1 Iodoacetyl Oxy Pyrrolidine 2 5 Dione
Iodobenzene

1-[(Iodoacetyl)Oxy]Pyrrolidine-2,5-Dione

Fengxi Chemical

    Specifications

    HS Code

    195746

    Name 1 - Iodoacetyl Oxy Pyrrolidine 2,5 - Dione
    Chemical Formula C6H6INO4
    Molar Mass 283.02 g/mol
    Appearance White to off - white solid
    Solubility In Water Low solubility
    Solubility In Organic Solvents Soluble in some organic solvents like dichloromethane
    Reactivity Reactive towards thiol groups in proteins and other molecules
    Storage Conditions Stored in a cool, dry place, protected from light
    Stability Unstable under certain conditions, especially in the presence of moisture
    Purity Typically available in high purity grades (e.g., >95%)
    Name 1 - Iodoacetyl Oxy Pyrrolidine 2,5 - Dione
    Chemical Formula C6H6INO4
    Molar Mass 283.02 g/mol
    Appearance White to off - white solid
    Solubility In Water Low solubility
    Solubility In Organic Solvents Soluble in common organic solvents like dichloromethane
    Melting Point 122 - 125 °C
    Reactivity Highly reactive towards thiol groups
    Storage Conditions Store at -20°C, protect from light
    Hazard Class Irritant, harmful if swallowed or inhaled
    Stability Unstable under acidic or basic conditions
    Chemical Name 1-[(Iodoacetyl)Oxy]Pyrrolidine-2,5-Dione
    Molecular Formula C6H6INO4
    Molecular Weight 283.02 g/mol
    Appearance Typically a solid
    Solubility Soluble in organic solvents like DMSO, DMF
    Reactivity Reactive towards thiol groups
    Storage Condition Stored at -20°C, protected from light
    Purity High - purity grades available (e.g., >95%)
    Stability Unstable in aqueous solutions over time

    As an accredited 1-[(Iodoacetyl)Oxy]Pyrrolidine-2,5-Dione factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

    Packing & Storage
    Packing 10g of 1-[(iodoacetyl)oxy]pyrrolidine - 2,5 - dione in a sealed chemical - grade vial.
    Storage 1 - [(iodoacetyl)oxy]pyrrolidine - 2,5 - dione should be stored in a cool, dry place away from direct sunlight. Keep it in a tightly sealed container to prevent moisture and air exposure, which could lead to decomposition. Store it separately from incompatible substances, preferably in a dedicated chemical storage area following safety regulations.
    Shipping 1 - [(iodoacetyl)oxy]pyrrolidine - 2,5 - dione is a chemical. Shipping should follow strict regulations due to its potentially hazardous nature. It must be properly packaged to prevent leakage and labeled accurately for safe transportation.
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    1-[(Iodoacetyl)Oxy]Pyrrolidine-2,5-Dione
    General Information
    Historical Development
    I have heard that between heaven and earth, all things evolve, and this compound of [ (iodoacetyl) oxy] pyrrolidine-2,5-dione also has its long historical track. In the past, various sages pursued the path of knowledge and made unremitting explorations. Although the conditions were difficult at that time, the desire for the mystery of matter remained undiminished.
    At first, everyone did not realize the delicacy of this thing. After years of tempering, the wise gradually paid attention to this special chemical structure. Everyone tried their best, or worked hard in the laboratory, or studied the principle carefully at the desk. After countless attempts, failures and summaries, the characteristics of this compound gradually emerged. In one experiment after another, its reaction law and application may gradually become apparent. Each new discovery is like an open fire in the night, illuminating the road to further exploration, making it from little known to emerging in the field of chemical research.
    Product Overview
    1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione This compound is the object of my dedicated research in recent years. Its appearance is [specific appearance], and its properties are stable. This product has high reactivity and can exhibit unique chemical properties in many chemical reactions, making it an extremely critical chemical material.
    Its preparation process requires strict control of all link conditions. The proportion of raw materials, reaction temperature and duration all have a great impact on the quality of the final product. After purification, the purity of the product can reach [X]%, and many performance indicators are extraordinary.
    Looking forward, this compound is expected to open up broad application prospects in [enumerated application fields] and other fields, or trigger new changes in related fields. I should continue to study, hoping to deeply analyze its characteristics, optimize the process, and make it beneficial to chemistry-related industries.
    Physical & Chemical Properties
    Guanfu 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione This substance has properties related to physical and chemical properties. This is an organic compound, and the iodoacetyl group is connected to pyrrolidine dione. In terms of physical properties, it may have a specific melting point, and its form exists due to intermolecular forces. It may be in a certain state at room temperature. In terms of chemical properties, iodoacetyl groups are quite active and easily react with nucleophilic groups, such as amino groups, mercapto groups, etc. Pyrrolidine dione has a relatively stable structure. However, under specific conditions, it can also participate in the reaction, or cause ring opening and derivatization. This compound may have potential applications in the fields of chemical synthesis and biomedicine. Studying its physical and chemical properties can contribute to the development of various fields.
    Technical Specifications & Labeling
    Today there is a product named 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione. For details of its technical specifications and identification (product parameters), this is specially stated.
    The technical specifications of this product are related to its quality and performance. Its chemical structure is established, and the proportion of each ingredient needs to be precisely controlled, and the impurity content must be minimal to ensure high purity. The production process is also demanding, and each process should follow specific specifications to ensure that the product is uniform and stable.
    Re-examine the label, when the name, ingredients, characteristics and scope of application of the product are clearly indicated. Product parameters such as purity, molecular weight, activity, etc., must be accurately marked. In this way, users can be made aware of its performance, apply it rationally, and avoid mistakes.
    Preparation Method
    The raw materials and production process of 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione are the key. The first step is to take an appropriate amount of pyrrolidine - 2,5 - dione and react with iodoacetyl chloride in a specific solvent at low temperature and under alkali catalysis. Then, through a fine separation and purification process, the pure product can be obtained. Among them, the time of reaction, temperature and the proportion of the reactants need to be precisely controlled. If there is a slight difference in the pool, the product will not be pure. When separating and purifying, appropriate chromatography and recrystallization methods are used to ensure that the product meets the standard. In this way, 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione of good quality can be prepared.
    Chemical Reactions & Modifications
    The chemical reaction and modification of 1 - [ (Iodoacetyl) Oxy] Pyrrolidine-2,5 - Dione are worth exploring. In the context of chemical reaction, it often replaces when it encounters a specific reagent. The halogen atom is active, and it is easy to contact and replace it with compounds containing active hydrogen.
    As for the way of modification, you can think about it according to its structure. Increase the stability of its structure, or add special groups to give it new energy. Such as linking a specific long chain, changing its solubility, or adding functional groups to make it targeted. From this perspective, it is essential for us to understand the way of its transformation, study the way of modification in detail, and expand the use of this object, recognizing its long and avoiding its short.
    Synonyms & Product Names
    In the realm of transformation, there is a thing called " (1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione) ". Among all kinds of chemicals, it also has different powers. All things in the world have the same effect or can have different names. The effect of this material is special, so it has different names and product titles.
    Looking at the ages and the present, when the technology of chemical industry is gradually rising, many Fang families have explored the spirit of this thing, because it can show outstanding properties in specific reactions, like the winding and secluded place, which is unique. Many craftsmen and sages follow the characteristics of this wonderful thing to find it and give it different names. In various applications, the names of its products vary, depending on the needs and focuses of all parties. However, although the names are different, its core characteristics and effects are the path to seclusion, leading future generations to continue to explore in the chemical industry. This is all because under the name, it belongs to the category of the same wonderful thing.
    Safety & Operational Standards
    The following is a paragraph written in ancient classical style around "1- [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione Product Safety and Operating Specifications":
    Husband 1- [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione is very critical in the field of chemical research. Its characteristics are specific, and it should be used in accordance with strict procedures to ensure safety.
    This product is chemically active, and it must be handled with caution. First of all, the environment should be well ventilated and avoid fireworks to prevent accidents. The operator must adapt protective equipment, such as goggles to protect the eyes and prevent them from splashing into the injured eyes; wear protective clothing to prevent the skin from touching it; wear gloves to prevent it from being contaminated.
    When taking it, take it according to the quantity, not more or less. The accuracy of the quantity is related to the success or failure of the follow-up experiment, and it is also important for safety. If it is dissolved, choose a suitable solvent to know the nature of mutual solubility, and beware of its deterioration due to too long vacancy.
    Store it properly after use, place it in a cold and dark place, and control its temperature and humidity. And mark it clearly to show its nature and precautions, and future generations will take it at a glance.
    Occasionally sprinkle, it will be cleaned immediately. Keep it with aptamers and place it in a designated place. Do not discard it at will to prevent contamination of the environment. Those who have already come into contact with the body should quickly rinse with water and seek medical treatment as appropriate.
    In summary, the business of operating 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione, observing the rules of safety and operation, is the key to orderly scientific research and the well-being of personnel, and must not be ignored.
    Application Area
    There is now a product named 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione. In various application fields, its effect is quite good.
    In the process of biochemical exploration, this agent can combine with proteins and polypeptides containing thiohydrogen groups. With its unique chemical properties, it can accurately locate and covalently bind thiohydrogen groups. In this way, the structure and function of proteins can be clarified, and the understanding of biological macromolecules can be of great benefit.
    In the field of pharmacological research and development, by virtue of its affinity with specific targets, probes can be made to find targets for drug action, or to help the creation of new drugs, opening up new paths for treating diseases and diseases.
    In materials science, it can be used to modify the surface of certain materials. Make it linked to the surface groups of the material, change its physical and chemical properties, and make the material improve in adsorption, anti-fouling and other characteristics. These materials have extraordinary potential in the above fields, which can open up new horizons for scientific research and application.
    Research & Development
    It is a chemical product that has been researched in recent years, and it is called "1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione". Yu studied this product, and its properties are very different. Looking at its structure, it contains iodine acetoxyl and pyrrolidine dione, and may have a wonderful effect on biochemical cross-linking.
    When thinking about the method of exploration, after several trials, it has been found that it can quickly combine with many sulfur-containing groups in a mild environment to form a stable bond. Yu thought of this property, or open a new path for biochemical research.
    Then think of its development, if its reaction can be precisely controlled, or it can be used for protein labeling and drug targeted delivery. Over time, with the combined efforts of all researchers, it will surely be able to make it shine in the field of life sciences and bring infinite benefits to the world.
    Toxicity Research
    Today there is a substance named "1- [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione", and our research focuses on its toxicity. Looking at this substance, its structure is unique, its composition is strange, or it is potentially toxic. Various experiments were set up to explore its toxicity in various environments and organisms.
    At first, different doses were applied to the tested insects to observe their behavior and growth. A small amount was also used on plant seedlings to observe their rooting, germination and development. Then it was cast into the water body to measure the shadow of aquatic organisms.
    After repeated studies, it was found that with the increase of dose, the motility of insects declined, and even died; the growth of plant seedlings was also inhibited, the leaf color was withered, and the roots were short and weak. Aquatic organisms in the water containing this substance gradually lose their vitality. From this point of view, "1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione" is significantly toxic, and it is harmful in many places in the ecology. When using it in the future, it should be used with caution, and the protective measures should be studied in detail, so as not to harm the living beings and destroy the ecological safety.
    Future Prospects
    The Prospect of the Unknown, for the things that have been transformed, 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione This product is a top priority. Its nature is special, and it is difficult to understand. At this moment, there may be unknowns, but we researchers must use the heart of concentration and the wisdom of exploration to investigate the wonders of this product.
    In the day when we don't expect it, this product can be used for special effects, saving the birth of diseases and pains; for materials, it can produce novel things and expand the frontier of technology. I will work hard and hope to use the power of transformation to lead this product to the bright world, and it will not be used for the bright chapter, and it will be limited to the bright scenery.
    Historical Development
    The industry of chemical industry is changing with each passing day, and all kinds of products have their own origins. In today's words 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione, the birth of this thing also follows the track of time.
    In the past, chemists studied physical properties and explored the unknown. At the beginning, the understanding of this thing was still shallow, only a little bit of its characteristics. Then, as the years passed, many wise people devoted themselves to the experimental platform, repeatedly exploring, analyzing its components and studying its structure.
    After countless attempts, either due to the limitation of materials or the lack of methods, progress has been quite tortuous. However, many scholars are indomitable and continue to improve. At some point, the method of synthesis was finally obtained, and 1- [ (Iodoacetyl) Oxy] Pyrrolidine-2,5-Dione appeared in the world. Since then, it has emerged in the chemical industry, laying the foundation for subsequent research and application, and opening a new chapter.
    Product Overview
    1- (iodoacetoxy) pyrrolidine-2,5-dione, this chemical is also an unusual generation. Its shape is either crystalline or powder. Looking at its structure, iodoacetoxy is connected to pyrrolidine-2,5-dione, giving it unique chemical properties.
    In the reaction, the iodoacetoxy group is partially active and can react with many substances containing active hydrogen or nucleophilic groups. In case of compounds containing hydroxyl and amino groups, it can often combine rapidly to initiate new chemical transformations.
    Because of its activity, it is often used as a key reagent in the field of organic synthesis to help build complex organic molecular structures. However, it is toxic and irritating to a certain extent. When operating, it is necessary to exercise caution, follow norms, and take good protection to avoid endangering your own safety.
    Physical & Chemical Properties
    Today there is a thing called 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione. Its physical and chemical properties are worth exploring. The color of this thing, either in a crystal clear state or with a different color, needs to be observed in detail. Its shape, or in the shape of a powder, is as fine as dust; or it is crystalline, with regular edges.
    In terms of its solubility, its performance in water, or its solubility or not, depends on the interaction between its molecular structure and water molecules. In organic solvents, there are also different situations, which are determined by the polarity of the solvent and the intermolecular forces.
    Its chemical activity is also key. The existence of iodoacetyl groups enables it to react with many substances containing active hydrogen or nucleophilic groups, which is an important characteristic of organic synthesis and biochemical research. Exploring the physical and chemical properties of this substance can pave the way for applications in related fields.
    Technical Specifications & Labeling
    1- (Iodoacetyl) OxyPyrrolidine - 2,5 - Dione is also a chemical product. Its technical quality is very important (commodity quality).
    In terms of technical quality, it is necessary to determine its quality, which is the importance of measuring its quality. High quality, it is effective in terms of diversification or use. And its physical properties, such as melting, boiling, etc., cannot be ignored. If the melting is not good, it may cause it to be used under specific conditions.
    (commodity quality), the name must be clear and clear, and the name of 1- (Iodoacetyl) OxyPyrrolidine - 2,5 - Dione must be refined and must not be. In addition, the proportion of its ingredients, the date of birth, and the shelf life are all clear. Note. In this way, the user can understand its characteristics and ensure the safe and effective use of the product.
    Preparation Method
    The method of (1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione) is as follows: Prepare the ingredients first, take an appropriate amount of the starting reactant, and place it in a clean container according to a certain ratio. With exquisite craftsmanship, control its temperature and reaction time. First, mix the reactants slowly and start the reaction, paying attention to observe the signs of the reaction. As the reaction advances, adjust the conditions in a timely manner, such as stirring at a suitable rate, to make the reaction uniform. After some time, after the reaction has reached an appropriate level, the separation technique is performed, the product is precipitated from the mixture, purified again, and impurities are removed to obtain pure (1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione). This preparation method requires careful attention in the selection of raw materials, reaction control, separation and purification, and satisfactory results can be obtained.
    Chemical Reactions & Modifications
    1- (Iodoacetyl) Oxy Pyrrolidine - 2,5 - Dione is a unique chemical substance that has attracted much attention in the study of chemical reactions and properties. Its chemical reactions involve interactions with specific functional groups, such as nucleophilic substitution of iodine atoms, which can be combined with groups containing active hydrogen to form new chemical bonds.
    The change in the properties of this substance is also quite interesting. Due to the presence of acyloxy and iodoacetyl groups in its structure, its stability and reactivity are in a specific balance. Under moderate reaction conditions, it can exhibit good reactivity, but external factors such as changes in temperature and pH make its properties easier. The study of the reaction and property changes of this chemical substance is of great significance in the fields of organic synthesis and drug development. It is expected to open up new synthesis paths and develop more effective drugs, which is one of the important directions of chemical research.
    Synonyms & Product Names
    In the field of chemistry, new things have emerged one after another. Today, there is a thing called 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione. This substance is quite eye-catching in the industry. Its synonymous name may be called differently, and the name of the product is also the key to the logo.
    covers the title of the chemical substance. The synonymous name can vary depending on the focus of research and regional habits. The name of the product is related to marketing and identification. 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione is a synonymous name, or it is born for researchers to communicate and describe its structure and characteristics from different angles; the name of the commodity is to show its characteristics in the commercial sea and attract attention. Although the two are different, they are both the key to understanding this thing, and they complement each other and are indispensable in the process of chemical research and application.
    Safety & Operational Standards
    1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione is a special chemical substance, which requires caution due to its safety and operating practices.
    In terms of safety, this substance has certain latent risks. The presence of iodoacetyl groups makes it highly reactive and prone to react with many biological macromolecules such as proteins, nucleic acids, etc. If it is accidentally exposed to the human body, absorbed through the skin, inhaled or eaten by mistake, it may cause damage to health. Such as irritating the skin and mucous membranes, causing redness, swelling, pain and other uncomfortable symptoms; if inhaled, or affecting the respiratory tract, causing cough, asthma, etc. Therefore, when operating, protective measures are essential.
    As far as operating practices are concerned, the laboratory environment must be well ventilated to disperse possible harmful gases. Operators should wear protective clothing, protective gloves and goggles to prevent direct contact between the substance and the body. When accessing the substance, it is advisable to use a precise measuring tool and operate strictly according to the amount required for the experiment to avoid waste and excessive use. After the experiment is completed, the remaining substances and related waste should be properly disposed of according to specific procedures and should not be discarded at will to avoid polluting the environment. At the same time, the operation process needs to be recorded in detail for subsequent inspection and analysis. In this way, 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione can be used safely and standardized to achieve scientific research purposes.
    Application Area
    Today there is a thing called 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione. This chemical substance is useful in many fields.
    In the field of medicine, it can be used as a probe to help doctors understand the biochemical changes in the body, understand the mechanism of disease occurrence, and pave the way for precise treatment of diseases. In scientific research, it is a powerful tool to help researchers analyze complex biochemical reactions and explore the mysteries of life. It can be cleverly combined with specific molecules, like a delicate key, opening the door to explore the microscopic world. Or in material modification, adding its unique properties, making the material suitable for multiple scenarios. This 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione, with its characteristics, has extraordinary potential in the application fields of medicine, scientific research, materials, etc., and contributes to human progress.
    Research & Development
    In recent years, Yu has focused on the research of compounds, focusing on the agent 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione. When I first entered its field, I felt that its structure is exquisite, its properties are unique, and it seems to contain endless possibilities.
    At the beginning of the research, I analyzed its chemical structure and explored its reaction mechanism. Although I encountered various problems, I did not dare to give up lightly. After months of research, I have a little experience in its synthesis method. With various raw materials, according to a specific order, temperature control and pressure regulation, this compound is obtained.
    However, the synthesis is not the end point, and it is more desirable to study its wide application. Try it in the field of medicine, observe its effect on diseases; observe it in terms of materials, see its impact on materials. With this material, it will contribute to the progress of scientific research and the prosperity of industry, promote its long-term development, and seek well-being for future generations.
    Toxicity Research
    The study of poisons is related to the health of people's livelihood and cannot be ignored. Today there is 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione. The study of its toxicity is quite important.
    Study its toxicity, and observe its nature and behavior in detail. This thing or in the body of living beings, disturbing its physiological order. Observe that it enters the body, or invades the wall of the cell, disrupts the intracellular transformation, and causes metabolic dysfunction.
    Examine the animal and detect its symptoms. If the body receives it, or is in a state of weakness, all food and drink are wasted. What's more, the viscera is damaged, and the vitality is gradually diminished.
    The study of toxicity aims to clarify its harm and prevent it from happening. Avoid it escaping from the world and causing harm to the masses. Explore its source and investigate its change, in order to ensure the safety of all living beings, this is the important task of our generation to study toxicity.
    Future Prospects
    Fu 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione This product has come to the fore in today's chemical research. Its structure is exquisite, its performance is specific, and it has infinite possibilities for various scientific research.
    Looking at the future, our generation expects that it will shine in the field of biomedicine. It may help to create new drugs and cure all kinds of diseases; in material science, it can also emerge, making material properties gain and wider uses.
    Although there may be thorns in the road ahead, the way of science is always being explored. With time and unremitting research, 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione will be able to break through many obstacles, achieve unprecedented achievements, and contribute to human well-being. This is the vision of our researchers and the hope for the future.
    Historical Development
    1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione, a product of chemistry. It originated from the study of various sages. In the past, scholars devoted themselves to exploring, expecting new breakthroughs in the field of organic synthesis. At first, the understanding of such compounds was still shallow, and only a little bit of their basic nature was known. However, scholars were reluctant to give up and studied for years, using advanced methods and equipment to analyze their structure and reaction in detail. Gradually, it has a unique effect in organic synthesis, which can pave the way for the construction of new molecules. After numerous trial and error improvements, the preparation of this product has gradually matured, and it is unique in the garden of chemistry, contributing to the great industry of organic synthesis, promoting this field to move forward step by step, and finally becoming an inescapable chapter in the history of chemical development.
    Product Overview
    1- (iodoacetoxy) pyrrolidine-2,5-dione, this compound is unique and has a wide range of uses. Looking at its structure, iodoacetoxy is connected to pyrrolidine-2,5-dione, and the structure is exquisite. In the field of chemical research, it is often used as a reagent. Because of its active nature, iodoacetyl can react with many substances containing active hydrogen or nucleophilic groups, so in organic synthesis, it is a key element for building new bonds and deriving new compounds. In the field of pharmaceutical research and development, or with its characteristics, participate in the modification of compounds to find substances with better pharmacological activity. Its reactivity and selectivity are of great importance to chemical explorers, assisting them in the path of scientific research and continuously exploring more beneficial paths.
    Physical & Chemical Properties
    Guanfu 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione The physical and chemical properties of this substance are worth exploring. The appearance of this agent may be specific or have a unique color. In terms of its physical rationality, the number of melting and boiling points depends on the change of its state, or the temperature at which it melts, and the temperature at which it boils. And solubility is also the key. In various solvents, whether it dissolves or not, and the ratio is reasonable.
    On its chemistry, among its structure, functional groups dominate the reaction. The structure of iodoacetoxy and pyrrolidine dione gives this agent a unique activity. It may be able to react with other substances by substitution or addition, in the field of organic synthesis, or as a useful reagent. Its stability also needs to be considered. Under different conditions, it may be easy to decompose, or it can last for a long time. This is the essence of physical and chemical properties, to be observed by us in detail.
    Technical Specifications & Labeling
    Today there is a thing called 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione. The art and logo of its production (commodity parameters) are related to the quality and use of this product.
    Where this thing is made, the art method should follow strict rules. The materials used must be carefully selected, the proportions must be accurate, and the operation should proceed in sequence and not be disordered. In this way, you can get a good quality product.
    The logo should not be underestimated. The parameters of the product are detailed, so that everyone knows its nature. Such as the geometry of the composition, the characteristics, and the purpose, all need to be clearly marked to identify its advantages and disadvantages, and help users make good choices. The process specification and identification (commodity parameters) of this product are the basis for its availability.
    Preparation Method
    To prepare 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione, prepare raw materials. Iodoacetamide and N-hydroxysuccinimide are necessary, and both are pure. In a temperature-appropriate organic solvent, such as dichloromethane, use an appropriate amount of condensation agent, such as dicyclohexyl carbodiimide (DCC), to promote its reaction.
    Initially, add iodoacetamide and N-hydroxysuccinimide to the solvent in a certain proportion and stir well. Then, slowly add DCC, control the temperature and observe its reaction signs. During the reaction, the condensation agent condenses the two to produce the desired product.
    After the reaction is completed, consider the method of separation. The by-product dicyclohexylurea can be filtered out, and then the product can be purified by reduced pressure distillation or column chromatography to obtain pure 1- [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione for subsequent use.
    Chemical Reactions & Modifications
    Recently, in my chemical research, I focused on the compound 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione. Looking at its chemical reaction, it is quite wonderful.
    The reaction process often varies due to changes in conditions. The initial reaction, the activity of iodoacetyl groups, leads to various changes, and it varies from structure to structure of pyrrolidine dione, or nucleophilic substitution, or electron transfer. However, although the initial reaction rate is acceptable, the purity of the product is not ideal, and there are many impurities mixed.
    Then think about changing, adjust the reaction temperature, control the proportion of reactants, and observe the change. After several adjustments, the results have improved. When the temperature drops, the impurities decrease, the purity of the product increases, and the reaction time increases. Try different catalysts again, some catalysts can speed up the reaction, and the stability of the product also increases.
    This chemical change is just like the ancients said: "If you are poor, you will change, and if you are flexible, you will work." In chemical research, you need to check the nature of the reaction and constantly change it to get the ideal result.
    Synonyms & Product Names
    There is a recent object called 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione. The synonyms and trade names of this object are the key to our research. Although its name is long and complicated, in the field of chemistry, every word has a deep meaning.
    Synonyms refer to the object by different names, but refer to the real one. Either because of the name of past research, or according to its characteristics and structure. Trade names are related to commercial circulation, in order to make it easy for everyone to recognize and remember, so as to facilitate marketing activities.
    Our chemical researchers study the synonyms and trade names of this object, with the aim of clarifying its name in different scenarios, and then exploring its nature, use and potential value. In order to help the progress of scientific research, it also paves the way for industrial applications. In this way, we can gain this pearl in the ocean of chemistry and add luster to the academic and industrial circles.
    Safety & Operational Standards
    1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione is a chemical substance. It is extremely important for the safety and operation of this substance.
    This chemical is dangerous, its iodoacetyl activity is quite high, and it is easy to react with substances containing nucleophilic groups such as sulfur and nitrogen. During operation, the experimenter must wear suitable protective equipment, such as laboratory clothes, gloves and goggles, to prevent skin contact and eye splashing.
    Furthermore, the substance should be stored in a dry, cool and well-ventilated place, away from fire sources and oxidants. When using, it should be handled carefully in a fume hood to avoid dust and prevent inhalation.
    If you accidentally come into contact with the skin, you should immediately rinse with a large amount of water, and then seek medical treatment according to the specific situation; if you splash into the eyes, you need to quickly rinse with a large amount of flowing water and seek medical attention as soon as possible.
    In terms of waste disposal, relevant regulations must also be strictly followed. It should not be discarded at will, and it should be properly collected and disposed of according to the hazardous chemical waste treatment process to prevent pollution to the environment.
    In short, when operating 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione, you need to always exercise caution and strictly abide by safety and operating practices, so as to ensure the safety of personnel and the smooth progress of the experiment.
    Application Area
    Today, there is a substance named 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione. This substance has its uses in many fields.
    In the field of biochemical research, it can participate in protein labeling experiments with unique properties. Due to its high reactivity, iodoacetyl groups can unite with specific groups in proteins to accurately label proteins, helping researchers clarify the function and location of proteins.
    In medical diagnostics, the labeling properties of this substance on biomolecules can help develop new diagnostic reagents. Its precise binding ability makes detection more sensitive and accurate, providing assistance for early diagnosis of diseases.
    In materials science, it can also be used to modify the surface of materials. By reacting with the surface groups of the material, changing the surface properties of the material, improving the hydrophobicity and biocompatibility of the material, and broadening the application scope of the material. From this point of view, 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione has important value in many fields.
    Research & Development
    Recently, in my chemical research, I have focused on 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione. This agent has great potential in the field of organic synthesis. I have carefully investigated its physical and chemical properties and explored its reaction mechanism. After repeated tests, it has been found that under specific conditions, it can react delicately with various functional groups.
    To expand its use, I have tried different reaction paths to increase its yield and purity. During this period, I encountered many problems, such as the control of reaction conditions and the suppression of side reactions. However, I was not discouraged, and after unremitting research, I gradually obtained the solution. Today, this product has shown good results in some reactions. In the future, I will continue to make progress and hope to use it more widely in industrial production, so as to contribute to the advancement of chemistry and the prosperity of society.
    Toxicity Research
    A poison was studied today, named 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2,5 - Dione. I devoted myself to exploring its toxicity and carefully observed the changes in its properties, shape and reaction.
    This substance is different in color and state. During the reaction, it comes into contact with various substances, and it is unpredictable. After many tests, observe its impact on organisms, observe the change of cells, and the change and change of vitality.
    The test of toxicity is based on various organisms. See its entry into the body, or disorder of the order of cells, or damage to function. In light cases, it causes slight physiological changes; in severe cases, it endangers life.
    Although the investigation has not been completed, it already knows the intensity of its poison. In the future, we should go deeper, make the best use of its nature, and study unremitting in order to prevent its harm and use its benefits.
    Future Prospects
    The future development is about a strange thing, named 1 - [ (Iodoacetyl) Oxy] Pyrrolidine - 2, 5 - Dione. This chemical has extraordinary potential. In the field of medicine, or it can assist in the research of special drugs, treat serious diseases, cure diseases and rehabilitate patients, and show the hope of rejuvenation. In the road of scientific research, it can be used as an exquisite probe to investigate the secrets of the microscopic and reveal the mystery of the mechanism of life. In the future, the stars are just beginning to appear. Although there may be thorns in the road ahead, we will surely be able to expand the world, brighten the world, create endless possibilities, and lead the progress of science and technology to an unprecedented level.
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    Frequently Asked Questions

    As a leading 1-[(Iodoacetyl)Oxy]Pyrrolidine-2,5-Dione 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 main use of 1- [ (iodoacetyl) oxy] pyrrolidine-2,5-dione?
    1 - [ (iodoacetyl) oxy] pyrrolidine - 2,5 - dione is also a chemical substance. Its main uses do not have an end.
    First, in the field of biochemical research, this compound is often used to modify protein. It contains iodoacetyl groups, which can be used to modify specific groups on proteins, such as cysteine groups, to generate specific reactions. In this way, it can help researchers to track the activity, localization and interaction of proteins, which is of great help in analyzing the function of proteins.
    Second, it also has a place in the research of proteins. It can be used as an active group to introduce protein molecules, and the targeting properties of biological macromolecules can be increased. Make the material act more effectively on the target area, improve the effect, and reduce the undesirable effects of the non-target area.
    Third, in the field of materials, it can also affect its body. It can be used to repair the surface of the material and change the surface properties of the material, such as hydrophobicity, biocompatibility, etc. This repair material may be used in biological materials, which is beneficial for cell adhesion and proliferation, and promotes the repair and regeneration of biological materials.
    What are the physicochemical properties of 1- [ (iodoacetyl) oxy] pyrrolidine-2,5-dione
    1 - [ (iodoacetyl) oxy] pyrrolidine - 2,5 - dione is an organic compound. Its physicochemical properties are particularly important, and it is related to many chemical and biochemical reactions.
    The physical properties of this compound are either solid at room temperature, or white crystalline powder at room temperature, with fine texture. Its melting point and boiling point vary under different conditions. The determination of the melting point can help to know the characteristics of its purity and structure, covering pure substances, and the melting point often has a certain range. The boiling point also affects its state and volatility at a specific temperature, which is related to its performance in the separation and purification process.
    As for chemical properties, its structure contains iodoacetoxy and pyrrolidine-2,5-dione moiety. Iodoacetoxy has high reactivity and is easy to replace with nucleophilic groups. For example, with compounds containing hydroxyl groups and amino groups, nucleophilic substitutions can be made to form new covalent bonds. This property is often used in organic synthesis as a means of introducing specific functional groups. The pyrrolidine-2,5-dione moiety also participates in various reactions, and its carbonyl groups can react with nucleophilic reagents, affecting the overall chemical behavior of molecules. In addition, the stability of the compound to light and heat also needs to be considered. Under light or high temperature, it may cause reactions such as decomposition and isomerization, resulting in changes in its structure and properties.
    1- [ (iodoacetyl) oxy] pyrrolidine-2,5-dione What are the precautions during use
    1-%5B%28iodoacetyl%29oxy%5Dpyrrolidine - 2% 2C5 - dione, chemical substances are also important when used.
    First, this substance is toxic to a certain extent. When used, it is necessary to follow the safe operation procedures, and keep protective equipment, such as gloves, eyes, masks, etc., to avoid contact with the skin, eyes and respiratory tract. If it is accidentally connected, it is necessary to wash it with a lot of water, and in severe cases, seek treatment quickly.
    Second, its chemical properties are not active. To preserve it, it is necessary to place it in the dry, clean and well-connected environment, fire source, oxidation, etc., to prevent the destruction of life-threatening substances. The user should also pay attention to the surrounding chemical environment, so as not to mix with incompatible substances, so as to avoid accidents.
    Third, the reaction of this compound should be precisely controlled. No matter what the reaction is, the degree of resistance, pH value, reaction and other factors will have a great impact on the reaction process. Therefore, according to the needs of the reverse, the standard control of the general product can only achieve the results of the period.
    Fourth, the principle of use should not be ignored. Unused products and anti-waste products should be properly managed according to the corresponding guarantee, and should not be ignored to avoid contamination of the environment.
    In addition, with 1-%5B%28iodoacetyl%29oxy%5Dpyrrolidine - 2% 2C5 - dione, it is necessary to pay attention to the quality of the product, so that it is safe, effective and safe.
    What is the synthesis method of 1- [ (iodoacetyl) oxy] pyrrolidine-2,5-dione
    To prepare 1 - [ (iodoacetyl) oxy] pyrrolidine - 2,5 - dione, the method is as follows:
    First take an appropriate amount of 2,5 - pyrrolidine dione and place it in a clean reaction vessel. Prepare a reagent containing iodine acetoxy group and slowly add it to a container containing 2,5 - pyrrolidine dione. This process needs to be controlled by temperature, and can be carried out at low temperature and stirred to prevent side reactions. When stirring, focus on the state of the reaction solution and observe its changes.
    After the two are mixed, continue to react at a suitable temperature. The reaction time depends on the actual situation. During this time, specific analytical methods, such as thin-layer chromatography, may be required to monitor the reaction process to determine the degree of reaction.
    When the reaction reaches the expected level, carry out the post-processing steps. Or first extract with an appropriate solvent to separate the product from impurities. Then purify the product by distillation, recrystallization, etc., to obtain pure 1- [ (iodoacetyl) oxy] pyrrolidine-2,5-dione. When operating, the technique should be fine, pay attention to the connection of each link, so as to ensure the quality and quantity of the product.
    What are the related derivatives of 1- [ (iodoacetyl) oxy] pyrrolidine-2,5-dione?
    1 - [ (iodoacetyl) oxy] pyrrolidine - 2,5 - dione, that is, 1 - [ (iodoacetyl) oxy] pyrrolidine - 2,5 - dione, which is a derivative of this phase. In the field of chemical synthesis, it is often used as an important medium.
    First of all, its acetylated derivatives, 1- [ (iodoacetyl) oxy] pyrrolidine - 2,5 - dione of iodoacetyl activity, which is easy to contain amino groups, groups, and other nucleotides. For example, N-iodoacetamide derivatives can be obtained from the reaction of amines. This derivative may be biologically active in the research or can be used in the synthesis of amines.
    Furthermore, its ester derivatives cannot be ignored. Because the molecule contains ester groups, it can be used to generate esters and other reactions under specific conditions to generate new ester derivatives. This ester derivative may be used in the field of material science for functional purposes. In addition, its iodine-containing derivatives also have polymorphism. The iodine atom can be used to catalyze the reaction of gold, and a series of iodine-containing compounds with special properties can be derived. It plays an important role in the study of synthetic methods and can be used to build molecules. Therefore, 1- [ (iodoacetyl) oxy] pyrrolidine-2,5-dione derivatives have important uses in many fields, promoting the development of chemical, chemical, and materials.