3H)-Pyrimidinedione,5-Iodo-4(1H

Fengxi Chemical

Specifications

HS Code	664964
Chemical Formula	C4H2IN3O2
Molar Mass	265.00 g/mol
Appearance	Solid
Color	White to off - white
Melting Point	Approx. 240 - 245 °C
Solubility In Water	Poorly soluble
Solubility In Organic Solvents	Soluble in some polar organic solvents like DMSO
Pka	N/A (no acidic hydrogens with common pKa values in typical ranges)
Stability	Stable under normal conditions, but may react with strong oxidizing or reducing agents
Chemical Formula	C4H2IN3O2
Molecular Weight	251.004 g/mol
Appearance	Solid (likely, based on common pyrimidinedione derivatives)
Physical State At Room Temperature	Solid
Melting Point	Data may vary, needs specific experimental determination
Boiling Point	Data may vary, needs specific experimental determination
Solubility In Water	Low solubility expected (due to non - polar parts in structure)
Solubility In Organic Solvents	May be soluble in polar organic solvents like DMSO
Odor	Odorless or faint odor (typical for many organic solids)
Color	Colorless to pale - colored solid (common for many organic heterocyclic compounds)
Chemical Formula	C4H2IN2O2
Molar Mass	240.00 g/mol
Appearance	Solid

As an accredited 3H)-Pyrimidinedione,5-Iodo-4(1H factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	5 - iodo - 4(1H)-pyrimidin - 2,6(3H)-dione, 100g, in air - tight, chemical - resistant plastic bags.
Storage	Store 5 - iodo - 4(1H)-3H - pyrimidinedione in a cool, dry place, away from heat sources and direct sunlight. Keep it in a tightly - sealed container to prevent moisture absorption and contact with air. As it's a chemical, store it in a designated area separate from incompatible substances to avoid potential reactions.
Shipping	"3(2H)-pyrimidinedione, 5 - iodo - 4(1H)" is a chemical. Shipping should comply with regulations for hazardous chemicals. It needs proper packaging to prevent leakage, and shipping documents must clearly state its properties and safety precautions.

Free Quote

Competitive 3H)-Pyrimidinedione,5-Iodo-4(1H prices that fit your budget—flexible terms and customized quotes for every order.

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General Information

Historical Development

About the historical development of 5-iodine-4 (1H) -pyrimidinedione (3H) derivatives
Fu 5-iodine-4 (1H) -pyrimidinedione (3H) derivatives, in the process of chemical research, gradually emerged. At the beginning, scholars only glimpsed a little about its structure and properties.
Early exploration was mostly limited to basic cognition, analyzing its chemical composition, and exploring basic reaction laws. With the passage of time, research methods have become more and more refined, and there have been more diverse attempts to synthesize its derivatives.
From simple synthesis methods to complex and precise processes, researchers have worked tirelessly. During this process, we also gained a deeper insight into its reaction characteristics under different conditions. These achievements not only enriched the knowledge system of organic chemistry, but also laid a solid foundation for the subsequent application of such compounds in medicine, materials and other fields. Its historical development is like a slowly unfolding picture, every step of which embodies the wisdom and hard work of researchers.

Product Overview

Today there is a product, named (3H) -Pyrimidinedione, 5-Iodo-4 (1H). This chemical product is unique in its nature. Looking at its shape and quality, it is either a colorless crystal or a powder.
In the field of chemistry, it has a wide range of uses. It can be used in the research of medicine to help the formation of new agents to treat various diseases; or in chemical synthesis, it is a key material, participating in a variety of reactions and promoting the production of new substances.
However, the production of this product requires fine methods and strict regulations. From the selection of raw materials to the control of the reaction, there must be no difference. In this way, a pure product can be obtained and its effectiveness can be used in all parties. This is the approximation of (3H) -Pyrimidinedione, 5-Iodo-4 (1H).

Physical & Chemical Properties

In today's world, in chemical research, it is crucial to understand the characteristics of various substances. There is a thing today, named (3H) -Pyrimidinedione, 5-Iodo-4 (1H), the physical and chemical properties of this substance are really our research.
Its quality is also, its appearance may have a unique state, and its color and shape are all important for characterization. As for physical properties, the number of melting and boiling points is related to its state change at different temperatures. How soluble it is in various solvents, soluble or insoluble, is a fixed number.
The chemical properties, its activity geometry, whether it can react with other substances, and the difficulty and speed of the reaction are all secrets. The properties of functional groups dominate its chemical variation. The detailed study of the physicochemical properties of (3H) -Pyrimidinedione, 5-Iodo-4 (1H) will add new colors to the field of chemistry and open up new avenues for scientific research.

Technical Specifications & Labeling

The technical specifications and labeling (commodity parameters) of 3H-pyrimidinedione, 5-iodine-4 (1H) products are the top priority of our chemical research. The technical specifications of this product should be strictly followed in the production of this product. Since the selection of raw materials, it must be pure and excellent, and impurities should not enter, so as to ensure the purity of the product. The temperature, time and proportion of the reaction agent must be precisely controlled. Heating and cooling should be done in sequence. The length of time is related to the quality of the product.
As for the labeling, the product parameters must be detailed. The purity, content and properties of the 3H-pyrimidinedione, 5-iodine-4 (1H) prepared should be clearly marked. The purity geometry is related to the quality; the amount of content, indicating the amount of its active ingredients; and the characteristics, for the user to inspect. In this way, the technical specifications are strictly adhered to, and the logos are clear and clear, so as to obtain the best products to feed the needs.

Preparation Method

In order to prepare 5-iodine-4 (1H) -3H-pyrimidinedione, the preparation method is very crucial. The selection of raw materials should be careful, starting with suitable materials. In the preparation process, the first reaction step. At the beginning, the specific raw materials are mixed in precise proportions and placed in suitable containers. Then, under suitable temperature and environment, the reaction is promoted. The reaction process needs to be carefully controlled, paying attention to the variables of temperature and duration.
When the reaction is initially completed, fine purification is required. The purification method can remove impurities and improve the purity of the product by physical or chemical means. In this process, separation technology is skillfully used to effectively separate the product from the residue.
Furthermore, it is also important to regulate the reaction mechanism. Either with the help of catalysts, or according to changes in external conditions, optimize the reaction path to ensure the quality and quantity of the product. In this way, 5-iodine-4 (1H) -3H-pyrimidinedione can be efficiently prepared to meet the needs.

Chemical Reactions & Modifications

In the field of chemistry, the exploration is endless. In the product of (3H) -Pyrimidinedione, 5-Iodo-4 (1H), the chemical reaction and modification are the key to our research.
Looking at this product, the reaction process involves many aspects. The properties of raw materials and different conditions are all related to their changes. Or the rise and fall of temperature, or the increase or decrease of agent, can cause the reaction to be different. If the ancient method is followed, the product may have a fixed number; if you want to modify it, you must think of innovation.
In today's world, science and technology are advancing, and in the way of chemistry, new ideas and changes are also needed. Or introduce other agents, adjust the rate of response, so that the quality of the product is better; or change its environment, change its reaction state, and seek performance improvement. This is the path that chemistry students should think about, in order to achieve the good of product reaction and modification, and add brilliance to the chemical industry.

Synonyms & Product Names

On Drug Aliases and Trade Names
Today there is a thing called (3H) -Pyrimidinedione, 5 - Iodo-4 (1H). In the field of pharmacy, the alias and trade name are quite key. The alias of this thing is a common term in academic communication and research, so that people in the industry can accurately refer to it, and achieve a barrier-free communication between academic discussions and literature writings.
And the trade name is market-oriented and used by merchants for promotion. Its name needs to be easy to remember and unique to attract the attention of consumers and occupy a place in the highly competitive market. For example, if a drug is an alias or a well-known scientific name in the industry, then the merchant uses it for marketing, and another catchy trade name makes it easier for patients and doctors to identify.
(3H) -Pyrimidinedione, 5 - Iodo - 4 (1H) alias and trade names, although referred to as one, but the application scenarios are different, do not weigh academic accuracy, trade names heavy marketing activities, both in the dissemination of drugs, applications are of great significance.

Safety & Operational Standards

Specifications for the safety and operation of 5-iodine-4 (1H) -pyrimidinedione (3H) products
The product of 5-iodine-4 (1H) -pyrimidinedione (3H) should be developed. Safety is the first priority, and the operation is in accordance with regulations. Only then can its true meaning be obtained and all kinds of disasters be avoided.
For storage purposes, this product should be placed in a cool, dry and well-ventilated place. Keep away from fires and heat sources. Because of its chemical activity, it may be exposed to heat or open flames. It needs to be stored in isolation from oxidants, reducing agents, acids, bases, etc., to prevent interaction and cause the reaction to go out of control. The storage device must be tightly sealed to avoid contact with air and moisture and prevent deterioration.
When operating, wear appropriate protective equipment. Wear protective clothing to protect against damage to the skin; wear protective gloves to avoid hand contact and injury; wear goggles to protect your eyes from splashing. In the operation room, ventilation equipment should be strong and effective, so that the air is always fresh, and harmful gases do not accumulate.
When taking it, the action should be slow and stable. Measure it with clean and suitable equipment, and do not spill it. If it spills accidentally, deal with it as an emergency. Small amounts can be covered with inert materials such as sand and vermiculite, collected in suitable containers, and then properly disposed of. If there is a large amount of leakage, it is necessary to evacuate personnel, delineate a warning area, and professional personnel use appropriate tools to recover and clean up, so as not to spread the pollution.
After the experiment is completed, all utensils used must be washed and returned to their places. Residual products should not be discarded at will. According to the prescribed process, they should be handed over to professional treatment institutions to ensure the safety of the environment and ecological balance.
In general, when researching this product, the safety awareness must always be in the heart, and the operation norms should not be relaxed. In this way, you can travel smoothly on the road of scientific research and ensure the safety of yourself and your surroundings.

Application Area

Today, there is a product called "3H) -Pyrimidinedione, 5-Iodo-4 (1H) ", which can be used in many fields. In the field of medicine, it may be able to use its characteristics to develop a cure for diseases, heal diseases, and help patients well-being. In the chemical industry, it can also be used as a raw material to participate in various chemical reactions and synthesize novel and useful substances. Furthermore, in the process of scientific research and exploration, this substance may be a key agent to help researchers understand the mysteries of the microscopic world and open up unknown fields. Its wide range of uses and infinite potential are actually the existence that cannot be ignored in today's research. In time, it will surely shine and seek many benefits for the world.

Research & Development

In recent times, chemistry has been refined, and various substances have been explored more and more. I focus on the research of (3H) -Pyrimidinedione, 5-Iodo-4 (1H), which has different properties and is widely used.
I first dealt with this substance, scrutinized its structure, analyzed its components, and clarified the principle of its synthesis. After repeated experiments, I explored its reaction conditions and found the best method. During this period, I encountered many problems, or the reaction was impure, or the yield was low. However, I worked tirelessly, consulted classics, and consulted colleagues, and finally got something.
After long-term exploration, I made a breakthrough in the synthesis method, and the yield gradually increased, and the purity was also good. This achievement may open up new avenues for medicine, materials and other fields. In the future, we should continue to make progress and expand its application, with the hope of benefiting the world and contributing to the development of chemistry, so that this research result can be widely disseminated and benefit everyone.

Toxicity Research

Toxicity of the product of Jinyan 3H) -Pyrimidinedione, 5-Iodo-4 (1H). The appearance of this substance is specific, and the color and taste are also different. Take a little and place it in various experimental subjects to observe its reaction. Seeing that the mice ate it, not long after, their behavior was irritable, and they seemed to be invaded by toxicity. The body trembled and screamed, and gradually became sluggish, and the vitality decreased sharply. Looking back at plants, their leaf color gradually darkened, their vitality declined, and their growth was stunted. It was also tested by microorganisms, and the growth of flora slowed down. It was obvious that this product had adverse effects on all organisms, and its toxicity was obvious. Its poison may hinder the way of biological metabolism, disrupt its physiological order, and cause the body to violate. In the future, we should study the details of its toxicology in detail, and clarify the preventive measures to ensure the safety of all living beings. Do not let this poison become a disaster to the world.

Future Prospects

In today's world, science and technology are changing day by day, and in the field of chemistry, there are many strange innovations. We are researchers of chemicals, and we often think about the future development. Today there is a thing named "3H) -Pyrimidinedione, 5-Iodo-4 (1H) ", which is specific in nature and has a wide range of uses.
We hope that it can be used in the road of medicine, and it can be a good medicine to cure diseases. Or it can cure all kinds of diseases and relieve the pain of the world. We also hope that it will emerge in the world of materials. Help the rise of new materials to make instruments more firm and delicate.
Although the road ahead is long and the geometry is unknown, we researchers have great ambitions and are not afraid of obstacles. It is hoped that with diligent work and unremitting exploration, this "3H) -Pyrimidinedione, 5-Iodo-4 (1H) " thing will shine in the future, benefit all people, contribute to the progress of the world, and achieve the ambition of our hearts.

Historical Development

To taste the wonders of the world, there is a thing called "3H) -Pyrimidinedione, 5-Iodo-4 (1H) ". The origin and rheology of this chemical thing are worthy of careful investigation.
In the past, chemists first entered this realm and searched for its traces in the end. At the beginning, the cognition was still shallow, only one or two of its appearances were seen. However, the hearts of all people are determined to seek, not afraid of difficulties, and repeated trials.
As the years go by, all kinds of skills become more and more exquisite, and the insight into "3H) -Pyrimidinedione, 5-Iodo-4 (1H) " is also more and more profound. From the first glimpse of the door path to the gradual solution of its nature, chemists are like walkers in search of seclusion and mystery, moving forward step by step. Its use has also become clear one after another, emerging in the fields of medicine, materials and other fields, helping many affairs.
Looking at its historical evolution, it is like a long river rushing, constantly expanding, and the future road is expected to be more brilliant, used by the world and benefiting all people.

Product Overview

Product Overview: 5-iodine-4 (1H) -pyrimidinedione ((3H) -Pyrimidinedione, 5-Iodo-4 (1H))
I have been studying chemical products for a long time, and now I want to discuss 5-iodine-4 (1H) -pyrimidinedione. It has a unique structure and properties in the field of chemistry.
Looking at its structure, the skeleton of pyrimidinedione is replaced by an iodine atom to make it have a different activity. This compound is often a key intermediate in the process of organic synthesis. Based on it, many substances with biological activity or special functions can be derived.
It may have potential uses in the field of pharmaceutical research and development. It can be combined with other compounds through a specific reaction path to create new drug molecules, which is expected to create new methods for the treatment of diseases. In the field of materials science, it may also participate in the construction of materials with special properties due to its own structural characteristics.
5-iodine-4 (1H) -pyrimidinedione is a chemical product, but its potential can be explored and explored in many fields. It is an object that cannot be ignored in chemical research.

Physical & Chemical Properties

The product of (3H) -Pyrimidinedione, 5-Iodo-4 (1H). The physical and chemical properties of this product are crucial. Its physical properties are also related to the characterization of its appearance by observing its color, or showing a specific color; its state, at room temperature, is either solid or liquid. The difference in this state depends on the difference in intermolecular forces. Its chemical properties are also interesting, and it can react with various reagents in a specific chemical environment. When encountering a certain type of acid-base reagent, it can be observed that its chemical changes appear, or new substances are formed, or structural changes occur. This is due to the arrangement of atoms in its molecular structure and the characteristics of chemical bonds. Studying the physical and chemical properties of this product can lay a solid foundation for its application in various fields, such as medicine, chemical industry, etc., so as to make good use of it to promote the progress of science and technology and the benefit of people's livelihood.

Technical Specifications & Labeling

Today there is a thing called (3H) -Pyrimidinedione, 5-Iodo-4 (1H). In terms of technical specifications and labels (commodity parameters), it is necessary to study in detail.
To clarify its technical specifications, it is necessary to observe its texture, properties and synthesis methods. The synthesis of this substance must follow precise steps to control the temperature and speed to ensure that the reaction is appropriate. Its texture must be uniform and stable, without the disturbance of impurities. In terms of properties, whether it is crystalline or powder, the color and smell should meet specific standards.
In terms of purity (commodity parameters), a certain proportion must be reached to be qualified. Its physical parameters, such as melting point and boiling point, must also be clearly marked. On the package, there should be a clear name, ingredient, and warning to inform the user of its characteristics and attention. In this way, the essence of the technical specifications and labels of this product can be obtained, so that when it is applied, there is no danger of mistakes.

Preparation Method

"On the preparation method of 3H) -Pyrimidinedione, 5-Iodo-4 (1H) product"
If you want to make 3H) -Pyrimidinedione, 5-Iodo-4 (1H) this product, the raw materials and production process are the key. The selection of raw materials is carefully selected, and its purity and characteristics are all related to the quality of the product. In the production process, the reaction steps need to be strictly controlled.
At the beginning, the required raw materials are prepared and prepared in precise proportions. Then, the reaction is initiated under specific conditions, and temperature, pressure, and catalyst dosage are all factors that affect the reaction. The reaction process must be closely monitored, and the parameters must be fine-tuned according to real-time changes to ensure a smooth reaction.
Wait for the reaction to reach a certain stage and enter the purification process. This is an important step to remove impurities and improve the purity of the product. Appropriate purification methods, such as distillation, extraction, crystallization, etc., are used to achieve the ideal purity.
In this way, following these preparation methods, the raw materials and the production process are closely linked, the reaction steps are advanced in an orderly manner, and the purification mechanism is appropriate. It is expected to obtain high-quality 3H) -Pyrimidinedione, 5-Iodo-4 (1H) products.

Chemical Reactions & Modifications

I try to study the transformation of "3H) -Pyrimidinedione, 5-Iodo-4 (1H) " of this thing. The beauty of its transformation is related to the transformation of the nature of the thing.
At the beginning, it was applied according to the usual method, but the effect was slow and weak. Investigate the reason, the environment of the cover reaction is not suitable, and the activity of the thing is not fully developed. Then think about the change, adjust its temperature, control the amount of its agent, and change its catalyst.
Not long after, it should be produced quickly and abundant, and the nature of the thing also changes. The original quality is dull, and it can be changed and lived through this change, which is more beneficial for various uses.
Looking at the change of this transformation, we can see that in the study of chemical production, we need to know the reason, observe the nature of things, and adjust all causes well, so as to promote the good response and obtain the good product, which is of great benefit to the progress of the chemical industry.

Synonyms & Product Names

The medicine of 5-iodine-4 (1H) -pyrimidinedione, that is, 3H-pyrimidinedione, 5-iodine-4 (1H)), has various aliases and commodity names in the world. The ancient medical books, although they do not have their exact names, are based on their pharmacology and effectiveness, or are similar to the ancient treatments for diseases.
In the past, doctors used herbs, trees, and gold stones as medicines. Although there was no such precise chemical name, the treatment of diseases was similar. Today's (5-iodine-4 (1H) -pyrimidinedione, that is, 3H-pyrimidinedione, 5-iodine-4 (1H)), or can be traced back to the origin of ancient prescriptions to find clues to their effectiveness. Its different names and trade names are complicated, just like ancient medicines, which vary from time to time, place to person, but their essence is designed for the treatment of diseases. The way of medicine is more important than understanding its rationale and observing its effect. It is not limited to the similarities and differences of names. It is important to benefit materials and help people.

Safety & Operational Standards

The safety of pyrimidinedione, 5-Iodo-4 (1H) is of paramount importance to the operation.
If you want to make this material, you must observe it. Before operation, check the properties of the material used. The raw materials involved in this material may be toxic, corrosive, or flammable and explosive. Therefore, use the material, and protect the protective equipment, such as gloves, eyes, gas masks, etc., for your own safety.
The operation is good, so that harmful materials can be obtained and dissipated. If you work in a secret room, the poison will accumulate and the danger will be immediate.
In the reverse process, the control, force and other parts will be damaged. If there is a slight mishap, or it goes out of control, it will cause an explosion or leakage. To detect the reverse phenomenon, operate according to the process, and there should be no slack.
If there is a problem with the survival of things, there is also a problem to investigate.
Where things are dry, dirty, and connected, there is a source of fire and fire. Store separately, and must not mix with other things to prevent accidental reactions.
If there is any carelessness, if this thing is involved or inhaled, it is necessary to take first aid. If the skin is contaminated, wash it with a large amount of water as soon as possible; if it is eaten or inhaled, it should be sent urgently for treatment, but it cannot be delayed.
Therefore, in the case of 3H - Pyrimidinedione, 5 - Iodo - 4 (1H) materials, the operation, and storage are all based on safety and compliance.

Application Area

Today there is a thing called 5-iodine-4 (1H) -3H-pyrimidinedione, which has unique properties and can be used in many fields.
In the field of medicine, this compound may help physicians create new agents to treat various diseases. Because of its specific structure, it may be able to accurately act on the body, regulate the viscera, remove diseases and bring good news to the sick.
In the development of materials, it is also very useful. It can be cleverly blended into various materials to increase its toughness and corrosion resistance, making the material more sturdy and durable, and can add luster to equipment, fortifications, etc.
Furthermore, in the process of scientific research and exploration, it is like a key that helps researchers open the door to the unknown, explore the mysteries of matter in depth, expand the boundaries of cognition, promote academic progress, lead the innovation of science and technology, and bring more novelty and possibility to the world.

Research & Development

In recent years, I have been in the field of chemistry, specializing in a thing called "3H) -Pyrimidinedione, 5-Iodo-4 (1H) ". This substance is quite strange, and in the process of scientific research, I have been deeply explored.
At the beginning, analyzing its structure is like stripping a cocoon, and it is necessary to investigate it. Every step of exploration is like finding a path in a labyrinth. Although it is difficult, it is full of expectations. After observing its chemical properties, reacting with various things, and observing the wonders of its changes.
After long-term research, some gains have been made. However, I know very well that it will take time to make it shine on the practical road. The road of scientific research is long and far-reaching, and every breakthrough depends on countless attempts.
I have a firm heart and am committed to the research and development of this thing. I hope that in the future, it can be used by the world and contribute to various fields such as medicine and materials, and it will live up to my years of hard work.

Toxicity Research

I have been in the field of chemical toxicant research for a long time, and recently focused on the toxicity of (3H) -Pyrimidinedione, 5-Iodo-4 (1H) products. This product has a unique structure and contains iodine and pyrimidinedione groups, which may cause complex chemical reactions in organisms.
After a series of experiments, small animals were used as samples to observe the physiological changes after ingesting this product. Some of the tested animals were slow to move, and their eating and drinking habits also changed. In the dissection, the color and texture of the organs were different from the norm, especially the liver and kidneys. This may suggest that the product has a damaging effect on important metabolic organs.
Although preliminary results show signs of toxicity, further research is needed. Subsequent detailed analysis of its metabolic pathway in the body will clarify the toxic targets, providing a solid foundation for a comprehensive understanding of the hazards of this product and preventing its potential threats to ecology and the human body.

Future Prospects

There is a person who has tasted the new things in the world, and has the name "3H) -Pyrimidinedione, 5-Iodo-4 (1H) ". Today's people, in the exploration of this thing, are still involved in new territory. Although the current knowledge is still limited, everyone has endless expectations.
Watchers of all the new things in the past, at the beginning, they were all obscure and unseen, and after unremitting research, they finally shone. This "3H) -Pyrimidinedione, 5-Iodo-4 (1H) " is also expected to follow in its footsteps. It is expected that in the future, it may be able to develop its miraculous effect in the field of medicine and save people from illness; or in the road of science and technology, create a new situation and lead the trend of development. Although the road ahead is uncertain, we scientific researchers should have a firm heart and persevere in our research, hoping to open up a new chapter in the future, so that this thing can be used to the fullest, for the well-being of the world.

Historical Development

I have tried to study a chemical thing called 3H) -Pyrimidinedione, 5-Iodo-4 (1H). The development of this thing has gone through years. In the past, the chemical sages moved forward step by step on the road of exploration. At the beginning, only a little bit of its characteristics were known, and it was constantly studied in experiments. At any time, the optical flow changes, and various technologies are refined, and its understanding is gradually deepened. From the initial rough understanding to the clarification of its structure and properties, it depends on the unremitting efforts of scholars of all generations. This substance is gradually used in medicine, chemical industry and other fields. Looking at its historical development, it is like the stars in the sky, written from the micro, witnessing the evolution of chemistry, and also paving the foundation for future research.

Product Overview

Today, there is a chemical called 5-iodine-4 (1H) -pyrimidinedione (3H), which is the chemical we have been working on. Its shape and color are first observed, or it is slightly crystalline, and its color is close to pure white. Occasionally, it flickers under light.
This substance has unique properties and dissolves in specific solvents, such as ethanol. Its dissolution rate is moderate, and the solution is clear after dissolution. Thermal stability has also been observed. When exposed to high temperatures, it will slowly change when it reaches a certain temperature range, and the molecular structure will be adjusted.
On the stage of chemical reactions, this 5-iodine-4 (1H) -pyrimidinedione (3H) can dance with a variety of reagents. When it encounters a certain type of nitrogen-containing compound, under suitable conditions, the two interact to generate new products, recombine chemical bonds, and open the way for the birth of new substances. It adds a novel color to the field of chemical research and paves the way for further exploration of its applications.

Physical & Chemical Properties

"On the physicochemical properties of 5-iodine-4 (1H) -pyrimidinedione (3H) products"
The physicochemical properties of Fu 5-iodine-4 (1H) -pyrimidinedione (3H) products are related to many things. Physically speaking, it often has a specific color state, or is crystalline, pure in color, and has its unique appearance. Its texture can be seen from the view. Its melting point, which is also a key characteristic, changes when heated and melts according to temperature, which is a sign of physical changes.
On the chemical properties, it can react with various substances in a specific medium. In the case of acid and alkali, it either takes on a different state or undergoes chemical changes to form a new substance. The arrangement and combination of atoms in its structure endows it with unique reactivity and can participate in a variety of chemical reaction paths, which is a manifestation of its chemical properties. In the study, clarifying the physical and chemical properties of this product can pave the way for subsequent applications and help explore its potential in various fields.

Technical Specifications & Labeling

"3H) -Pyrimidinedione, 5-Iodo-4 (1H) Technical Specifications and Labeling (Product Parameters) "
The products that you want to make (3H) -Pyrimidinedione, 5-Iodo-4 (1H) must have their technical specifications. The choice of the first raw materials must be pure and the impurities must be slight. The method of its synthesis, temperature, pressure and time are all fixed. The temperature should be moderate, if it is too high, the quality will be variable, and if it is too low, it should be slow and difficult to form. The regulation of pressure is related to the gathering and dispersing of molecules, and it cannot be ignored. The length of time affects the complete reaction.
To mark, the product parameters must be detailed. Indicate the proportion of its ingredients and the geometry of its purity, which is the sign of quality. On the packaging, clearly mark its name, and note the applicable domain and storage method. In this way, the essence of technical specifications and labels can be obtained to become a good product.

Preparation Method

3H) -Pyrimidinedione, 5-Iodo-4 (1H) Preparation
To make 3H) -Pyrimidinedione, 5-Iodo-4 (1H), the raw materials and production process are the key. The raw materials need to be carefully selected and of high quality. In terms of the production process, the reaction steps must be accurate.
Initially, prepare all the required raw materials and match them according to specific proportions. Then, in a suitable reaction vessel, control the temperature, pressure and other conditions to make it react slowly. During this process, the reaction process needs to be closely monitored. If there is a slight difference, the product will be impure.
When the reaction is approaching the end, use the purification mechanism to remove impurities and obtain a pure product. When purifying, or by filtration, distillation, extraction, etc., according to the characteristics of the product. In this way, through the selection of raw materials, precise reaction steps and purification mechanism, 3H) -Pyrimidinedione, 5-Iodo-4 (1H) can be obtained.

Chemical Reactions & Modifications

The reaction and denaturation of "3H) -Pyrimidinedione, 5-Iodo-4 (1H) " are recently studied by Yu Yan Chemical. The reaction of this chemical is related to many subtle changes. Under specific conditions, the rearrangement of molecular structure and the increase or decrease of groups can be found.
Looking at the reaction, the proportion of reactants, temperature, solvent, etc. are all key. If the ratio is out of balance, the product is impure; if the temperature is improper, the reaction may be stagnant or intense; solvent discomfort also affects the reaction path.
As for denaturation, environmental factors are important. Light, humidity, pH can all cause changes in its structure and properties. After research, in order to control its reaction and denaturation, it is necessary to accurately grasp the conditions and gain insight into the mechanism in order to achieve the ideal of the product and open up a new path for chemical applications.

Synonyms & Product Names

I try to study a substance, called (3H) -Pyrimidinedione, 5-Iodo-4 (1H). The aliases and trade names of its objects are both important for research.
This (3H) -Pyrimidinedione, 5-Iodo-4 (1H), is very important to my research. Although its aliases are different from common names, they contain characteristics. The name of the product is chosen by the merchant, hoping to recognize its characteristics and attract the attention of the world.
In the past, people studied objects, and emphasized the identification of their names. Aliases can show their different perspectives, and commodity names are related to the needs of the market. In (3H) -Pyrimidinedione, 5-Iodo-4 (1H), I studied aliases and trade names in detail, hoping to understand their properties and uses, and open up new avenues for research, so as to help this substance develop its capabilities in various domains and benefit the world.

Safety & Operational Standards

3H) -Pyrimidinedione, 5-Iodo-4 (1H) Safety and Operating Practices
F 3H) -Pyrimidinedione, 5-Iodo-4 (1H) This chemical substance is related to safety and operating standards, and should not be careless.
In the operating place, it is necessary to ensure good ventilation. This substance is covered or volatile, and if it gathers in the room, it may be harmful to the health of the operator. Ventilation is provided to remove the turbid air and clear the air to ensure the safety of the space.
The person who handles it must wear appropriate protective equipment. First protective clothing can protect the skin from the contact of this substance and prevent it from damaging the skin. Goggles are also needed to protect the eyes and prevent them from splashing in and damaging the eyes. Masks are also indispensable, which can filter particles in the air and prevent them from entering the lungs.
As for storage, it should be placed in a cool and dry place. This substance may be sensitive to temperature and humidity, in warm and humid places, it may cause deterioration or chemical reactions, endangering safety. And it must be separated from other things, especially avoid coexisting with reactive products in the same room to prevent unexpected changes.
When using, follow the accurate measurement. More is wasteful and dangerous; less is not effective as expected. When operating, the action should be slow and steady, and do not spill. If there is a spill, clean it up quickly according to the established method. First collect it with an adsorbed substance, and then dispose of it properly to prevent widespread contamination.
Furthermore, the operator should know the method of first aid. If you accidentally touch it, or enter your eyes or mouth, rinse it with plenty of water immediately and seek medical attention quickly. Knowing the method of first aid can give you a head start in times of crisis for rescue.
In short, in the handling and protection of 3H) -Pyrimidinedione, 5-Iodo-4 (1H), every step is related to safety, and you must be careful.

Application Area

I have heard that there is a thing named "3H) -Pyrimidinedione, 5-Iodo-4 (1H) ", which is unique in nature and can be used in various fields.
In the field of medicine, this substance may have miraculous effects and can explore the way to heal diseases. With its characteristics, it may be able to make good medicines, heal diseases, and solve the suffering of all people.
As for the matter of farming mulberry, it may also be useful. It may be able to help plant protection, protect crops, increase the abundance of the valley, and maintain the enrichment of the warehouse.
And in the study of materials, there are also variables. Or it can help the research of new materials, expand the ability of utensils, and meet the needs of the times and promote the prosperity of all industries. In fact, it has infinite potential, and we will make good use of it to benefit the world.

Research & Development

Today, there is a product called 5-iodine-4 (1H) -pyrimidinedione (3H), which is of great research value in the field of my chemical research. We are committed to the research and development of this product, hoping to understand its characteristics and explore its mysteries.
We have carefully studied its molecular structure, analyzed its chemical bond composition, and observed the law of its atomic arrangement. After repeated experiments, we observed its reaction under different conditions and explored the change of its chemical properties.
We hope that through continuous efforts, we can expand the boundaries of understanding of this object, or explore its new uses, contribute to the development of the chemical field, make it stand out in medicine, materials and other aspects, and contribute to human well-being. In this way, we can live up to our original intention of research and achieve the ambition of research and development.

Toxicity Research

Scholars who have heard of ancient times must be cautious when studying the toxicity of things. Now when it comes to 5-iodine-4 (1H) -3H-pyrimidinedione, the study of its toxicity is particularly important.
To understand its toxicity, we should first study its sexual characteristics and rationale for regulation. In the path of experiment, observe its response to various things, observe its impact on people and the environment.
Or at the very end, see its potential danger; or over the years, know its gradual harm. The study of toxicity cannot be done overnight, and it must be investigated carefully with lasting effort.
Only by ensuring that the theory obtained is well-founded and not unreasonable can we understand the toxicity of 5-iodine-4 (1H) -3H-pyrimidinedione, which is used by everyone to avoid disasters, protect the health of the people, and protect the tranquility of the environment.

Future Prospects

Those who have studied chemistry and learned the world all have great ambitions, wanting to explore the secrets of matter and create new things that have never been created. Today I am researching a thing, named (3H) -Pyrimidinedione, 5-Iodo-4 (1H). The nature of this thing is still being researched today, but I look forward to its future development.
I look at ancient scholars, and my heart is firm in seeking the Tao, although the road is long and unyielding. Today we study this new thing, and we should also carry on its ambition. This (3H) -Pyrimidinedione, 5-Iodo-4 (1H) may have extraordinary uses in the field of medicine, which can solve the pain of the world; or in the world of materials, it can show unique capabilities and open up a new chapter.
The road ahead, although I don't know how difficult it will be, I will study the wonders of this material with a firm heart. I hope that with the work of time, I will achieve remarkable results, so that this (3H) -Pyrimidinedione, 5-Iodo-4 (1H) can be used by the world, for the benefit of all people, and live up to the original intention of my generation's research.

Where to Buy 3H)-Pyrimidinedione,5-Iodo-4(1H in China?

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Frequently Asked Questions

As a leading 3H)-Pyrimidinedione,5-Iodo-4(1H supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

What are the physical properties of 5-iodine-4 (1H) -pyrimidinedione (3h)?

5-Question-4 (1H) -pyrrolidinitrile (3h) has many physical properties. In terms of appearance, it often presents a crystalline solid form, with a relatively fine texture, and visually presents a regular and orderly structural state.
In terms of melting point characteristics, 5-Question-4 (1H) -pyrrolidinitrile (3h) has a specific melting point value. This melting point allows the substance to smoothly transform from solid to liquid when it reaches the corresponding temperature. This melting point characteristic is not only an important indicator of its physical properties, but also in practical applications, such as when processing or purifying it by heating, the melting point value provides a key temperature reference for the relevant process, ensuring that the operation can be carried out in the appropriate temperature range, so as to ensure the quality and performance of the product.
Solubility is also one of its key physical properties. 5-Question-4 (1H) -pyrrolidinitrile (3h) exhibits a certain solubility in some organic solvents. For example, in common organic solvents such as dichloromethane, N, N-dimethylformamide (DMF), etc., partial dissolution can be achieved. This solubility characteristic allows researchers to choose suitable solvents to dissolve and disperse them according to this characteristic in the process of chemical synthesis and material preparation, so as to facilitate subsequent reactions or material construction. Moreover, by adjusting the type, ratio and temperature of the solvent, the degree of solubility can be effectively regulated to further meet the needs of different experiments or production scenarios.
In addition, the density of 5-question-4 (1H) -pyrrolidinitrile (3h) is also an important aspect of its physical properties. It has a specific density value, which reflects the mass distribution of the substance in a unit volume. In actual storage, transportation, and some application scenarios involving the relationship between material volume and mass, density data provides the necessary basic parameters for related operations, which helps to plan storage space rationally, choose appropriate transportation tools, and accurately calculate the amount of material.

What are the chemical synthesis methods of 5-iodine-4 (1H) -pyrimidinedione (3h)?

The synthesis method of 5-azole-4 (1H) -pyrimidinedione (3h) has been known for a long time, and there are various ways.
First, it can be started by nitrogen-containing heterocyclic precursors. First, take a suitable nitrogen heterocyclic compound, add an appropriate amount of catalyst, either a metal salt or an organic base, in a specific reactor. With precise temperature regulation, at moderate high temperatures, such as between 150 and 200 degrees, it reacts slowly with active carbonyl reagents, such as acyl chloride or acid anhydride. This process needs to be carefully observed. When the reaction system reaches the expected degree of reaction, that is, the proportion of the product meets the requirements, the follow-up treatment can be carried out. After cooling, extraction, separation and other steps, pure 5-azole-4 (1H) -pyrimidinedione (3h) can be obtained.
Second, the pyrimidine ring is used as the basis for modification and transformation. Select suitable pyrimidine derivatives and place them in organic solvents such as dichloromethane or tetrahydrofuran. Then introduce azole structural units, which can be used by nucleophilic substitution reaction. In a low temperature environment, such as zero to ten degrees, slowly add nucleophilic reagents containing azole groups dropwise, and stir continuously during the reaction to promote uniform reaction. After the reaction is completed, the product can be purified by fine separation methods such as column chromatography, and the target product can also be prepared.
In addition, it can be achieved by multi-step tandem reaction. First, simple raw materials, such as amines and aldoxides, undergo condensation reaction in a weakly acidic medium under mild conditions to form preliminary intermediates. Then, in another reaction stage, specific nitrogen-containing and oxygen-containing functional groups are introduced, and the core structure of 5-azole-4 (1H) -pyrimidinedione (3h) is gradually constructed by cyclization reaction. This multi-step tandem reaction, although the steps are complicated, is also an effective way to synthesize this compound if it is properly operated and the steps are connected smoothly.

In what fields is 5-iodine-4 (1H) -pyrimidinedione (3h) used?

5-%-4 (1H) -imidazoleddimethanol (3h) is useful in a wide range of domains. In the field of, this compound has a high value. It has a certain biological activity, or can be used for the synthesis of compounds, which can be used as an important process for the synthesis of specific, It is expected to help the research of specific drugs for specific diseases, such as some antiviral, antibacterial compounds, etc., by virtue of its special, increase Its molecular properties can be used to study the properties of high-performance materials such as nuclear substitution, nuclear addition, etc., to assist researchers in gaining insight into the properties, and to provide new evidence for the improvement of synthetic methods.
Furthermore, in the field of materials science, it may also be useful. Due to its specific properties, it may be able to make certain functional materials, such as materials with special adsorption, chemical or optical properties. By rational modification, it may be possible to make them into high-performance materials, injecting new vitality into the development of materials science.
In addition, in the field of biotechnology, this compound may be useful for the study of the interaction of biomolecules. It is similar to some biologically active molecules, or it can be used to study important physiological processes such as biological information and enzyme catalysis, providing new opportunities for biological technology.

What is the market outlook for 5-Iodine-4 (1H) -pyrimidinedione (3h)?

5-Question-4 (1H) -piperazinedione (3h) What is the market prospect? This is an important point of inquiry in the field of pharmaceutical and chemical industry.
In today's pharmaceutical research and development landscape, piperazinedione compounds have gradually attracted the attention of scientific research and industry due to their unique chemical structures and potential biological activities. In terms of their medicinal value, many studies have revealed that such compounds show certain therapeutic potential for a variety of diseases, such as anti-tumor, antibacterial, antiviral, etc. Taking anti-tumor as an example, some piperazinedione derivatives can precisely act on specific targets of tumor cells, inhibit their proliferation and metastasis, and open up a new path for the development of anti-cancer drugs.
From the perspective of market demand, with the increasing aging of the global population and the increasing incidence of various diseases, the demand for innovative drugs continues to grow. 5-Question-4 (1H) -piperazinedione (3h), as a compound with research and development prospects, is expected to meet the market's demand for new therapeutic drugs. In order to seize market share, pharmaceutical companies are also actively involved in the research and development of such compounds, promoting related technological progress and product iteration.
Furthermore, in the chemical industry, piperazinedione can be used as a key intermediate for the synthesis of more complex and high value-added compounds. Its position in organic synthetic chemistry is increasingly prominent, expanding new directions for the fine chemical industry.
However, its market prospects also pose challenges. New drug research and development requires a long cycle and huge capital investment. From the discovery of compounds to the final listing, it has gone through many rigorous clinical trials and approval links. And the market competition is fierce, and other similar or alternative compounds are also competing for market share. However, overall, if the R & D bottleneck can be broken, 5-question-4 (1H) -piperazinedione (3h) has broad market prospects and is expected to bring new growth points to the pharmaceutical and chemical industries.

What are the precautions in the preparation of 5-iodine-4 (1H) -pyrimidinedione (3h)?

When preparing 5-Question-4 (1H) -imidazolidinedimethanol (3h), many things need to be paid attention to.
The quality of the first raw material, the selected raw material must be pure and meet the specifications. If the raw material contains impurities, or the reaction result is deviated, it will affect the purity and yield of the product. When weighing the raw materials, when using a precise measuring tool, it is strictly in accordance with the formula ratio. Any error may affect the reaction direction and product quality.
The reaction conditions are also critical. In terms of temperature, precise regulation is required, because the reaction rate and product distribution may vary at different temperatures. The appropriate temperature range for the reaction should be strictly controlled. If it is too high or side reactions will increase, and if it is too low, the reaction will be slow or even stagnant. The reaction time should also be appropriate, the duration is insufficient, the reaction is not complete, and the amount of product is small; if it is too long, it may cause an overreaction and destroy the structure of the product.
Solvent selection cannot be ignored. Suitable solvents can promote the dissolution and reaction of raw materials, and their properties such as polarity and boiling point will affect the reaction. The selected solvent needs to be compatible with the raw materials and products, and it is convenient for subsequent separation and purification.
During the reaction process, stirring is also important. Uniform stirring can make the raw materials fully contact, make the reaction more uniform, and avoid uneven reaction caused by too high or too low local concentration.
Furthermore, safety protection is essential. The reaction involves chemical reagents, and some may have dangerous properties such as toxicity and corrosiveness. When operating, protective clothing, gloves, goggles and other protective equipment should be worn, and work in a well-ventilated environment to prevent the accumulation of harmful gases and endanger personal safety.
Product separation and purification are also critical. After the reaction, it is necessary to use a suitable method to separate the product and impurities in the reaction system. Distillation, extraction, recrystallization and other methods can be selected according to the properties of the product and impurities to obtain high-purity products.