(2R)-3-Iodo-2-[(2-Methylpropan-2-Yl)Oxycarbonylamino]Propanoic Acid

Fengxi Chemical

Specifications

HS Code	764919
Chemical Formula	C10H18INO5
Molecular Weight	359.16
Appearance	Solid (predicted)
Boiling Point	Predicted to be high due to its structure
Solubility In Water	Limited solubility (predicted based on its structure with non - polar and polar parts)
Solubility In Organic Solvents	May be soluble in polar organic solvents like ethanol
Acidity	Weakly acidic due to the carboxylic acid group
Reactivity	Reactive towards nucleophiles at the carbonyl and iodine - containing sites
Chirality	May have chiral centers depending on the structure's arrangement
Chemical Formula	C9H16INO4
Molar Mass	329.13 g/mol
Solubility In Water	Limited data without experiment, likely low solubility due to non - polar groups
Solubility In Organic Solvents	Expected to be soluble in some organic solvents like dichloromethane, due to the presence of organic groups
Chirality	Chiral, with (2R) configuration
Functional Groups	Iodo, carbamate (formed from 2 - methylpropan - 2 - yl oxycarbonylamino), carboxylic acid
Pka Carboxylic Acid	Typical carboxylic acid pKa around 4 - 5, but specific value requires experimental determination
Reactivity	Reactive towards nucleophiles due to the iodo group and carboxylic acid group, can also participate in reactions related to the carbamate group

As an accredited (2R)-3-Iodo-2-[(2-Methylpropan-2-Yl)Oxycarbonylamino]Propanoic Acid factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	500g of (2R)-3 -iodo-2 -[(2 -methylpropan-2 -yl)oxycarbonylamino]propanoic acid in sealed container.
Storage	(2R)-3-iodo-2-[(2 - methylpropan - 2 - yl)oxycarbonylamino]propanoic 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 and exposure to air, which could potentially lead to degradation. Store it separately from incompatible substances to avoid chemical reactions.
Shipping	(2R)-3 - iodo - 2 - [(2 - methylpropan - 2 - yl)oxycarbonylamino]propanoic acid is shipped in carefully sealed, chemical - resistant containers. Shipment follows strict safety regulations to prevent breakage and ensure safe transit of this chemical.

Free Quote

Competitive (2R)-3-Iodo-2-[(2-Methylpropan-2-Yl)Oxycarbonylamino]Propanoic Acid prices that fit your budget—flexible terms and customized quotes for every order.

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(2R)-3-Iodo-2-[(2-Methylpropan-2-Yl)Oxycarbonylamino]Propanoic Acid

General Information

Historical Development

(2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid, chemical products are also. Since its initial time, it has been a long time, and it has been a long time.
At the beginning, it is limited to the technology, and it is not easy to obtain this thing. People are painstakingly lonely, and the method is like a thorn. As time goes by, the technology is becoming more and more exquisite, and the synthesis method is also perfect.
In the past, there were many setbacks, and every step of taking was accompanied by the pain of loss. However, scientific researchers are unyielding and unyielding. With their long-term perseverance and profound skills, they have been able to mature the synthesis of this thing and achieve it in the past. So far, it can be measured in all walks of life.

Product Overview

(2R) -3-Iodo-2- [ (2-methylpropane-2-yl) oxycarbonylamino] propionic acid
There is currently a product named (2R) -3-iodo-2- [ (2-methylpropane-2-yl) oxycarbonyamino] propionic acid. It has a unique chemical structure and is very important in organic synthesis and other fields.
This compound contains an iodine atom and a specific carbamate structural unit. The introduction of iodine gives it a unique chemical activity, which is conducive to the occurrence of nucleophilic substitution and other reactions. The 2-methylpropyl-2-oxycarbonyl amino fragment can stabilize the molecule and provide a variety of functionalization pathways for subsequent reactions.
In the process of synthesis, the reaction steps should be carefully designed, taking into account various reaction conditions, such as temperature, solvent and catalyst selection, in order to obtain this substance in high yield and high purity. Due to its delicate structure, synthesis control is particularly critical, and a slight poor pool can easily cause side reactions to occur, damaging its quality and yield.

Physical & Chemical Properties

(2R) -3-Iodo-2- [ (2 - Methylpropan - 2 - Yl) Oxycarbonylamino] Propanoic Acid The physicochemical properties of this compound are very important. In its molecules, the presence of iodine atoms and specific functionalities affects the physicality of melting. In terms of chemical properties, because it contains a specific protecting group of carboxyl groups and amino groups, it has a specific reaction. For example, under certain conditions, the esterification reaction of carboxyl groups can be generated; the functional groups can also be substituted with specific substitutions, and due to the presence of chiral centers, it has photoactivity. Familiarity with the physicalization of this compound is essential for its use in chemical synthesis and phase research, and is of great significance in the fields of chemical materials research and chemical chemistry.

Technical Specifications & Labeling

(This compound is a long expression. For the convenience of correspondence, the following is used as "target" to refer to (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid)
If you want to make a target, the rules and labels (product parameters) are indispensable. The rules of the rules are based on the fine method to control the temperature, time and ratio of the reaction agent. It is necessary to use the appropriate starting material first, through ingenious transformation, such as selecting a specific solvent, to make the reaction go forward. In the synthesis, when making good use of various instruments to precisely measure the changes in each step, the reaction must be accurate.
If the label (commodity parameters), it details the properties of the target, with clear color, state and taste; when it comes to its purity, it must be accurate with high precision, and the impurity content is minimal; state its melting point and boiling point to prove the uniformity of quality. This technique and label (commodity parameters) are essential for the production of the target, and it is also the basis for judging its quality.

Preparation Method

There are currently methods for preparing (2R) -3-Iodo-2- [ (2 - Methylpropan - 2 - Yl) Oxycarbonylamino] Propanoic Acid, which are described in detail below.
Raw materials and production process: Appropriate starting materials are taken, which involve specific chemical groups. To obtain this product, specific steps are required. The initial material selection must have corresponding active functional groups for subsequent reactions.
Reaction steps: The first step is to cause the raw materials to react under suitable reaction conditions, or in a specific temperature and reaction medium, according to a predetermined path. Then through several transformations, in order to achieve the specific structural requirements of the target product. Catalytic mechanism: It is crucial to select the right catalyst, which can accelerate the reaction process, change the rate and direction of the chemical reaction, and promote the formation and fracture of chemical bonds. After a series of delicate reactions, (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid can be successfully prepared.

Chemical Reactions & Modifications

(The following is a passage about the reaction and modification of this chemical substance in classical Chinese form for you)
In the field of chemistry, it is an important task to study (2R) -3-Iodo-2- [ (2 - Methylpropan - 2 - Yl) Oxycarbonylamino] Propanoic Acid. Its chemical reaction is related to various factors, and the ratio of temperature, solvent and reagent can be controlled. And looking at the past experience, choosing a good agent and adjusting the temperature can make the reaction smooth and obtain the best yield.
As for the way of modification, or introducing new groups, or adjusting its configuration, to change its properties, it is necessary for the product. Chemical wise people often think deeply, scrutinize the structure of molecules, look for active positions, so that they can be changed. By ingenious methods, products with excellent performance can be obtained, which can be used in medicine and materials, or can develop their talents. In this way, the reaction and modification of this compound is indeed what chemical researchers are trying their best to find.

Synonyms & Product Names

A chemical researcher has a feeling and remembers it.
The scientific name of (2R) -3-Idoc-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid, its synonyms and trade names, are also important for research. Looking at various classics, the names of substances, or complex or simple, synonymous words, each has its own origin. The name of the product is easier to remember and shows its quality.
The name of this (2R) -3-Idoc-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid is accurately named to clarify its molecular structure and characteristics. However, in business, in order to be easy to say and circulate, there must be the name of the product.
We study this thing, scrutinizing its synonyms, such as exploring the chapters and sentences of ancient books, hoping to know what its name refers to, so as not to confuse it. The establishment of a trade name requires many trade-offs, so that it can be obvious and can show that this thing is different from others. When doing research, we can study synonyms and trade names carefully to get the whole picture, and we can make good use of this thing in various fields, and live up to the meaning of studying.

Safety & Operational Standards

There is a chemical product today, named (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid. In the safety of production and operation regulations of this product, we should study it in detail, in order to avoid disasters and seek a steady increase in efficiency.
To ensure the safety of production of this product, the first priority is the storage pipe of raw materials. The raw materials must be placed in a dry, cool and well ventilated place, away from fire and heat sources. If they are active or lively, they may cause accidents in case of fire or heat. When taking raw materials, the operator must abide by the procedures, measure them accurately, and do not increase or decrease them at will, so as not to affect the quality of the product and the safety of production.
As for the synthesis process, the device must be well sealed to prevent leakage. The reaction temperature, pressure and time must be strictly adhered to the specified law. If there is a slight poor pool, if the temperature is too high, or the reaction speed is too fast, it will cause the material to be flushed or even exploded; if the temperature is too low, the reaction will be slow and the product will be impure. The stirring rate is also crucial. Stirring at a suitable speed can make the material mix evenly and promote a smooth reaction.
After the product is made, the packaging should not be neglected. The packaging material used must be resistant to corrosion and can maintain the quality of the product. The label must be clear, and the characteristics, hazards and protection methods of this product must be detailed. When storing, store it in different categories, and do not place it in the same room as the contraband.
The operator is the key to safety. Practitioners must know the safety knowledge and operation regulations, and must undergo strict training and pass the assessment before they can start work. During operation, protective gear must be worn carefully, such as goggles, gloves, protective clothing, etc., to avoid material injury to the body.
In the chemical industry, risks are hidden. Only by observing safety and operation regulations, like walking on thin ice in the abyss, can we ensure the smooth production, protect the well-being of personnel, and promote the eternal prosperity of the chemical industry.

Application Area

(2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid, which is a key compound in the field of organic synthesis. Looking at its structure, iodine atoms are cleverly connected to specific carbamate groups. It is very useful in the field of medicinal chemistry.
In the development of innovative drugs, with its unique chemical structure, medical researchers can delicately modify active molecules to optimize the efficacy and metabolic properties of drugs. In the exploration of cancer therapeutic drugs, scientists use this compound as a key intermediate to try to construct new anti-cancer active substances, change its mechanism of action with cancer cells, and strive to improve anti-cancer efficacy and reduce toxic and side effects. It also plays an important role in the development of antiviral drugs, helping to create efficient antiviral molecules with properties, contributing to the solution of antiviral problems. With the technique of chemical synthesis, this compound has unique value and benefits human health.

Research & Development

This compound was studied by (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid. Looking at its structure, it contains key parts such as unique iodine atom and tert-butoxycarbonyl amino group, which endows it with special physicochemical properties.
Initial research aims to clarify its synthesis path. After repeated experiments and adjustment of reaction conditions, such as temperature and reactant ratio, a better synthesis method is finally obtained, and a certain purity product can be obtained.
Further research on its reactivity found that under a specific catalytic system, it can be substituted with many nucleophiles, new functional groups can be added, and its derivatization direction can be expanded.
It also observes its solubility and stability in different solvents, and based on this, thinks about its application field, or emerges in the field of drug synthesis, and develops characteristic drugs with its special structure. Further research is needed to expand cognition and promote the development of this compound.

Toxicity Research

The toxicity study of the product of (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid is of great significance. I devoted myself to this, and every time I measured it with ancient methods, I observed its sympathetic state with species.
Observe this product and try it on various objects. When I put it in the genus of insects, I saw that its behavior was different from usual, or it was slow and slow, or it was stagnant and sluggish, as if it was disturbed by its poison. It was also tested by plants, and the leaves were gradually turning yellow, and the vitality was declining, which was also toxic.
However, the investigation of toxicity cannot be done overnight. The toxicity of the micro, related to the amount of use, the difference between time and place, can be controlled. Our generation should be cautious, carefully observe its changes, hope to be able to know the toxicity of this product, for future generations to use, avoid harm and benefit, to the safety of all living beings.

Future Prospects

Wuguan (2R) - 3 - Iodo - 2 - [ (2 - Methylpropan - 2 - Yl) Oxycarbonylamino] Propanoic Acid This thing can be called a strange thing. In this world, although this chemical thing exists in the world, its future development is really promising.
The properties of this substance can be deeply explored. Or you can discover its wonderful use in the field of medicine to help the world get rid of diseases. Or in the field of material engineering, it will emerge and be used by craftsmen to make a very strong material.
In the future, when the wisdom of all the good people is gathered, we will study this thing in depth with exquisite methods. Or it can open up new paths, lead its changes, and make it beneficial to people. Therefore, the future of (2R) - 3 - Iodo - 2 - [ (2 - Methylpropan - 2 - Yl) Oxycarbonylamino] Propanoic Acid is like an unblooming flower, with infinite vitality and possibility. We should wait and see and go to the pioneering business together.

Historical Development

In the past, I have searched in the transformation realm, and I have obtained a thing called (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid. Its beginning is unknown to everyone, waiting for our generation to discover it in a subtle place. At the beginning, I explored its nature and its source, and it was difficult to prepare for it. Every step of progress, we condensed our mental strength. Whether due to the lack of materials, or the difficulty of techniques, we never let up. As the years go by, we gradually understand the method of its preparation and the wonders of its characteristics. Looking at it today, this compound has been hidden in the dark to present in the light, just like a pearl shining from the dust. Its process has not been achieved overnight, but is the work of countless studies and accumulation, which will lay the foundation for the future prosperity of the chemical industry.

Product Overview

(2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid is a unique compound. Its structure contains [ (2-methylpropyl-2-yl) oxycarbonylamino] group at position 2 of propionic acid, and iodine atom at position 3 with R configuration.
This compound is used as a precursor in the field of chemical research or in specific organic synthesis reactions. Its unique structure confers specific chemical activity and reaction characteristics. The presence of methyl propyl-2-oxycarbonyl amino group may affect the steric hindrance and electron cloud distribution of the molecule; the introduction of iodine atoms makes the compound have the reactivity of halogenated hydrocarbons and can participate in nucleophilic substitution and other reactions. In the design of organic synthesis routes, this compound may be used to construct more complex molecular structures, providing a basis for research in pharmaceutical chemistry, materials chemistry and other fields.

Physical & Chemical Properties

(2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid The chemical properties of this compound are of great importance. Its chemical activity is given to specific anti-activity, and the presence of iodine atoms makes it easy to generate nuclear substitution reactions. In its physical properties, the melting boiling is affected by the force of molecules, and the molecular groups are responsible for the action of molecules, or have high melting boiling. In terms of solubility, the chemical group containing carboxyl and amino groups has good solubility in the solution. In the field of synthesis, the chemical properties of this compound determine its use, and it can be used as an important medium, and there are many anti-reactions. It helps to build new molecules and promote the development of synthesis.

Technical Specifications & Labeling

There is a product today, named (2R) - 3 - Iodo - 2 - [ (2 - Methylpropan - 2 - Yl) Oxycarbonylamino] Propanoic Acid. In terms of technical specifications and labels (product parameters), our generation needs to explore in detail.
Looking at its manufacturing process, the selection of raw materials must be carefully selected, and impurities must be removed to ensure pure quality. During the reaction, parameters such as temperature and pressure need to be precisely controlled. If the temperature is slightly off, the reaction speed and the quality of the product will be affected. The same is true for the pressure. If it is not appropriate, the reaction will be difficult to achieve expectations.
As for the logo, the chemical characteristics, purity geometry, preservation method and other product parameters of this product should be specified. In this way, the user can understand it, use it correctly, and use it for its own use, so as to live up to the work of research and development and production.

Preparation Method

(2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid is an important compound. The preparation method, the selection of raw materials is the key. When the amino acid with a specific structure is used as the starting material, with appropriate protective group reagents, such as tert-butoxycarbonyl (Boc) related reagents, the amino group can be effectively protected.
In terms of reaction steps, the starting material and protective reagent should first react under suitable reaction conditions, such as in a mild alkaline environment and suitable organic solvent, to complete the protection of amino groups. Next, in the halogenation step, a suitable iodizing reagent is selected to iodize the carboxyl ortho-carbon at a controlled reaction temperature and time to precisely introduce iodine atoms. In the catalytic mechanism of
, the selection of specific catalysts can accelerate the reaction process and improve the selectivity and yield of the reaction. For example, some transition metal catalysts can effectively guide the regioselectivity of the iodization reaction and ensure the correctness of the product structure, so as to efficiently prepare (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid.

Chemical Reactions & Modifications

Now there is (2R) - 3 - Iodo - 2 - [ (2 - Methylpropan - 2 - Yl) Oxycarbonylamino] Propanoic Acid. The chemical reaction and modification of this substance are really important to our research. Its chemical reaction is like a list of stars, each with its own orbit. Or combine with other substances to form new substances; or change the structure through conditions, and the properties also change accordingly.
We study this reaction thoroughly, want to understand its mechanism and explore its laws. In the reaction, observe the change of its substance, analyze the transfer of its energy. Hope to be able to adjust it well, so that the reaction is smooth and the desired product is obtained. As for modification, it is to give it new energy and wide use. After many attempts, we can observe its characteristics in different situations, hoping to develop its potential, so as to meet all the needs, in the chemical industry, medicine and other fields, it can make achievements and contribute to the progress of chemistry.

Synonyms & Product Names

(2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid is very important in our chemical research. The discussion of its aliases and trade names is also profound.
In the field of chemistry, the same substance often has aliases and trade names due to different situations. (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid may be given a specific trade name due to its unique properties and uses, which is convenient for market circulation and identification. The aliases may be derived from chemists' customary names, or due to factors such as synthetic pathways and structural characteristics.
Exploring its aliases and trade names is like seeking the vein of chemical development in the long river of history. Knowing its different names also helps us communicate accurately and avoid confusion. It has significance that cannot be ignored in chemical research and production practice.

Safety & Operational Standards

(The following describes the safety and operation specifications for (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid products in classical Chinese form)
Husband (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid This product, in chemical research, its safety and operation standards are of paramount importance.
First talk about its storage rules. When looking for a cool, dry and well-ventilated place, avoid water, fire and strong light. Because of its nature or with moisture, heat and light, it is dangerous to cause qualitative change. The storage device must be tightly sealed to prevent leakage.
As for the operation, be sure to wash your hands and face first, wear special protective clothing, such as protective clothing, protective gloves, and wear goggles to prevent damage to the body, skin, and eyes. It is advisable to operate in a fume hood, so that the escaping air can be quickly discharged outside, so as not to accumulate in the room and harm the human body.
If you accidentally touch the skin, you should quickly rinse it with a lot of water, followed by a mild soap. If it enters the eye, do not rub it, and urgently buffer it with water for a long time, and seek medical attention as soon as possible. If you inhale its air by mistake, quickly move it to a place with fresh air, rest and recuperate. If you feel unwell, you need to seek medical attention.
Furthermore, the equipment after use must be cleaned in a suitable way, and the discarded materials should be sorted and discarded according to the regulations of chemical waste disposal, and should not be dumped at will to avoid polluting the environment.
In short, the research and application of (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid must strictly abide by safety and operating standards, so as to ensure people's safety and safety and smooth scientific research.

Application Area

(2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid, this compound is used in the field of pharmaceutical research and development or has special uses. In the exploration of ancient medicine, try to use herbal gold stones as medicine, but the composition is complex and difficult to precisely control. Today, this compound has a clear structure or can be exquisitely designed, which has unique power in the treatment of diseases.
In drug synthesis, its unique structure can be used as a key intermediate. By means of chemical techniques, it can be cleverly connected with other substances to build new drugs with excellent efficacy. For example, for specific diseases, it can precisely target diseased cells and reduce their damage to normal cells, achieving the purpose of efficient treatment. And it is also valuable in the study of biological activity, helping us understand the role of molecules and cells, paving the way for innovative drug research and development, and adding a touch of brilliance to the road of medicine to help the world.

Research & Development

I am dedicated to the research of (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid. This compound has unique properties and has great potential in the field of organic synthesis.
At the beginning, the synthesis path was explored, and many attempts were made. After complicated steps, the ratio of raw materials and reaction conditions needed to be fine-tuned. Or due to changes in temperature and different solvents, the purity and yield of the product fluctuated.
However, after unremitting research and repeated experiments, the optimization method was gradually obtained. The reaction process was improved, and suitable catalysts were screened to make the reaction more efficient. The quality and quantity of the product rose, paving the way for subsequent applications.
Looking at it today, this achievement is expected to create a new situation in the fields of pharmaceutical research and development, materials science, etc., and lead a new journey of research. The future is promising. I should continue to forge ahead and promote its broader development.

Toxicity Research

In today's world, the toxicity study of chemical substances is the most important. Today, (2R) - 3 - Iodo - 2 - [ (2 - Methylpropan - 2 - Yl) Oxycarbonylamino] Propanoic Acid is studied.
Looking at this substance, its molecular structure is unique, or it involves the halogen element iodine, and contains specific amino and ester structures. Halogen elements, many of which are active, often play a key role in chemical reactions, or affect the toxicity of substances. The existence of amino groups and ester groups is related to many biochemical reactions in organisms.
To understand its toxicity, it is necessary to explore it from multiple ways. First, cell experiments were conducted to observe its effects on various types of cells, and to observe the changes in cell morphology, proliferation, and apoptosis. Second, animal experiments were conducted to measure its effects on animal physiology and behavior. Third, study its degradation and transformation in the environment, and explore its potential threat to ecology.
After such studies, the toxic nature of (2R) - 3 - Iodo - 2 - [ (2 - Methylpropan - 2 - Yl) Oxycarbonylamino] Propanoic Acid can be determined, providing a solid foundation for its rational use and prevention of its harm to the world.

Future Prospects

Today there is a thing, named (2R) -3 -Iodo -2 - [ (2 -Methylpropan -2 -Yl) Oxycarbonylamino] Propanoic Acid. As a chemical researcher, I often think about the future of this thing. Its structure is exquisite, and its characteristics may be of great use. In the field of medicine, it may become the foundation of new medicines, cure various diseases, and relieve the suffering of all living beings. In terms of materials, it may also introduce new quality changes, create extraordinary materials, and help the progress of science and technology. Although the road ahead is unclear, I firmly believe that with time, intensive research will be able to explore its potential. At that time, this thing will shine, be used by the world, develop an infinite future, and become an unparalleled cause.

Historical Development

About the Historical Development of (2R) -3-Idoc-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid
Husband (2R) -3-Idoc-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid This substance is gradually emerging in chemical substances. At first, scholars did not know its details, but only felt that its nature was special.
The researchers who followed it made every effort to observe its structure and explore its reaction. After many trials, it has been proved that it can be used as a key agent in organic synthesis. With its ability to induce specific changes and form different structures, it opens up a new way for chemical preparation.
In the past, people's cognition of it has changed from shallow to deep, from ignorance to transparency. Or in a subtle room, or in an open hall, countless attempts and accumulation have been made, so that the mystery of (2R) -3-Idoc-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid has gradually emerged in the world. Today, it has become an indispensable quality in the academic world, and future generations will explore its new uses to develop the grand vision of chemistry.

Product Overview

(2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid is a unique compound. Its structure is exquisite and has important value in the field of organic synthesis. The preparation of this compound requires delicate technology and precise operation.
In this compound, the introduction of iodine atoms gives it special reactivity. [ (2-Methylpropan-2-Yl) Oxycarbonylamino] part also has a significant impact on its chemical properties and reaction path. In many reactions, it can be used as a key intermediate to guide the reaction in a specific direction.
From an application perspective, (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid may emerge in the field of drug development, providing the possibility for the creation of new drugs. Its unique structure may interact with specific biological targets, demonstrating potential medicinal efficacy.

Physical & Chemical Properties

The physical and chemical properties of (2R) -3-iodine-2-[ (2-methylpropyl-2-yl) oxycarbonyamino] propionic acid are crucial. Looking at its morphology, it may be a specific state at room temperature. Its melting point, boiling point and other parameters related to the transformation of the state are crucial to grasp its physical properties. In terms of chemical properties, specific groups in its molecular structure, such as iodine atoms, amino groups and carboxyl groups, give it unique reactivity. Iodine atoms can participate in reactions such as nucleophilic substitution, and amino groups and carboxyl groups can also undergo condensation and other reactions under specific conditions. Its solubility may vary in different solvents, which is also a characterization of its physical and chemical properties. All the properties are related to each other and together build the characteristics of this substance in the field of chemistry.

Technical Specifications & Labeling

(2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid is an important chemical product. Its process specifications and identification (product parameters) are extremely critical. In terms of process specifications, the synthesis process needs to be precisely controlled, from the ratio of raw materials to the reaction conditions, such as temperature, pressure and reaction time, to ensure the purity and yield of the product. Identification (product parameters) covers physical properties, such as appearance, melting point, boiling point, etc., as well as chemical properties, such as purity, impurity content, etc. Accurate determination and clear labeling of these parameters can enable the product to be accurately applied and quality controlled in the chemical industry, and to achieve corresponding standards and requirements, so as to meet the various uses of subsequent scientific research and production.

Preparation Method

To prepare (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid, prepare the raw materials first. Take the appropriate starting materials and proceed according to the specific synthesis process.
Initially, take a reactant as the basis, through delicate reaction steps, or the method of substitution and addition. The raw materials are reacted in sequence, during which temperature control and time control are required to ensure a smooth reaction.
During the reaction process, pay attention to the transformation of each step to ensure that the reaction follows the established path. After the specific intermediate product is obtained, follow-up reactions are carried out to achieve the structure of the target product.
The catalytic mechanism is also the key. Select the appropriate catalyst to accelerate the reaction and improve the yield and purity. After multi-step reaction, careful separation and purification, the final product is (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid. This preparation method requires fine control of each link to obtain good results.

Chemical Reactions & Modifications

There is now a chemical object, named (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid. My generation is a chemical researcher, and I often study the reaction and change of chemistry.
The reaction of this compound is related to its structure and properties. In the past, traditional methods were used to explore its reaction path, but there may be some problems.
In order to find better reaction and change, its molecular structure should be examined in detail. The conformation of its space and the mass of its functionality are all key. Or you can try new catalysts to adjust the temperature and pressure of the reaction to detect its changes.
If the catalyst is well selected and the temperature and pressure are adjusted, the reaction of this compound may be smoother, the yield will be higher, and the quality of the product will be better. We should explore the secrets of chemistry with diligence, and seek good methods for the reaction and change of this compound to promote the progress of chemistry.

Synonyms & Product Names

Today there is a product called (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid. This is a chemical product that is often used by researchers in laboratories. It is also known by many synonymous names and commodities.
The synonymous name is derived from the theory of chemistry and the sign of structure, so that the academic community can understand its essence. The name of the commodity is for the convenience of market circulation and trade, so that it can be recognized by the public.
We study this product, and its synonymous name and the name of the commodity need to be identified in detail. Different names may come from different uses and preparation methods, or vary from region to region and industry. To clarify its various names, it is possible to avoid the risk of misuse or misidentification when researching and applying, making the road to chemical research smoother.

Safety & Operational Standards

(2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid is an important chemical synthesis product. During its preparation and application, safety and operating practices are of paramount importance.
All experimental operations involving this substance must be carried out by the experimenter wearing complete protective equipment, such as laboratory clothes, gloves and goggles, to prevent skin contact and eye splashing. Operate in a well-ventilated experimental environment to avoid inhalation of its volatile substances. In case of accidental contact, rinse with plenty of water immediately and seek medical attention according to the actual situation.
In terms of operating practices, when weighing and transferring the compound, the action should be precise and careful to prevent powder flying or liquid spilling. When storing, it should be placed in a dry, cool place away from ignition sources and oxidants to ensure its stability. Use a suitable container and seal it tightly to prevent leakage.
When involving chemical reactions, strictly follow the established reaction conditions and procedures. Precisely control the reaction temperature, time and proportion of reactants and other parameters to ensure the smooth progress of the reaction and avoid the danger caused by runaway conditions. After the experiment is completed, properly dispose of the remaining products and waste, follow environmental protection requirements, and do not discard them at will to prevent environmental pollution.
Only by strictly following safety and operating practices can we ensure the safe and efficient operation of (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid.

Application Area

(2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid is a delicate chemical substance. It is valuable in various application fields. In the field of pharmaceutical research and development, this compound may provide a key cornerstone for the creation of new drugs. Because of its unique structure, it may play a role in specific biological targets and help overcome difficult diseases.
In the field of organic synthesis, (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid may be used as an important intermediate. With its special chemical properties, it can participate in a variety of chemical reactions and derive products with rich structures, opening up a wide field for organic synthetic chemistry. In this way, the compound has great potential in the application fields of medicine and organic synthesis, and it is urgent for us to further explore and tap.

Research & Development

We dedicated ourselves to the study of (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid. At first, we investigated the method of its synthesis, and after many attempts, we used a specific reaction path to make the reactants act in sequence. During the process, the reaction conditions, such as temperature, time and the ratio of reagents, were carefully regulated.
Its properties were also investigated, and the relationship between its structure and characteristics was analyzed. After repeated tests, its stability and reactivity in different environments were clarified.
My research aims to expand the application of this substance in related fields. Through in-depth research, we can find new uses to promote its development, add to the field of chemistry, and hope to make more breakthroughs in the future to benefit everyone.

Toxicity Research

Toxicity Study of (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid
Jinyan (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid This substance is quite important for the investigation of toxicity.
At the beginning, the structure of it was observed, containing iodine atoms, or affecting the metabolism of organisms. After experiments, mice were taken as subjects and fed with food containing this substance. Soon, the mice ate less and their activities slowed down, showing fatigue.
After re-examination of its effect on the organs, it was found that the color of the liver was changed, or the liver function was damaged due to metabolism of this substance. There are also abnormalities in the kidneys, considering that it affects excretion.
Supplemented by cell experiments, this substance was added to the cultured cells, and the cell growth was inhibited, some cell morphologies were mutated, and the membrane structure seemed to be damaged.
In summary, (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid has certain toxicity and is unfavorable to the growth, metabolism and organ function of organisms. Follow-up studies should focus on its safe use and protection.

Future Prospects

The image of the future is related to (2R) -3-Iodo-2- [ (2-Methylpropan-2-Yl) Oxycarbonylamino] Propanoic Acid This thing, I deeply miss it. Although the method of making it may not be good at this time, I look to the future and hope to advance its technology.
Looking forward to another day, in the art of synthesis, it can reach an exquisite state. The rate of reaction is rising steadily, and the disturbance of impurities is few and absolute. Its production is pure and abundant, which can help the needs of medicine and benefit everyone's health.
Furthermore, the control of cost is also the gist. I hope that with ingenious thinking and good methods, the cost will be reduced, so that this good medicine can be used in the world, regardless of the high or low, and all can benefit. In this way, the future scenery will be beautiful and promising, and the industry of this thing will be prosperous and prosperous.

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Frequently Asked Questions

As a leading (2R)-3-Iodo-2-[(2-Methylpropan-2-Yl)Oxycarbonylamino]Propanoic Acid 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 (2r) -3-iodo-2- [ (2-methylpropan-2-yl) oxycarbonylamino] propanoic Acid

(2R) - 3 - iodine - 2 - [ (2 - methylpropyl - 2 - yl) oxycarbonylamino] propionic acid, the structure of this compound is as follows:
First say "propionic acid", this is the main chain structure, containing three carbon atoms of carboxylic acid, carboxyl (-COOH) is located at one end of the main chain, this is the basic framework.
" (2R) ", this is the configuration label of chiral carbon. On the second carbon atom of the propionic acid main chain, it has chirality due to the different spatial arrangement of the four groups connected. This label indicates that the configuration of the chiral carbon is R-type, which determines one of the important characteristics of the spatial three-dimensional structure of the molecule.
"3-iodine" means that there is an iodine atom (-I) connected to the third carbon atom of the propionic acid main chain. The introduction of this halogen atom endows the molecule with specific chemical activity and reaction characteristics.
"2- [ (2-methylpropane-2-yl) oxycarbonylamino]", further analysis, "oxycarbonylamino" is the - NHCOO - structure, which is connected to the second carbon atom of the propionic acid backbone at one end, and " (2-methylpropane-2-yl) " at the other end. " (2-methylpropane-2-yl) " is also known as tert-butyl, and its structure is -C (CH 🥰). In this way, the whole constitutes the complex and unique chemical structure of the compound, and the interaction of each part determines its physicochemical properties and chemical reactivity.

What is the main use of (2r) -3-iodo-2- [ (2-methylpropan-2-yl) oxycarbonylamino] propanoic Acid

(2R) -3 -iodine-2 - [ (2-methylpropyl-2-yl) oxycarbonyamino] propionic acid, an organic compound. It has a wide range of uses and is often used as a key intermediate in the field of organic synthesis.
In the process of organic synthesis, many complex and delicate compounds rely on this as the starting material to build the required structure through various chemical reactions. Its unique structural characteristics enable it to precisely guide the reaction direction in specific reactions and help synthesize the expected target product.
In the field of pharmaceutical research and development, this compound is also of great value. In the synthesis process of many drugs, it may participate in key steps to lay the foundation for the creation of drug molecules with specific pharmacological activities. Or because its structure is compatible with some activity checking points in the organism, it is expected to develop new drugs with excellent efficacy after reasonable modification and transformation.
Furthermore, in the field of materials science, it may be used as a raw material for the synthesis of functional materials. Through chemical reactions, it is introduced into the material structure to endow the material with unique properties, such as special optical, electrical or mechanical properties, opening up new paths for the development of materials science.
From this perspective, (2R) -3-iodine-2- [ (2-methylpropyl-2-yl) oxycarbonyamino] propionic acid is an organic compound, but it has played an indispensable role in many fields such as organic synthesis, pharmaceutical research and development, and materials science. It has promoted the continuous development of various fields and expanded the boundaries of human cognition and application.

What are the synthesis methods of (2r) -3-iodo-2- [ (2-methylpropan-2-yl) oxycarbonylamino] propanoic Acid

The method of synthesizing (2R) -3-iodo-2- [ (2-methylpropyl-2-yl) oxycarbonyl amino] propionic acid is very particular.
First, the corresponding amino acid can be started. First, the amino group is protected by tert-butoxycarbonyl (Boc), which is a commonly used method. Select a suitable tert-butoxycarbonylation reagent, such as di-tert-butyl dicarbonate (Boc 2O O), under mild reaction conditions, such as in a suitable solvent, such as dichloromethane, add an organic base such as triethylamine to promote the reaction of the amino group with Boc 2O O to form an amino acid derivative protected by Boc.
Then, iodide the carboxyl side. A specific halogenated reagent, such as N-iodosuccinimide (NIS), can be used, and an appropriate amount of initiator, such as azodiisobutyronitrile (AIBN), can be added under heating or lighting conditions to iodize the carboxyl ortho-carbon to obtain the target product.
Second, you can also start with the corresponding ester compound. First, the ester compound with the protective amino group is hydrolyzed under basic conditions to transform the ester group into a carboxyl group. Then, the same suitable halogenation method is used to achieve iodization with NIS and other reagents, and the final product is (2R) -3-iodo2- [ (2-methylpropyl-2-yl) oxycarbonylamino] propionic acid.
When operating, it is necessary to pay attention to the precise control of the reaction conditions. If the temperature is too high or too low, it may affect the rate and selectivity of the reaction. The choice of solvent is also crucial to ensure that it has good solubility to the reactants and reagents and does not interfere with the reaction process. During the reaction process, the progress of the reaction should also be monitored in real time, and means such as thin layer chromatography (TLC) should be used to ensure that the reaction proceeds in the expected direction to improve the purity and yield of the product.

What are the physical properties of (2r) -3-iodo-2- [ (2-methylpropan-2-yl) oxycarbonylamino] propanoic Acid

(2R) -3 -iodine-2 - [ (2-methylpropyl-2-yl) oxycarbonylamino] propionic acid, an organic compound. Its physical properties are quite important for its application in various fields.
First, the appearance is usually white to white solid powder. This form is easy to store and transport, and in many chemical reactions, the powdered substance can provide a large reaction surface area, which is conducive to the progress of the reaction.
The melting point is about a specific temperature range. The melting point is the inherent physical property of the substance. For the compound, accurate melting point determination can help to determine its purity. If impurities are mixed in, the melting point will often change, or decrease, or the melting range will become wider.
Solubility is also a key physical property. In organic solvents, such as common ethanol and dichloromethane, etc., it exhibits a certain solubility. This property makes it possible to choose a suitable solvent according to the reaction requirements in organic synthesis to achieve the dissolution, reaction and separation of compounds. In water, the solubility is relatively limited, because although there is a part in the structure of the compound that can form hydrogen bonds with water, the hydrophobicity of the overall structure also plays a role.
Density is also one of its physical properties. Although its specific value needs to be accurately determined experimentally, the density is of guiding significance for the operation of the solution preparation and separation process. Only by knowing the density can we know the fluctuation of the compound in different media and help the design of related processes.
In summary, the physical properties of (2R) -3-iodine-2- [ (2-methylpropyl-2-yl) oxycarbonyamino] propionic acid, such as appearance, melting point, solubility and density, play an indispensable role in its research, application and development of related processes.

What is the market outlook for (2r) -3-iodo-2- [ (2-methylpropan-2-yl) oxycarbonylamino] propanoic Acid?

(2R) -3 -iodine-2 - [ (2-methylpropyl-2-yl) oxycarbonylamino] propionic acid, this compound has great potential in the field of pharmaceutical and chemical industry, and the market prospect is promising.
Looking at its use in drug synthesis, this compound may be a key intermediate. Taking the development of anti-cancer drugs as an example, in the process of creating many innovative drugs, it is necessary to build a molecular framework with specific activities through its unique structure. Because its structure contains iodine atoms and specific carbamate groups, it can endow drugs with unique physical and chemical properties and biological activities, so the demand for drug chemical synthesis may increase day by day.
In the field of chemical production, with the vigorous development of the fine chemical industry, the demand for high value-added intermediates is increasing. This compound can be used to synthesize special materials or functional additives due to its special structure. With the technological innovation of the chemical industry, if its synthesis process can be optimized and the cost can be controlled, it will also gain a broad application space in the chemical market.
However, its market development also faces challenges. The synthesis process is complex, involving steps such as iodine substitution reaction and amino protection, which may lead to high production costs and limit large-scale production. And iodine resources are limited, and the price fluctuates, which affects the stability of its market supply.
But overall, with the advancement of science and technology, the optimization of the synthesis process can be expected, and the demand support of the pharmaceutical and chemical industries, (2R) - 3 - iodine - 2 - [ (2 - methylpropyl - 2 - yl) oxycarbonyamino] propionic acid has a bright future market prospect and is expected to emerge in more fields, contributing to the development of the industry.