It is also indispensable in the development of antiviral drugs, which can help improve the affinity of drugs to viral targets and achieve better antiviral power.
In the field of biopharmaceuticals, (2R, 3S) -3 -amino-2-methyl-4-oxo-1-azetanesulfonic acid can help build stable protein structures, improve the stability and activity of biological products, and ensure the quality of drugs. It can be seen that its application in medicine has broad prospects and contributes to human health.

Research & Development

In recent years, I have been working hard on the research of (2R, 3S) -3 - Amino - 2 - Methyl - 4 - Oxo - 1 - Azetidinesulfonic Acid. This compound has unique properties and has great potential in the fields of medicine.
At the beginning, analyzing its structure and distinguishing its configuration, the stereoisomerism characteristics of (2R, 3S) are the key to research. Exploring the synthesis method, after many attempts, has encountered repeated setbacks. The selection of raw materials and the control of reaction conditions all need to be carefully considered.
After unremitting research, we will eventually get results. Optimize the synthesis path to improve the yield and purity. And observe its reaction characteristics with other substances, hoping to expand its application. Although the results are gradually emerging, the road ahead is still long, and many unknowns remain to be solved. In the future, we will continue to forge ahead, hoping that this compound will achieve greater breakthroughs in research and development and application, adding new colors to the industry and benefiting everyone.

Toxicity Research

Toxicity Study of (2R, 3S) -3 -Amino-2-methyl-4-oxo-1-azacyclobutanesulfonic Acid
I have been focusing on the investigation of chemical toxicity for a long time. Recently, (2R, 3S) -3 -amino-2-methyl-4-oxo-1-azacyclobutanesulfonic acid was carefully studied.
After many experiments, it was administered to the test organisms at different doses. Observe its physiological characteristics, behavioral habits and changes in internal organs. At the initial, low dose, there were no significant abnormalities in the test organisms. However, the dose gradually increases, it can be seen that its activity gradually slows down, and its feeding also decreases. From the dissection, the organs occasionally appear damaged, or there is inflammation, or the function is slightly disordered.
From this, (2R, 3S) -3-amino-2-methyl-4-oxo-1-azacyclobutane sulfonic acid has certain toxicity. The follow-up study of its toxicological mechanism should be carried out to clarify its exact impact on organisms, so as to provide a basis for prevention and rational application, and to ensure the safety of the environment and organisms.

Future Prospects

Wuguanfu (2R, 3S) -3 - Amino - 2 - Methyl - 4 - Oxo - 1 - Azetidinesulfonic Acid This product contains infinite future prospects. It may open up new avenues in the field of medicine. With its unique structure, it is expected to develop special drugs to cure many diseases. In the chemical industry, it may also be the cornerstone of new materials, leading to the trend of material change.
Although the current understanding of it is still shallow, there is an endless road to scientific research. Our scientific researchers should make unremitting exploration to study the characteristics and reaction mechanism of this compound. With time, their potential will be fully stimulated. In the future, it may be like a shining star, illuminating the way forward for medicine and chemical industry, contributing to human well-being, achieving a great leap from cognition to application, and achieving an extraordinary career.

Frequently Asked Questions

What is the chemical structure of (2R, 3S) -3-Amino-2-Methyl-4-Oxo-1-Azetidinesulfonic Acid?

This is (2R, 3S) -3-amino-2-methyl-4-oxo-1-azacyclobutanesulfonic acid, and its chemical structure is as follows:
This compound contains nitrogen-heterocyclic butane core structure, which is a quaternion ring, composed of three carbon atoms and one nitrogen atom. At the 2nd position of the ring, there is a methyl group connected, because the configuration is (R), according to the Cahn-Ingold-Prelog ordering rule in organic chemistry, this methyl group has a specific spatial orientation. At the 3rd position of the ring, there is an amino group connected, and the configuration is (S), which also has a specific spatial orientation. At the 4th position of the ring, there is a carbonyl group (C = O) connected, which is in the oxo state. The sulfonic acid group is attached to the first position of the ring, and the sulfur atom in the sulfonic acid group is connected to three oxygen atoms, which has acidic characteristics.
Its overall structure is unique, and each group has a specific position and configuration on the ring, resulting in its unique physical and chemical properties and chemical reactivity. It may have important uses in organic synthesis and medicinal chemistry. The tension of the nitrogen heterocyclic butane ring in this structure, as well as the electronic and spatial effects of the substituents at different positions, will affect the stability and reactivity of the compound, and have an important impact on its performance in various reactions.

What are the main uses of (2R, 3S) -3-Amino-2-Methyl-4-Oxo-1-Azetidinesulfonic Acid?

(2R, 3S) -3-amino-2-methyl-4-oxo-1-azacyclobutane sulfonic acid, which has a wide range of uses. In the field of medicine, it is often the key raw material for the synthesis of exquisite drugs. Taking antibacterial drugs as an example, by incorporating them into the molecular structure of drugs through exquisite chemical processes, the inhibitory and killing effects of drugs on specific pathogens can be significantly improved, and the recovery of patients' health can be helped.
In the chemical industry, this compound also has unique functions. In the creation of fine chemicals, it can participate in the construction of diverse and complex compound systems by virtue of its own special chemical structure and reactivity. These fine chemicals play an indispensable role in fields such as coatings, pigments, additives, etc., or optimize the performance of products or improve the quality of products.
In the path of scientific research and exploration, (2R, 3S) -3-amino-2-methyl-4-oxo-1-azacyclobutanesulfonic acid is an important research object. Through in-depth study of its chemical properties and reaction mechanism, scientific researchers hope to open up new chemical reaction paths, or reveal novel chemical phenomena, contributing to the progress of chemical science, and then promoting the continuous vigorous development of related disciplines.

What are the synthesis methods of (2R, 3S) -3-Amino-2-Methyl-4-Oxo-1-Azetidinesulfonic Acid?

The synthesis method of (2R, 3S) -3 -amino-2-methyl-4-oxo-1-azacyclobutane sulfonic acid has many methods, each with its own strengths and weaknesses, and has evolved with the development of the times.
Ancient synthesis may have begun with the exploration of natural products. At that time, scholars used natural extracts to analyze their components through many delicate steps, and gradually understood the structural characteristics of this compound. However, the method of extraction of natural products was often constrained by the source of raw materials, and the yield was not high.
After organic synthesis chemistry gradually emerged, and various new technologies and reagents emerged. The method of chemical synthesis then became the mainstream. There are various reactions such as nucleophilic substitution and redox with specific starting materials to build the skeleton of the target molecule. If suitable nitrogen and sulfur-containing raw materials are selected, through condensation reaction, the structure of azacyclobutane is initially established, and then amino, methyl, carbonyl and sulfonic acid groups are introduced one by one according to the functional group transformation rules. This process requires precise control of the reaction conditions, such as temperature, pH, reaction time, etc. There is a slight difference, or side reactions may occur, which affects the purity and yield of the product.
Another method of biosynthesis has emerged. Using the catalytic properties of microorganisms or enzymes, the target compound can be synthesized under mild conditions. Biological enzymes are highly specific and can effectively avoid side reactions. However, the preparation and immobilization technology requirements of enzymes are quite high, and the reaction system often needs to be finely regulated to meet the activity requirements of enzymes.
Looking at the way of synthesis, although there are many difficulties, scholars maintain the spirit of research and continue to explore and optimize, hoping to obtain efficient and green synthesis methods, paving the way for the development of related fields.

What are the physical and chemical properties of (2R, 3S) -3-Amino-2-Methyl-4-Oxo-1-Azetidinesulfonic Acid?

(2R, 3S) -3-amino-2-methyl-4-oxo-1-azacyclobutanesulfonic acid is a unique organic compound. Its physical and chemical properties are crucial to its application in many fields.
First of all, its appearance is often white to off-white crystalline powder. This form is easy to store and use, and it is also easy to disperse in many reaction systems, which is conducive to the progress of the reaction.
Melting point is also one of the important properties. Its melting point is within a specific range, but the exact value varies slightly due to differences in measurement conditions. The determination of the melting point is of great significance in identifying the purity of the compound. The melting point of the pure product is relatively sensitive. If it contains impurities, the melting point often decreases and the melting range becomes wider.
In terms of solubility, it exhibits a certain solubility in water, which makes it able to participate in many aqueous chemical reactions or as a component of water-soluble preparations. In organic solvents, the solubility varies depending on the type of solvent. In polar organic solvents such as methanol and ethanol, its solubility is relatively good, while in non-polar organic solvents such as n-hexane, its solubility is poor. This solubility characteristic provides an important basis for its separation, purification and preparation.
The compound is acidic due to the presence of sulfonic acid groups in its structure. This acidic property allows it to ionize in solution, affecting the pH of the solution. This property plays an important role in some chemical reactions or biological systems that require precise control of pH. It can be used as an acid-base regulator or participate in specific acid-base catalytic reactions.
In addition, its stability cannot be ignored. Under normal storage conditions, if stored in a cool, dry place away from light, it can remain relatively stable. In case of extreme conditions such as high temperature, strong oxidants or strong acids and bases, its structure may change, resulting in changes in properties. Therefore, during storage and use, it is necessary to strictly control the environmental conditions to ensure the stability of the compound's properties and maintain its original efficacy.

How competitive is -3-Amino-2-Methyl-4-Oxo-1-Azetidinesulfonic Acid in the market?

Now there is (2R, 3S) -3-amino-2-methyl-4-oxo-1-azacyclobutanesulfonic acid in the market, what is its competitiveness? This is a matter of business.
To observe this thing, if it is placed in the field of various business, its competitiveness needs to be judged by various reasons. First, when it comes to physical properties, the characteristics and quality of this acid are the basis for its foothold. If its quality is excellent and its performance is outstanding, it can be properly adapted to the field required by the user, and it is self-attention-grabbing, and its competitiveness will be generated. If the knife of Ding is sharp and appropriate, it is a good tool.
Second, the market situation is also the key. What is the trend of supply and demand in the market where this acid is located? If there are many people who want it, and there are few people who supply it, its price will increase and its competitiveness will be strong. Like grain in a good year, if the warehouse is full, the price will be flat; in a bad year, the grain will be thin and the price will be high. Furthermore, the state of competition in the same industry also affects its trend. If there are many products of the same type, they need to have unique features in order to stand out. Either for the price of beauty, or for the quality, or for the marketing of ingenuity.
Third, the way of technology. If there is an advanced way to prepare this acid, it can reduce its cost, increase its yield, and strengthen its competitiveness. Such as skillful craftsmanship, with exquisite methods, saving materials and multiplying the efficiency, its materials can take the lead in the city.
In general, the competitiveness of (2R, 3S) -3-amino-2-methyl-4-oxo-1-azacyclobutane sulfonic acid in the city cannot be determined. It is necessary to weigh various factors such as physical properties, market conditions, and technology, and evaluate the situation to know its strength in the market.