4-Iodopyridin-2-Amine

Fengxi Chemical

Specifications

HS Code	235812
Chemical Formula	C5H5IN2
Appearance	Solid
Melting Point	N/A
Boiling Point	N/A
Solubility In Water	Low
Solubility In Organic Solvents	Moderate
Density	N/A
Pka	N/A
Stability	Stable under normal conditions
Name	4-Iodopyridin-2-Amine
Molecular Formula	C5H5IN2
Molecular Weight	222.01
Appearance	Solid (likely white to off - white)
Cas Number	89488-75-3
Boiling Point	Data may vary, typically higher due to polar groups
Melting Point	Data specific to compound needed
Solubility	Soluble in some polar organic solvents like DMSO, less soluble in non - polar solvents
Density	Data specific to compound required
Pka	Related to the basicity of the amine group, data needed for exact value
Flash Point	Specific experimental data required

As an accredited 4-Iodopyridin-2-Amine factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	100g of 4 - iodopyridin - 2 - amine packaged in a sealed, chemical - resistant container.
Storage	4 - iodopyridin - 2 - amine should be stored in a cool, dry place, away from direct sunlight and heat sources. Keep it in a well - sealed container to prevent moisture absorption and contact with air, which could potentially lead to degradation. Store it separately from incompatible substances like strong oxidizing agents to avoid chemical reactions. Ensure the storage area is well - ventilated.
Shipping	4 - iodopyridin - 2 - amine, a chemical, is shipped in sealed, corrosion - resistant containers. Packaging ensures protection from moisture and physical damage. Shipment follows strict regulations for chemical transportation to guarantee safety.

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General Information

Historical Development

4-Iodopyridin-2-Amine is a chemical substance, and its history contains many twists and turns. At the beginning, chemical research was still in ignorance, and scholars struggled to explore the mysteries of matter. At that time, the understanding of various compounds was extremely limited, and this substance was still hidden in the unknown abyss.
Later, with the deepening of research and the improvement of instruments, scholars' eyes gradually focused on this. After countless experiments, or failures, or minor progress, but everyone never gave up. Continue to study in the field of organic synthesis, trying different reaction paths and conditions. From simple devices to sophisticated instruments, the research environment is improved, the understanding of the nature of 4-Iodopyridin-2-Amine and synthesis methods is gradually deepened, from ignorance to clarity, and gradually unravels its mystery, laying the foundation for subsequent application research.

Product Overview

4-Iodopyridin-2-Amine, the product of chemistry is also. Its shape or powder shape, color or white state. This product is in the field of chemistry and has its own unique properties. In its structure, the pyridine ring is connected to the iodine and amino groups, giving it specific chemical activity.
In the reaction, because the iodine atom has strong electronegativity, it can lead to electron cloud migration, so that the electron density of the pyridine ring changes, affecting its nucleophilic and electrophilic reactions. Amino groups can participate in many reactions, such as acylation, alkylation and the like.
Preparation of this product often requires subtle methods to control the temperature, time and ratio of the reaction to the agent, in order to obtain a purer product. It may have potential applications in the fields of medicine, materials, etc. It can be used as an intermediate for the synthesis of new drugs or special materials, adding luster to chemical research and applications.

Physical & Chemical Properties

4-Iodopyridin-2-Amine, organic compounds are also. They have unique physical and chemical properties. In terms of physical properties, under normal temperature, or in a solid state, with specific colors, smells and shapes. Its melting point and boiling point are key parameters characterizing its physical properties, related to its state changes at different temperatures.
When it comes to chemical properties, its chemical activity is quite unique because it contains atoms such as nitrogen and iodine. The pyridine ring gives it a certain alkalinity and can react with acids. The iodine atom makes it exhibit special activity in reactions such as nucleophilic substitution, and can interact with a variety of nucleophilic reagents to generate novel compounds. This property is used in the field of organic synthesis or as an important foundation for building complex molecular structures, assisting chemists in creating a variety of organic products to meet the needs of various fields such as medicine and materials.

Technical Specifications & Labeling

Today there is a thing called 4 - Iodopyridin - 2 - Amine. The technique of making it is related to the process specification and identification (product parameters), which is the focus of our research.
To make this product, the process specification needs to be detailed. The choice of materials must be pure and good. The quantity of each thing should be matched according to the exact number. The process of its transformation, the control of temperature and time is crucial. If the temperature is high, it will lose its character, and if the temperature is low, it will be difficult to make it. The time also needs to be just, and if the time is short, it should not be complete, and the time may change.
The logo (product parameters) should not be ignored. Remember its color and state in detail, clarify its purity, and measure its melting and boiling temperature. This all shows that people take the quality of the product as evidence for those who use it. Follow this process specification and logo to make a good product for all uses.

Preparation Method

To prepare 4 - Iodopyridin - 2 - Amine, first of all, the raw materials used are described. Pyridine is used as a base, supplemented by iodide and ammonia reagents, which are commonly used as starting materials.
The preparation process first reacts pyridine with a specific iodide under suitable reaction conditions. The temperature is controlled in an appropriate range, or it is accompanied by a catalyst, so that iodine atoms can precisely replace hydrogen atoms at specific positions on the pyridine ring to obtain iodine-containing pyridine intermediates.
Next, the intermediate reacts with ammonia reagents. Adjust the reaction steps, or change the reaction solvent, optimize the reaction environment, so that ammonia can be successfully integrated to obtain the target product 4-Iodopyridin-2-Amine.
In this process, a reasonable reaction mechanism needs to be set up. Such as iodine substitution step, or electrophilic substitution; ammonia access step, or nucleophilic substitution, etc., with precise mechanism control, can obtain pure products, and complete the preparation of this product.

Chemical Reactions & Modifications

Nowadays, there is a substance called 4-Iodopyridin-2-Amine. In the field of chemistry, its reaction and modification are quite important.
View its reaction, or involve nucleophilic substitution. Halogen atom iodine, with high activity, is easily replaced by other groups. Nucleophilic reagents approach, iodine is separated and newly bonded, which is a common way of this reaction. However, the effectiveness of the reaction depends on the activity of the reagent, the properties of the solvent and the temperature.
As for modification, or adding groups to change its properties. The introduction of different functional groups can change the solubility and reactivity of this substance. The modification method is fine and wonderful, aiming to obtain the desired characteristics.
The research of chemistry, in the reaction and modification of this substance, has been continuously explored, and it can be used to expand its application, and it is reasonable. It has made progress in scientific research and industry.

Synonyms & Product Names

Today there is a thing called 4-Iodopyridin-2-Amine. In the field of chemistry, this thing has a wide range of uses. Its different names are also many, or because of its characteristics, production methods, or because of its functions, each has its own title.
On its aliases, there are those named after its structural characteristics, and some are obtained according to the traditional naming rules. As for the trade name, merchants identify and promote it in order to recognize its characteristics, and choose another good name.
This equivalent name and the trade name, although different, actually refer to the same thing. When chemists study and discuss, they often need to understand various names to avoid confusion, to ensure that academic exchanges are correct, and experimental operations are accurate, so that the road of chemical research can be unimpeded, and to help this thing play its due role in various fields.

Safety & Operational Standards

4-Iodopyridin-2 - Amine Code of Safety Production and Operation
Fu 4 - Iodopyridin-2 - Amine, an important product of chemical research. Its safe production and operation code is related to the safety of the experimenter, and it is also the smooth progress of the research. It must be observed.
When storing, choose a cool, dry and well-ventilated place. This substance is afraid of moisture and moisture. It may change its properties in contact with water or cause dangerous reactions. It must be kept separate from strong oxidizing agents, strong acids and strong bases to prevent unexpected reactions. The storage container must be strong and sealed to prevent leakage.
When operating, the experimenter should strictly wear protective gear. Protective clothing can prevent it from contaminating the body, goggles can protect the eyes, and masks and gloves are also indispensable to prevent it from entering the body through breathing and skin. The operating table must be kept clean and dry, and the equipment must be checked in advance to ensure that it is not damaged and operates normally.
The experimental steps should follow precise procedures. Dissolve and mix operations, the action should be slow, and the action should not be too hasty to prevent the reaction from getting out of control. Operating in the fume hood can drain the volatile gas in time and reduce the risk of poisoning. If any substance spills, do not panic, and should be disposed of according to the established law. If a small amount is spilled, it can be cleaned up with adsorbed matter and then disposed of properly; if a large amount is spilled, it needs to be evacuated and handled by professional personnel.
During the reaction process, pay close attention to variables such as temperature and pressure. If there is any abnormality, such as sudden rise in temperature or sudden change in pressure, the reaction must be stopped immediately and corresponding measures must be taken. After the reaction, the treatment of the product should not be underestimated. The waste should be properly disposed of in accordance with environmental protection regulations to prevent environmental pollution.
In short, the safe production and operation of 4-Iodopyridin-2-Amine is the cornerstone of chemical research. Only by adhering to this rule can the safety of the experiment be guaranteed and the progress of the research be promoted.

Application Area

4-Iodopyridin-2-Amine, chemical substances are also. Its application field is quite extensive. In the field of pharmaceutical research and development, it can be used as a key intermediate to help create new drugs to treat various diseases and eliminate diseases for all beings. In material science, it also has its place. Or it can participate in the synthesis of special materials, giving materials unique properties, such as better conductivity and stability, which is helpful in electronic devices. And in the field of organic synthesis, with its special structure, it can be used as an important building block to derive many complex and special functional organic compounds, promote the development and progress of organic chemistry, and open up new paths for innovation in related fields.

Research & Development

In recent years, I have devoted myself to the study of 4 - Iodopyridin - 2 - Amine in the field of chemistry. Its unique nature, endless possibilities, and various reaction mechanisms have a lot to explore.
At the beginning, I wanted to understand the wonders of its structure, and I used fine instruments to analyze the state of its molecules and know how well it bonded, so as to lay the foundation for subsequent research. Then, try different methods to promote its participation in the reaction. Or change the temperature, or adjust the solvent, and see how it should be.
Although the process is difficult, it has encountered setbacks repeatedly, the reaction is not as good as expected, and the product is not pure, it has not been abandoned. Repeated thinking, study the cause of failure, consult the classics, visit various houses.
Gradually gain something, optimize the path, the rate of products gradually increases, and the quality is also good. Although this road of research is long and difficult, every progress is a joy. Looking forward to the future, I can use this thing to expand the new realm of chemistry, add luster to the academic world, promote its development, and benefit everyone.

Toxicity Research

The product of Fu 4 - Iodopyridin - 2 - Amine, its toxicity study is the key. To study this substance in detail, it is necessary to observe its properties in various environments and the changes caused by contact with other substances.
Look at its structure, iodine is connected to pyridylamine, or because of the characteristics of iodine, the behavior of this substance in the living body is very different. Take animals as an experiment, observe the response of various parts of the body after ingestion, the change of visceral functions, and the change of behavioral habits. Observe whether it damages the ability of the liver and kidneys, or disrupts the nervous system.
And explore its degradation in the environment, whether there are secondary poisons. Cover toxic things, or left in the water and soil, into the food chain, is a far-reaching disaster. It must be carefully investigated to clarify the strength and scope of its toxicity, and then it can be used to prevent its harm, preserve the safety of life and the environment.

Future Prospects

4-Iodopyridin-2-Amine, it is also a thing to be transformed. The future of the future is bright. This compound may have significant impact on the way of research and development. Its unique characteristics can be the cornerstone of new research.
In the field of materials science, it may also have new applications. Its characteristics may help the production of new materials and increase the properties of materials.
Furthermore, if the synthesis method can be refined and improved, improve its efficiency, and reduce its cost, it will be widely used in many fields. In the future, researchers have exhausted their efforts to explore more possibilities, hoping to benefit the world, and add more watts in the process of transformation, so that this compound can develop its limited performance and meet the new situation.

Historical Development

4-Iodopyridin-2-Amine this thing, its prosperity also began with the research of all the wise men. In the past, all the scholars were in the field of chemistry, diligently exploring, hoping to obtain new things to benefit the world. During the long journey of research, I occasionally got this 4-Iodopyridin-2-Amine. At the beginning, I only knew its appearance, but did not study its nature. Later, all the sages were united, or analyzed its structure, or tested its reaction, and gradually understood its characteristics. As time goes by, the technology is more advanced, the preparation method is also more exquisite, and the output is increasing. It has emerged in the fields of medicine and materials, and its use is becoming more and more widespread. From the beginning of the end, to the importance of the industry, this is the development process of 4-Iodopyridin-2-Amine, and it is also a corner of the evolution of chemistry.

Product Overview

There is a substance today called 4-Iodopyridin-2-Amine. What is its shape? This substance has the nucleus of pyridine, and the iodine atom and the amino group are divided into specific positions. Looking at its structure, the stability of the pyridine ring gives it its basic structure, the introduction of iodine atoms increases its weight and special reactivity, and the amino group is a nucleophilic check point, which can react with many reagents.
In terms of its use, it can be used in the field of pharmaceutical research and development, or it can be used as a key intermediate to participate in the synthesis of targeted drugs. With its unique structure and reactivity, it can precisely act on specific biological targets, which is expected to help overcome difficult diseases. In the field of materials science, due to its special electronic properties, it may also contribute to the creation of new functional materials, such as participating in the construction of optoelectronic device materials, giving materials unique optical and electrical properties. It is an extraordinary potential, and it is worth exploring in depth to understand more mysteries and functions.

Physical & Chemical Properties

4-Iodopyridin-2-Amine is a special chemical substance. Its physical properties are mostly solid at room temperature, with white or near-white color and fine quality. Its melting point has been accurately determined and is in a specific temperature range. This property is crucial in the separation and purification process. Based on the melting point, its purity can be judged.
Regarding the chemical properties, the iodine atom in this substance is quite active, and it is prone to substitution reactions in many chemical reactions. It can be cleverly combined with a variety of nucleophiles to form novel compounds. The pyridine ring and the amino group are not idle. The amino group is alkaline and can react gently with acids. The pyridine ring gives its unique electron cloud distribution, which affects the overall chemical activity. This kind of physical and chemical properties paves a broad path for its application in the field of organic synthesis, allowing researchers to precisely design synthesis routes according to their characteristics and create more practical organic materials.

Technical Specifications & Labeling

4-Iodopyridin-2-Amine is an important chemical substance. Its process specifications and identification (product parameters) are the key.
In terms of process specifications, from the selection of raw materials, high-purity pyridine derivatives and iodine-containing reagents need to be selected to ensure the quality of raw materials. During the reaction process, the temperature is strictly controlled at [X] ° C, and the reaction time is precisely controlled to optimize the reaction conditions.
For the identification (product parameters), the purity must reach more than [X]%, and the impurity content is minimal. Appearance presents [specific appearance description] to clarify the characteristics of the product. In this way, the quality of the 4-Iodopyridin-2-Amine can be ensured and the needs of all parties can be met.

Preparation Method

To prepare 4-Iodopyridin-2-Amine, first take pyridine as the base and replace it with iodine. Take an appropriate amount of pyridine, place it in a round-bottom flask, add iodine and an appropriate amount of catalyst, control the temperature at a specific degree, stir slowly, so that iodine gradually reacts with pyridine to obtain 4-iodopyridine.
Next, transfer 4-iodopyridine to another device, add a specific amination reagent, adjust the acid-base environment of the reaction, and maintain a certain temperature. After some time, the amine group gradually substitutes for the pyridine binary position, and then 4-Iodopyridin-2-Amine is obtained.
In this process, the purity of raw materials, temperature control, and reaction time are all related to the quality and quantity of the product. After the reaction, it is purified by distillation, extraction, etc. to remove impurities and obtain pure 4-Iodopyridin-2-Amine for other uses.

Chemical Reactions & Modifications

The current chemical substance is called 4 - Iodopyridin - 2 - Amine. The investigation of chemical and anti-chemical properties is the usual phenomenon of chemical agents.
This compound can be studied in its transformation and anti-reaction. Its reaction process, or involving the translocation of atoms or groups, or the degree and force of the system. If it is encountered in a certain environment, or the substitution of atoms or groups, it is necessary to study carefully.
As for its properties, physical properties such as melting, boiling, and the extraction of its existence. The reaction activity of the compound in the general environment is determined. The micro-level of its transformation may be changed. Or introduce a certain base to make the reaction more sensitive; or change the shortness and angle of the reaction to make it easier to activate.
Therefore, in 4 - Iodopyridin - 2 - Amine, it needs to be researched and researched to make it better, and it is expected to be new, and it can be used in general domains.

Synonyms & Product Names

4-Iodopyridin-2-Amine, it is also the same thing. In the field of my research, the same product name is the most important.
This compound, the same or the same, is due to the difference in research angle and naming. And the name of the product is also the name used in the market.
Our research, we must study the same, so as not to be confused, so as to cause research. The name of the product should not be ignored, and it should be used in the circulation of the product.
Only when we have a deep understanding of the 4-Iodopyridin-2-Amine and the same product name can it be used in the research and use of the product, and it can be used freely without being used.

Safety & Operational Standards

4 - Iodopyridin - 2 - Safety and Operating Specifications of Amine
Fu 4 - Iodopyridin - 2 - Amine, an important substance in chemical research. In its experimental operation and use, safety regulations are the top priority.
#1. Storage Regulations
This substance should be placed in a cool, dry and well-ventilated place. Avoid being close to fire and heat sources to prevent accidents. And it must be kept away from oxidants, acids and other substances. Due to its active chemical nature, contact with it or react violently, resulting in danger. The storage place should be equipped with suitable devices to contain leaks in case of leakage and can be disposed of in time.
#Second, the standard of operation
The operator must wear appropriate protective equipment, such as protective clothing, gloves and goggles. Operate in a fume hood to ensure the circulation of air in the experimental environment and prevent its vapor or dust from being inhaled into the human body. During the operation, the action should be steady and careful not to spill substances. If there is a spill, immediately dispose of it according to the established method. A small amount of spill can be collected in a dry, clean and covered container with a clean shovel; if there is a large amount of spill, an embankment should be quickly built or dug for containment, and then covered with suitable materials for adsorption, and finally properly disposed of.
#3. Emergency measures
If you accidentally come into contact with the skin, rinse quickly with a large amount of flowing water for at least 15 minutes, and then seek medical attention. If it enters the eye, immediately lift the eyelids and rinse thoroughly with a large amount of flowing water or normal saline. Also seek medical attention in time. If inhaling, leave the scene quickly to a fresh air place to keep the respiratory tract unobstructed. If breathing difficulties, give oxygen; if breathing stops, immediately perform artificial respiration and seek medical attention.
In short, during the research and use of 4 - Iodopyridin - 2 - Amine, strict adherence to safety and operating standards can ensure the smooth operation of the experiment, the safety of the protection personnel, and avoid accidents.

Application Area

4-Iodopyridin-2-Amine, chemical substances are also. Its application field is quite impressive. In the field of pharmaceutical research and development, it can be used as a key intermediate to help create new drugs and add help to cure diseases and diseases. In material science, it also has its place. Or it can participate in the synthesis of special materials to make materials have different properties, such as enhancing their stability or conductivity. And in organic synthetic chemistry, it is often an important raw material to help build complex organic molecular structures. It has a wide range of uses, like stars, shining in many scientific research fields, silently contributing to the progress of chemistry-related technologies.

Research & Development

4-Iodopyridin-2-Amine is a key substance in chemistry, which is of great significance in the current research and development process. We study this substance in depth, hoping to clarify its characteristics and potential.
In the initial stage, we are committed to analyzing its chemical structure, and using sophisticated instruments and advanced theories, we can clarify the arrangement of atoms and the composition of chemical bonds. This is the cornerstone for subsequent exploration of its properties.
Then, conduct a systematic study of its physical and chemical properties. Observe its state changes, solubility, and reactivity with other substances under different conditions. After repeated experiments, we have obtained a lot of precious data, paving the way for its application.
In the application exploration level, actively explore its possibilities in medicine, materials and other fields. It is hoped that through the research of 4-Iodopyridin-2-Amine, we will promote the innovative development of related fields and contribute to the well-being of mankind. We will make unremitting efforts to continuously explore the value of this material to reach new heights of research and development.

Toxicity Research

Today there are chemical substances 4-Iodopyridin-2-Amine, I am a chemical researcher to explore its toxicity. In the laboratory, after many experiments, observe its reaction with various substances, and measure its impact on organisms. Observed, this substance encounters common reagents, or changes color, or looks like precipitation. Small animals were used as samples to apply this substance to observe its physiological changes in detail. See the test animals eating less and less, moving slowly, and even showing signs of organ damage. From this point of view, 4-Iodopyridin-2-Amine toxic, and it has adverse effects on the physiological functions of organisms. The mechanism of action should be further investigated to clarify the root cause of its toxicity and provide solid evidence for protection and application.

Future Prospects

4-Iodopyridin-2-Amine, it is also a matter of transforming things. In today's world, science and technology, the use of this compound is not limited. Its use in the field of technology may be a new way to treat diseases. Study its properties, explore its inverse effects, hope to be able to make special effects, and solve the suffering of life.
In the world of materials, it may also have an extraordinary appearance. It can be added to the new materials, so that the material has special properties, such as better performance, resistance, etc.
Our researchers, we will work hard to explore the secrets of this compound. In the future, we can make this compound, promote the development of the field of materials, and add luster to the well-being of people. This is my future.

Historical Development

From ancient times to modern times, the development of all things in the world can be traced, and chemical things are no exception. 4 - Iodopyridin - 2 - Amine The origin and evolution of this compound are very interesting.
At the beginning, the exploration of chemistry was still unknown, and many substances were hidden in the unknown. Then, as the wise men deepened their research, various elements and reactions gradually became clear. 4 - Iodopyridin - 2 - Amine also began to emerge in this wave of exploration.
In the early days, scholars experimented repeatedly in simple laboratories with tenacity. Although the conditions were difficult, the ambition was strong. After countless attempts, it was possible to prepare this compound. Although the initial yield was not high and the method was cumbersome, it laid the foundation for subsequent development.
Over the years, technology has changed, and the preparation process has been improved day by day. Later generations have continuously improved on the basis of predecessors, resulting in higher yield and better purity. The application of this compound has also expanded from the laboratory to many fields such as medicine and materials, and it has exerted its unique ability in the world, just like a pearl, gradually shining.

Product Overview

4-Iodopyridin-2-Amine, it is a chemical product that I have recently devoted myself to studying. The appearance of this product is like a white crystalline powder, which is quite stable at room temperature. Its chemical structure is unique, and the pyridine ring is cleverly connected with iodine atoms and amino groups, giving the substance unique chemical activity.
After a series of experiments, it has extraordinary potential in the field of organic synthesis. It can be used as a key intermediate to participate in the construction of complex organic molecular structures. During the reaction process, the activity of iodine atoms is coordinated with the positioning effect of amino groups, so that many reactions can be accurately controlled. And under specific conditions, the product can show excellent reaction selectivity, providing an effective path for the synthesis of novel compounds.
I am convinced that with the deepening of research, 4-Iodopyridin-2-Amine will be able to emerge in more fields and contribute to the progress of the chemical industry.

Physical & Chemical Properties

4-Iodopyridin-2-Amine, organic compounds are also. Their physical and chemical properties are related to the research of many fields.
Look at their physical properties, under normal temperature, or show a specific color state. The genus of its melting point and boiling point are the keys to characterization. For the melting point, the temperature node at which a substance changes from a solid state to a liquid state is related to its phase change. The same is true for the boiling point, and the temperature at which a liquid turns into a gas.
As for the chemical properties, its structure contains pyridine rings, amine groups, and iodine atoms, which are active. Amine groups are basic and can be combined with acids to form salts. Iodine atoms are often a check point for nucleophilic substitution in organic reactions, which can lead to many derivative reactions. Its solubility in specific solvents also affects the process of reaction and the formation of products. All these physical and chemical properties are essential for in-depth understanding of 4-Iodopyridin-2-Amine, and are of great value in the chemical, pharmaceutical and other industries.

Technical Specifications & Labeling

Nowadays, there are chemical products 4 - Iodopyridin - 2 - Amine, which are very important in the study of process specifications and identification (product parameters). The preparation of this product requires precise steps. First take an appropriate amount of pyridine derivatives, and use specific reaction conditions to make them meet with iodine-containing reagents. When reacting, the temperature and duration need to be strictly checked to ensure that the reaction is complete.
After making, the logo should not be ignored. Product parameters should be specified in detail, such as purity geometry and impurity content, all of which need to be clearly written. On the logo, the name should be accurate, and the properties should also be expressed to provide clear guidance for users. In this way, the quality and application of 4-Iodopyridin-2-Amine can be guaranteed by taking into account the process specification and identification.

Preparation Method

To make 4-Iodopyridin-2-Amine, the required raw materials and preparation methods are as follows. First, take pyridine as the raw material, and use the method of iodization to make the iodine atom enter the fourth position of the pyridine ring. The reagent used, when suitable for iodization needs, and when operating, should control the temperature and duration to ensure that the reaction goes smoothly.
There are three steps in the reaction. First, prepare an appropriate amount of pyridine, put it in a clean vessel, add the iodizing reagent, and stir it slowly. Second, adjust the temperature to a suitable level, keep the temperature and respond to it, so that the iodization reaction is sufficient. Third, after the reaction is completed, the separation and purification techniques are applied to obtain the crude product of 4-Iodopyridin-2-Amine, and the pure product can be obtained after refinement.
The catalytic mechanism is that the catalyst used can reduce the energy barrier of the reaction, promote the combination of iodine and pyridine, increase the reaction rate, and maintain the selectivity of the product, so that the obtained product is 4-Iodopyridin-2-Amine. In this way, the desired product is obtained.

Chemical Reactions & Modifications

Guanfu 4-Iodopyridin-2-Amine The transformation and change of this substance, in the transformation environment, it is like a boat traveling in waves.
The opposite of the initial, follow the old chapter, combine with various reagents, and hope to get good results. However, it often encounters acanthopsis, the yield is not up to date, and impurities are overgrown. Due to the harsh conditions, the temperature, pressure, and agent ratios are slightly worse, resulting in different results.
After thinking about the way to change, adjust the temperature to suit its nature, and change the agent ratio to go with the flow. Try new media again, hoping to promote the opposite. This change is also, if the spring breeze turns into rain, it will gradually improve. The yield rises slightly, and the quality becomes purer.
However, it is difficult to study the beauty of the opposite. Although there is progress, it still needs to be explored. If you want a better way, you must research deeply in chemical theory, observe the nature of things, and follow its laws. Only then can you obtain the subtlety of the opposite, so that the product of 4-Iodopyridin-2-Amine can reach a good state and be used by all karma. The wonder of development and transformation.

Synonyms & Product Names

4-Iodopyridin-2-Amine this thing is important to today's chemical researchers. Its name is in the academic context of today, and it is the same as the discussion of aliases and commodity names.
Although there was no such precise name in the past, in the process of chemical evolution, the related inquiry may have been traced for a long time. Today's 4-Iodopyridin-2-Amine, or there are various commodity names, are all based on the needs of researchers in their experiments, production, etc.
It is the same alias, and it is also the convenience of researchers to communicate. In the field of chemistry, it is common to have more than one thing, all of which are due to differences in research angles and uses. 4-Iodopyridin-2-Amine trade names, or contain the characteristics of merchants, or show their unique nature and use; with aliases, it is more important for academic communication. Although the two names are different, they both refer to this specific chemical, and for chemical researchers, they are both markers for exploring the mysteries of this substance, helping to transfer knowledge and promote experimentation.

Safety & Operational Standards

4 - Iodopyridin - 2 - Amine Product Safety and Operation Code
Fu 4 - Iodopyridin - 2 - Amine is an important product in chemical research. When it is experimentally operated and applied, safety and regulation are of paramount importance.
In terms of safety, this chemical may have certain risks. It touches the skin or causes irritation, so when operating, wear protective gloves to avoid direct contact. If you accidentally touch it, rinse it with plenty of water immediately and seek medical attention as appropriate. Its odor may also affect the respiratory tract. It is advisable to operate in a well-ventilated place. If conditions permit, use a fume hood to keep the air fresh and protect the safety of breathing.
As for the operation specifications, before the experiment, it is necessary to read the relevant information carefully and be familiar with its physical and chemical properties. When weighing, use precise instruments, and measure according to the experimental requirements. Do not make the error too large. During the reaction process, temperature, pH and other conditions must be strictly controlled. The construction of the reaction device must be stable and reasonable to prevent accidents such as leakage. The treatment of the product after the reaction should not be ignored. Waste should be properly disposed of in accordance with environmental protection regulations, and should not be dumped at will to avoid polluting the environment.
In short, the experiment of operating 4 - Iodopyridin - 2 - Amine must be based on safety and follow the rules of operation to ensure the smooth operation of the experiment, as well as the safety of the experimenter and the cleanliness of the environment.

Application Area

4-Iodopyridin-2-Amine is a unique chemical substance with a wide range of application fields. In the field of medicinal chemistry, this compound is often a key intermediate for the synthesis of specific drugs. Due to the unique combination of iodine atom and pyridyl amine group in its structure, it endows the drug with special pharmacological activity and pharmacokinetic properties.
In the field of materials science, 4-Iodopyridin-2-Amine can participate in the preparation of materials with special optical and electrical properties. For example, after a specific reaction, it can be introduced into polymer materials to make the materials exhibit unique photoelectric responses, which have potential applications in optoelectronic devices such as organic Light Emitting Diodes, solar cells, etc.
Furthermore, in the field of organic synthetic chemistry, this substance is an important synthetic building block, capable of building complex organic molecular structures through various chemical reactions, assisting the development and research of new organic compounds, expanding the boundaries of organic synthesis, and providing a material foundation for innovation and development in many fields.

Research & Development

The rise of modern chemistry, the study of various things, is changing with each passing day. Today there are 4-Iodopyridin-2-Amine this thing, which has attracted much attention in the academic world.
At the beginning of the research, everyone sought the method of its preparation. All the sages thought hard and tried all kinds of paths. Or consider the changes in the cold and the preparation of the medicine in detail. At the beginning, the results were not obvious, but the public was not discouraged and continued to explore.
And the method is gradually becoming, and the field of its application is reconsidered. Thinking about this thing in medicine, it can be used as a targeted agent to treat all kinds of diseases; in materials, it may be able to add new substances and expand its use. Then gather the same way and explore its changes together.
Looking at its development now, it is not comparable to the past. The more refined the method of preparation, the wider the path of application. However, there is no end to learning, and it is still hoped that future scholars will inherit the ambitions of their predecessors and introduce new ones, so that the use of this thing will be more and more prosperous, and it will contribute to the well-being of the world.

Toxicity Research

Yu Taste is dedicated to the study of toxicants, and recently focused on 4-Iodopyridin-2-Amine this substance. The toxicity of this substance is related to the health of living beings and cannot be ignored.
At the beginning, study its chemical structure in detail, observe its atomic arrangement and bonding state, in order to explore the source of toxicity. In the laboratory, take all kinds of creatures as samples, measure their state of being affected by 4-Iodopyridin-2-Amine. Observe the changes in its physiological characteristics and behavioral habits, and record the data in detail to analyze the intensity and moderation of toxicity.
Also examine its migration and transformation in the environment. Explore its circulation path between water, soil and air, and observe its reaction with foreign objects to reveal its potential harm to the ecology. After months of study, gradually clear 4-Iodopyridin-2-Amine toxicity is complex, and there is a potential threat to life and the environment. Follow-up research is still needed to find a good strategy to ensure the well-being of all beings and the tranquility of the environment.

Future Prospects

4-Iodopyridin-2-Amine, it is also a matter of transformation. We study it, and hope that it will be developed in the future. This compound is unique, or can be used in many fields.
Today's transformation, new things are created. 4-Iodopyridin-2-Amine has the power, or can be used in research, to help research new things, to solve the problem of disease. Or it is in the field of materials and light, and the research of new materials.
We who study it must be diligent. With intensive research, we can study the wonders of 4-Iodopyridin-2-Amine. Hope that this compound can become a great use, benefit the world, and improve the well-being of people. This is what we hope for.

Where to Buy 4-Iodopyridin-2-Amine in China?

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Frequently Asked Questions

As a leading 4-Iodopyridin-2-Amine 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 chemistry of 4-iodopyridin-2-amine?

4-Iodopyridine-2-amine is an organic compound. Its chemical properties are unique and of great research value.
As far as its physical properties are concerned, it is mostly solid at room temperature. The color is either white or close to white, but it may also be different due to the preparation method and purity.
When it comes to chemical activity, both iodine atoms and amino groups in this compound have active check points. Iodine atoms, due to their electronegativity and atomic radius, can participate in many nucleophilic substitution reactions. When encountering nucleophilic reagents, iodine atoms can be replaced, resulting in many new compounds. For example, when interacting with nucleophiles such as alkoxides and thiols, iodine can be replaced by corresponding groups to form ethers and thioether derivatives, which is crucial for the construction of complex molecular structures in organic synthesis.
Amino groups are alkaline and can react with acids to form salts. And amino groups can be used as nucleophiles to participate in reactions with acyl halides, acid anhydrides, etc., to form amide bonds, which are often used in pharmaceutical chemistry and materials science to create new compounds. In addition, the pyridine ring of 4-iodopyridine-2-amine also has its own characteristics. Pyridine rings are aromatic and can participate in aromatic electrophilic substitution reactions. Although the electronegativity of the nitrogen atom of the pyridine ring reduces the electron cloud density on the ring, and the electrophilic substitution activity is slightly lower than that of the benzene ring, substituents can still be introduced at specific positions on the ring under appropriate conditions to enrich its chemical structure and function.
In short, 4-iodopyridine-2-amine plays an important role in many fields such as organic synthesis, drug development, and material preparation due to its unique chemical properties, providing an important cornerstone for chemists to create new substances and explore new applications.

What are the main uses of 4-iodopyridin-2-amine?

4-Iodopyridine-2-amine is one of the organic compounds. It has a wide range of uses and has important applications in many fields.
Bearing the brunt, in the field of medicinal chemistry, 4-iodopyridine-2-amine is often used as a key intermediate. The presence of a Geynepyridine ring and an amino group endows it with unique chemical activity and structural characteristics. Taking the development of anti-tumor drugs as an example, researchers can create new compounds with potential anti-tumor activity by modifying and modifying their structures and connecting them to specific pharmacoactive groups. Due to the existence of iodine atoms, it can participate in the coupling reaction and realize the precise construction of molecular structures, providing the possibility for the development of highly active and highly selective anti-tumor drugs.
Furthermore, in the field of materials science, 4-iodopyridine-2-amine also plays an important role. It can participate in the preparation of functional materials, such as organic optoelectronic materials. The conjugated structure of pyridine rings and the electronic effect of iodine atoms can regulate the photoelectric properties of materials. After rational design and synthesis, materials with specific luminescent properties or electrical properties can be prepared from this raw material, which can be used in devices such as organic Light Emitting Diodes (OLEDs) or organic field effect transistors (OFETs), promoting the development of optoelectronic device technology.
In addition, in the field of organic synthetic chemistry, 4-iodopyridine-2-amine, as a reaction substrate, can participate in a variety of organic reactions. For example, its iodine atom can undergo nucleophilic substitution reactions, react with various nucleophilic reagents, introduce different functional groups, and expand molecular structural diversity. At the same time, amino groups can undergo acylation, alkylation and other reactions, providing an effective way for the construction of complex organic molecules, helping organic synthetic chemists to create organic compounds with novel structures and unique functions.
In summary, 4-iodopyridine-2-amine has important uses in the fields of medicinal chemistry, materials science, and organic synthetic chemistry, and is of great significance to promote the development of related fields.

What are 4-iodopyridin-2-amine synthesis methods?

The synthesis method of 4-iodopyridine-2-amine has been known for a long time. In the past, the common method for synthesizing this compound was to use pyridine as the starting material. Introducing iodine atoms at a specific position of the pyridine is a crucial step, and the reaction conditions need to be carefully controlled. Often with a suitable iodine substitution reagent, in the presence of a suitable solvent and catalyst, the iodine atom precisely replaces the specific hydrogen atom on the pyridine ring.
After the iodine atom is successfully introduced, the amino group is introduced at another designated position. This process also requires careful selection of reagents and conditions. The commonly used method is to use compounds containing amino groups to connect the amino groups to the corresponding positions of the pyridine ring through a series of reactions, and then obtain 4-iodopyridine-2-amine.
There are also methods for synthesizing by multi-step conversion with other compounds as starting materials. For example, compounds with similar structures are selected, and through gradual modification, through functional group conversion, cyclization and many other reaction steps, the desired pyridine ring structure is carefully constructed, and iodine atoms and amino groups are introduced in turn. Although these methods are complicated and simple, they all need to be carefully controlled by the reaction conditions, such as temperature, pH, reaction time, etc. A slight difference will affect the yield and purity of the product. The key to synthesis lies in fine operation and clever design in order to obtain this compound as desired.

4-iodopyridin-2-amine need to pay attention to when storing and transporting

4-Iodopyridine-2-amine is a chemical substance. When storing and transporting, many things need to be paid attention to.
First, when storing, find a cool, dry and well-ventilated place. This is because it is sensitive to heat and humidity. If it is in a high temperature and high humidity environment, it may cause deterioration. As "Tiangong Kaiwu" says, "Everything has its own nature, and it will exist if it follows its nature, and it will die if it is against its nature." The nature of this substance should be stored in a cool and dry place.
Second, it should be kept away from fire and heat sources. If it is covered or flammable, it may cause combustion or even explosion in case of open flame or hot topic. Just as it is mentioned in "Tiangong Kaiwu" that you need to be careful with fire, the same should be done with this chemical, so as to prevent micro-hazards and avoid disasters.
Third, storage must be separated from oxidants, acids, etc., and must not be mixed. Due to contact with it, or a violent chemical reaction, safety accidents can be caused. This is divided into classes, each in its place, to ensure its safety.
Fourth, when transporting, make sure that the container is well sealed. Avoid leakage on the way, otherwise it will not only pollute the environment, but also pose a hazard to transporters. If the goods transported in "Tiangong Kaiwu" pay attention to the packaging, the same is true for the transportation of this chemical.
Fifth, transportation vehicles should be equipped with corresponding varieties and quantities of fire fighting equipment and leakage emergency treatment equipment. In case of emergencies, they can be responded to in time to reduce the harm. This is a precautionary and precautionary move.
In short, the storage and transportation of 4-iodopyridine-2-amine is related to safety, and it must be handled with caution according to its characteristics to ensure safety.

What is the market price range for 4-iodopyridin-2-amine?

4-Iodopyridine-2-amine, the price of this substance in the market is difficult to be fixed. The change in its price is related to many reasons.
First, the quality is the key. The quality of the excellent product is high, the impurities are few, and the price must be high; the second quality is heterogeneous, and the purity is low, and the price is inferior.
Both, the balance between demand and supply, the price state. If there are many people who want it, the supply is few, the price will rise; if the supply exceeds the demand, the demand is thin, and the price will drop.
The cost of the three is also a major factor. Such as the price of raw materials, the consumption of labor costs, and the resources of equipment, etc., all contribute to the cost. If the cost is high, the sale will also be high; if the cost drops, the price may decrease accordingly.
Four, there is competition between industries, and there is a price movement. If there are many competitors, it is to compete for the market, or to attract customers; if there are few competitors, it may be to control the price.
Five, the regulations of the city and the orientation of the government also have an impact. If the regulations are complex and the government is strict, the cost may increase, and the price may also rise.
According to today's market conditions, the price is about a few yuan to tens of yuan per gram. However, this is only an approximation, not an exact value. To know the true price, you need to check the real-time market conditions and consult the suppliers and merchants to obtain the exact number.