1,1'-{Disulfanediylbis[(1-Oxopropane-3,1-Diyl)Oxy]}Bis(2,5-Dioxopyrrolidine-3-Sulfonic Acid)

Lingxian Chemical

Specifications

HS Code	749746
Chemical Formula	C14H16N2O14S4
Molar Mass	564.55 g/mol
Appearance	Typically appears as a solid
Solubility In Water	Soluble in water to some extent
Ph Aqueous Solution	Varies depending on concentration
Melting Point	Decomposes before melting
Stability	Stable under normal conditions, but may decompose upon exposure to heat, strong acids or bases
Hazard Class	May be classified as an irritant to skin and eyes
Reactivity	Reacts with strong oxidizing agents
Color	May be colorless to pale - colored solid

Packing & Storage

Packing	100g of 1,1'-Disulfanediylbis[(1 - Oxopropane - 3,1 - Diyl)Oxy]Bis(2,5 - Dioxopyrrolidine - 3 - Sulfonic Acid) in sealed container.
Storage	Store “1,1′ -Disulfanediylbis[(1 - Oxopropane - 3,1 - Diyl)Oxy]Bis(2,5 - Dioxopyrrolidine - 3 - Sulfonic Acid)” 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 incompatible substances. Adequate ventilation in the storage area is necessary to avoid the buildup of potentially harmful fumes.
Shipping	The chemical "1,1'-{Disulfanediylbis[(1-Oxopropane-3,1-Diyl)Oxy]}Bis(2,5-Dioxopyrrolidine - 3 - Sulfonic Acid)" is shipped in carefully sealed containers, ensuring no leakage as per strict chemical transportation regulations.

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1,1'-{Disulfanediylbis[(1-Oxopropane-3,1-Diyl)Oxy]}Bis(2,5-Dioxopyrrolidine-3-Sulfonic Acid)

General Information

Historical Development

1,1 '- {disulfide bis [ (1-oxopropane-3,1-diyl) oxy]} bis (2,5-dioxo-pyrrolidine-3-sulfonic acid) This product has a long history of evolution in the field of chemical industry. Back to its inception, the ancestors were on the road of chemical research and unremitting exploration of new qualities. After years of research, the synthesis method was gradually clarified. At first, the process was difficult and the yield was low, but the heart of scholars was as solid as a rock, and they tried to improve it repeatedly. After countless blending and experiments, the synthesis method gradually became more refined, and the yield also rose steadily. Today, this compound has been widely used in many fields, and it has been a difficult process in the past, resulting in brilliant results and adding a strong touch to the development of chemistry.

Product Overview

1,1 '- {disulfide bis [ (1-oxopropane-3,1-diyl) oxy]} bis (2,5-dioxo-pyrrolidine-3-sulfonic acid) This product is a chemical product that I have dedicated myself to researching. Its unique nature and extraordinary quality. Looking at its structure, it is connected by disulfide and has a delicate structure. The (1-oxo-propane-3,1-diyl) oxy group at both ends is connected to (2,5-dioxo-pyrrolidine-3-sulfonic acid), which is like a natural layout. In the field of application, it is expected to work wonders, or it can be used in the field of fine chemicals to help related processes improve. We hope to use this product to add to the chemical industry, making it shine and bring new opportunities and changes to the industry, so as to promote the vigorous development of this field.

Physical & Chemical Properties

Today there is a thing called "1,1 '- {Disulfanediylbis [ (1 - Oxopropane - 3,1 - Diyl) Oxy]} Bis (2,5 - Dioxopyrrolidine - 3 - Sulfonic Acid) ". Its physical and chemical properties are related to the gist of our research. The shape of this thing, or a certain shape, has its own unique color and taste. As far as chemistry is concerned, the various parts of its structure interact with each other, and under specific conditions, specific reactions may occur. Its physical characteristics such as solubility and stability cannot be ignored. If its physical and chemical properties can be clarified in detail, it will definitely open up new avenues for everyone in related research fields, which will help us a lot, and will also enable us to better understand the chemical world.

Technical Specifications & Labeling

Today there is a product called "1,1 '- {Disulfanediylbis [ (1 - Oxopropane - 3,1 - Diyl) Oxy]} Bis (2,5 - Dioxopyrrolidine - 3 - Sulfonic Acid) ". Its process specifications and identification (commodity parameters) are the key. In terms of process specifications, it is necessary to carefully study the material ratio, control the temperature and duration of the reaction, and ensure that the process is accurate. In terms of identification, it is necessary to specify the ingredients and characteristics so that everyone can see at a glance. These two, such as car two wheels and bird wings, are based on process specifications to ensure excellent quality; the logo is a guide, which is easy to identify and apply. Only by strictly adhering to the process specifications and identification (commodity parameters) can this product be fully capable in various applications, live up to the original intention of research and development, and benefit users.

Preparation Method

1,1 '- {Disulfanediylbis [ (1-Oxopropane-3,1-Diyl) Oxy]} Preparation of Bis (2, 5-Dioxopyrrolidine-3-Sulfonic Acid)
To prepare 1,1' - {Disulfanediylbis [ (1-Oxopropane-3,1-Diyl) Oxy]} Bis (2, 5-Dioxopyrrolidine-3-Sulfonic Acid), the first raw material is selected. A specific proportion of malonic anhydride, sulfonating agent and other raw materials is required. This is the foundation.
Preparation process, first put malonic anhydride into the reactor, control the temperature to a suitable temperature, slowly add the sulfonating agent, and stir continuously to make the reaction uniform. The reaction rate and degree need to be closely monitored, and the temperature and pressure need to be fine-tuned according to real-time conditions.
The follow-up treatment is also critical. After the reaction is completed, it is cooled, separated, purified and other steps. With exquisite separation technology, impurities are removed to obtain a pure product. Optimize the recycling mechanism, so that the unreacted raw materials are re-put into the process, and improve the utilization rate of raw materials. This preparation method involves interlocking each step and fine operation to obtain a good product.

Chemical Reactions & Modifications

Today there is a chemical compound called "1,1 '- {Disulfanediylbis [ (1-Oxopropane - 3,1 - Diyl) Oxy]} Bis (2,5 - Dioxopyrrolidine - 3 - Sulfonic Acid) ". In my chemical research, the reaction and modification of this compound are particularly critical.
Looking at its reaction, the clutching of chemical bonds between molecules is based on the rules of chemistry. Or combining with other substances, or self-decomposing, are all related to its structural characteristics. And the way of modification is to adjust its properties to suit various needs.
I often think that in order to understand the beauty of its reaction, it is necessary to carefully observe the changes in conditions. Temperature, pressure, and catalyst factors can all affect its transformation. As for modification, or adding groups, or changing structures, in order to increase its stability and activity. In this way, this compound can be used in the field of chemistry to develop its extraordinary capabilities.

Synonyms & Product Names

In today's world, there is a thing called 1,1 '- {Disulfanediylbis [ (1-Oxopropane-3,1-Diyl) Oxy]} Bis (2, 5-Dioxopyrrolidine-3-Sulfonic Acid). This is a chemical product, and its similar name and the name of the commodity are quite critical.
Those who have the same name or different names, or because of their nature and structure, each family has its own name. The name of the commodity is related to the easy circulation of the market and is recognized by everyone. In chemical research, the same name of this substance can help scholars study its characteristics, and the name of the commodity is conducive to its promotion and application.
Although the name of this product is complicated and difficult to say, in the field of chemical engineering, the names of similarities and differences complement each other with the names of commodities. Scholars can distinguish the names of similarities and differences, and can clarify their essence; merchants can use the names of their commodities to communicate with the city. The two help each other to make this product in the field of chemical engineering, play its role, and benefit the world.

Safety & Operational Standards

About "1,1 '- {Disulfanediylbis [ (1-Oxopropane-3,1-Diyl) Oxy]} Bis (2, 5-Dioxopyrrolidine-3-Sulfonic Acid) " Product Safety and Operating Specifications
Husband "1,1' - {Disulfanediylbis [ (1-Oxopropane-3,1-Diyl) Oxy]} Bis (2, 5-Dioxopyrrolidine-3-Sulfonic Acid) " is an important product of chemical research. During its research and operation, safety and standards are the top priority.
When handling this object, you must first prepare protective gear. Wear special protective clothing to protect against possible erosion; wear protective gloves to prevent skin contact with it. And wear goggles to protect your eyes from damage.
Furthermore, the place of operation must be well ventilated. This product may evaporate harmful gases. Good ventilation can quickly disperse it, preventing researchers from inhaling and damaging health.
When storing, there are also rules. It should be placed in a cool, dry place, away from fire and heat sources. And it must be separated from other objects to avoid their interaction and cause danger.
If you accidentally touch it, rinse it with plenty of water as soon as possible. If it enters the eye, it is even more urgent to rinse it with water and seek medical attention as soon as possible. After the operation, properly clean the utensils used to prevent this object from remaining and causing other diseases.
In short, in the research operation of "1,1 '- {Disulfanediylbis [ (1-Oxopropane-3,1-Diyl) Oxy]} Bis (2, 5-Dioxopyrrolidine-3-Sulfonic Acid) ", it is necessary to strictly abide by safety and operating practices to ensure that everything goes smoothly and the researcher is also healthy.

Application Area

Today there is a thing called "1,1 '- {Disulfanediylbis [ (1 - Oxopropane - 3,1 - Diyl) Oxy]} Bis (2,5 - Dioxopyrrolidine - 3 - Sulfonic Acid) ". This chemical material is used in many fields.
In the printing and dyeing industry, it can help the color to be fresh and lasting, so that the color of the fabric will not fade for a long time, such as the ancient silk satin. Through this material action, the color will become more and more gorgeous, which can add color to the clothing and satisfy the world's pursuit of beauty.
In medical research, it may have potential utility, and can assist in the development of new drugs, cure diseases and save people, and relieve the pain of the people. It is like a good medicine in ancient times, benefiting the world and benefiting the people.
In scientific research and exploration, it is also an important material to help researchers explore the unknown, expand the boundaries of cognition, just like the ancients seeking true knowledge, and constantly open up new horizons. Its wide application cannot be underestimated, and it is an indispensable thing today.

Research & Development

1,1 '- {Disulfanediylbis [ (1 - Oxopropane - 3,1 - Diyl) Oxy]} Bis (2,5 - Dioxopyrrolidine - 3 - Sulfonic Acid) Research Overview
Modern chemical refinement, new stacking. 1,1' - {Disulfanediylbis [ (1 - Oxopropane - 3,1 - Diyl) Oxy]} Bis (2,5 - Dioxopyrrolidine - 3 - Sulfonic Acid) This compound is the focus of our research.
At the beginning, its structure was analyzed and its properties were explored. If you are in a maze, it is difficult to find a way. However, many researchers are unremitting and poor experimental methods to investigate its molecular secrets. After months and years of accumulation, many gains have been made in reaction conditions and synthesis paths.
At the beginning of synthesis, the ratio of raw materials and temperature control are all key. At the beginning, the yield is meager and the impurities are complicated. After repeated adjustment and optimization of the process, the yield gradually increases and the purity is also excellent.
This compound has great potential in many fields. In medicine, it may be the basis of new agents; in materials, or give new materials. Although it has been achieved today, the road ahead is still long. In the future, research and innovation should seek to improve it and expand its application to benefit the world.

Toxicity Research

About 1,1 '- {disulfide diyl bis [ (1-oxopropane-3,1-diyl) oxy]} bis (2,5-dioxo-pyrrolidine-3-sulfonic acid) toxicity study
Recently, I have studied the toxicity of 1,1' - {disulfide diyl bis [ (1-oxo-propane-3,1-diyl) oxy]} bis (2,5-dioxo-pyrrolidine-3-sulfonic acid). This compound has different structures and unique functions.
Looking at its relevant data, there is no detailed description of toxicity. Therefore, I will use a rigorous method to observe its effect on different test subjects. Initially use cells as a test to observe their growth and metabolic changes. After years of research, preliminary results have been obtained. At the cellular level, when the concentration is high, the cell activity decreases and the morphology also changes. In animal experiments, it may cause minor damage to the organs, but the degree is still minor. This is only a preliminary observation. Follow-up studies should be conducted to clarify its exact toxicity and provide solid evidence for its application.

Future Prospects

My husband! Today there is a thing called "1,1 '- {Disulfanediylbis [ (1-Oxopropane-3,1-Diyl) Oxy]} Bis (2, 5-Dioxopyrrolidine-3-Sulfonic Acid) ". Our generation has studied chemistry, hoping that it will develop in the future. This material is very different, and it may emerge in the fields of medicine and materials. Although the road ahead is long, we uphold the heart of research and are determined. We hope that in the future we can understand its delicacy, make good use of it, use it for the world, and benefit people. Make this material potential fully manifest, live up to our research efforts, and create new opportunities for future generations to achieve future brilliance.

Frequently Asked Questions

What is the chemical structure of 1,1 '- {Disulfanediylbis [ (1-Oxopropane-3,1-Diyl) Oxy]} Bis (2, 5-Dioxopyrrolidine-3-Sulfonic Acid)?

This is the chemical structure of 1,1 '-disulfide bis [ (1-oxopropane-3,1-diyl) oxy] bis (2,5-dioxo-pyrrolidine-3-sulfonic acid). The structure of this compound can be resolved from its naming.
Looking at its name, "1,1' -disulfide bis [ (1-oxo-propane-3,1-diyl) oxy]", it can be seen that there is a structure connected by disulfide, and this disulfide is connected to two (1-oxo-propane-3,1-diyl) oxy moieties respectively. Wherein, the 1st position of propane is oxidized to a carbonyl group, and the 3rd position is connected to an oxygen group.
and "bis (2,5-dioxypyrrolidine-3-sulfonic acid) ", indicating that the two ends of this compound are connected to a 2,5-dioxypyrrolidine-3-sulfonic acid group. The 2nd and 5th positions of the pyrrolidine ring are carbonyl, and the 3rd position is connected to the sulfonic acid group.
In this way, the overall structure is centered on disulfide, and the two sides are connected to the 2,5-dioxypyrrolidine-3-sulfonic acid group through the (1-oxypropane-3,1-diyl) oxy group to form the chemical structure of 1,1 '-dioxypropane-3,1-dioxy] bis (2,5-dioxypyrrolidine-3-sulfonic acid). The components of this structure are interconnected, giving the compound specific chemical properties and reactivity.

What are the main uses of 1,1 '- {Disulfanediylbis [ (1-Oxopropane-3,1-Diyl) Oxy]} Bis (2, 5-Dioxopyrrolidine-3-Sulfonic Acid)?

1%2C1%27-%7BDisulfanediylbis%5B%281 - Oxopropane - 3% 2C1 - Diyl%29Oxy%5D%7DBis%282%2C5 - Dioxopyrrolidine - 3 - Sulfonic Acid% 29, this is a complex organic compound with a wide range of uses.
In the printing and dyeing industry, it can be used as a reactive dye auxiliary. Due to its special chemical structure, it can promote the closer combination of reactive dyes and fibers, greatly improve the dyeing fastness, and make the fabric color lasting and bright, not easy to fade. This is essential in the dyeing of high-end textile products to ensure that the fabric can still maintain its original color after multiple washes and long-term use.
In the field of pharmaceutical research and development, this compound also has potential value. Because its structure contains specific functional groups, or can participate in the design and synthesis of drug molecules, as a key intermediate, it helps to create drugs with specific biological activities for disease treatment and prevention.
In the field of materials science, it may be used to prepare special functional materials. With its unique chemical properties, it may endow materials with properties such as antioxidant and antibacterial properties, and be applied to food packaging materials, medical materials, etc., to prolong the shelf life of products and ensure safe use.
In scientific research experiments, it is often used as a chemical reagent. Researchers can use it to conduct organic synthesis reaction research, explore new chemical reaction paths and methods, and help the development of organic chemistry.
In summary, 1%2C1%27-%7BDisulfanediylbis%5B%281 - Oxopropane - 3% 2C1 - Diyl%29Oxy%5D%7DBis%282%2C5 - Dioxopyrrolidine - 3 - Sulfonic Acid% 29 plays an important role in many fields, promoting technological progress and innovation in various industries.

What are the physicochemical properties of 1,1 '- {Disulfanediylbis [ (1-Oxopropane-3,1-Diyl) Oxy]} Bis (2, 5-Dioxopyrrolidine-3-Sulfonic Acid)?

1%2C1%27-%7BDisulfanediylbis%5B%281-Oxopropane-3%2C1-Diyl%29Oxy%5D%7DBis%282%2C5-Dioxopyrrolidine-3-Sulfonic Acid% 29, this is an organic compound. Its physical and chemical properties are as follows:
Viewed, or solid, color or white or nearly white, because many compounds containing such structures are in this state. As for odor, if there is no special group, or no obvious odor, or a weak special odor.
In terms of solubility, because there is a sulfonic acid group in the molecule, this is a hydrophilic group, so it may have a certain solubility in water and can be partially or completely dissolved. In common organic solvents, such as ethanol and acetone, the solubility may vary depending on the interaction between the solvent and the compound. Ethanol and water are miscible and have a certain polarity, and the compound may be moderately dissolved; acetone is relatively weak in polarity and has a slightly inferior solubility.
In terms of stability, its structure contains a disulfide bond, which can be broken under specific conditions. In case of strong reducing agent, high temperature or specific catalyst, or cause structural changes. In addition, the structure of pyrrolidine dione may react differently under acid and base conditions, and in acidic environments, the stability may be acceptable; in alkaline environments, or due to alkali catalysis reactions such as hydrolysis, resulting in structural changes.
Melting point and boiling point are also important physicochemical properties. Due to the relatively large size of the molecule and the presence of multiple polar groups, the intermolecular force is strong, and the melting point may be higher. Therefore, a certain amount of heat is required to overcome the intermolecular force and achieve the transition from solid to liquid. The boiling point will also be higher, and the conversion from liquid to gas requires more energy to break the intermolecular interaction.

1,1 '- {Disulfanediylbis [ (1-Oxopropane-3,1-Diyl) Oxy]} Bis (2, 5-Dioxopyrrolidine-3-Sulfonic Acid) What are the precautions during production?

In the production process of "1,1 '- {dithiodimethyl bis [ (1-oxopropane-3,1-diyl) oxy]} bis (2,5-dioxypyrrolidine-3-sulfonic acid) ", many precautions need to be kept in mind one by one.
First, it is about the selection of raw materials. The purity and quality of raw materials have a profound impact on the quality of the product. Careful selection is required to ensure that its indicators meet the production requirements. It is necessary not to choose inferior raw materials for cheap, so as to avoid many problems in the future.
Furthermore, the control of reaction conditions is crucial. Temperature, pressure, reaction time, etc. are all key factors. If the temperature is too high or too low, it may cause the reaction to deviate from the expected path, or the reaction rate is too slow, or the product is impure. The pressure also needs to be precisely controlled, and there is a slight difference in the pool, or it may affect the reaction process and product yield. The reaction time should not be ignored. If it is too short, the reaction will not be fully functional. If it is too long, it may cause side reactions and consume raw materials and resources.
In addition, the production environment should not be underestimated. The production site must be kept clean to avoid impurities mixing into the reaction system and interfering with the reaction. Humidity and ventilation conditions should also be appropriate. If the humidity is too high, it may cause the raw materials to be damp and deteriorate. If the ventilation is poor, it may cause harmful gases to accumulate, endangering the safety of personnel and production equipment. From the order of adding raw materials, to the speed and method of stirring, there are established procedures. Changing the operation sequence at will or improper operation may cause unexpected situations and even lead to safety accidents.
The detection process is also indispensable. In the whole process of production, it is necessary to regularly test the reaction intermediates and final products to ensure that the quality of the products meets the standards. Only in this way can high-quality "1,1 '- {dithiodithiodiylbis [ (1-oxopropane-3,1-diyl) oxy]} bis (2,5-dioxy pyrrolidine-3-sulfonic acid) " be produced to meet the needs of the market.

1,1 '- {Disulfanediylbis [ (1-Oxopropane-3,1-Diyl) Oxy]} What are the safety risks when using Bis (2, 5-Dioxopyrrolidine-3-Sulfonic Acid)?

1%2C1%27-%7BDisulfanediylbis%5B%281-Oxopropane-3%2C1-Diyl%29Oxy%5D%7DBis%282%2C5-Dioxopyrrolidine-3-Sulfonic Acid% 29 is a complex organic compound. When using this compound, the safety risks need to be carefully considered.
First, from the perspective of chemical properties, sulfur and specific functional group structure may have certain chemical activity. During operation, if it comes into contact with the skin, it may cause irritation. Because of the sulfur structure, some people's skin is sensitive. After contact with it, they may develop redness, swelling and itching. Therefore, protective clothing and gloves are required during operation to avoid direct contact with the skin.
Secondly, its volatility or respiratory risk. If used in a poorly ventilated place, the volatile gas may be inhaled, irritating the respiratory tract, causing cough, asthma and other discomfort. Therefore, the place of use should ensure good ventilation, or be equipped with effective ventilation equipment to prevent the accumulation of harmful gases.
Furthermore, from an environmental point of view, if this compound accidentally enters the environment, it may have a potential impact on ecology due to its complex structure, or difficult to degrade. Caution should be used to prevent it from flowing into environmental media such as sewers and soil.
In addition, when mixed with other chemical substances, unpredictable chemical reactions may occur. Therefore, it is necessary to fully understand its chemical properties before use, and avoid mixing with incompatible substances to prevent dangerous products such as toxic gases, violent exothermic reactions, etc.
In terms of storage, it should be placed in a cool, dry place, away from fire sources and oxidants. Because its structure contains specific functional groups, high temperature, humid environment or cause its decomposition, contact with oxidants or cause violent reactions.
In short, when using 1%2C1%27-%7BDisulfanediylbis%5B%281-Oxopropane-3%2C1-Diyl%29Oxy%5D%7DBis%282%2C5-Dioxopyrrolidine-3-Sulfonic Acid% 29, it is necessary to fully understand its characteristics and follow safety operating procedures to ensure personnel safety and environmental safety.