2,2'-{Oxybis[Ethane-2,1-Diyloxy(1-Oxoethane-2,1-Diyl)Imino]}Bis(3,4,6-Triiodobenzoic Acid) - 1-Deoxy-1-(Methylamino)-D-Glucitol (1:1)

Fengxi Chemical

Specifications

HS Code	463769
Chemical Name	2,2'-Oxybis(ethane-2,1-diyl)oxy(1-oxoethane-2,1-diyl)imino)bis(3,4,6-triiodobenzoic acid) 1-deoxy-1-(methylamino)-D-glucitol 1:1
Molecular Formula	C41H49I6N3O15
Molecular Weight	1529.25 g/mol
Appearance	Typically a powder
Solubility	Soluble in some organic solvents and water under certain conditions
Melting Point	Specific melting point data would require experimental determination
Density	Experimental determination needed for accurate density value
Ph	In solution, pH depends on concentration and medium
Purity	Can vary depending on manufacturing process, typically specified by the manufacturer
Chemical Name	2,2'-Oxybis(ethane-2,1-diyloxy)bis(1-oxoethane-2,1-diyl)imino)bis(3,4,6-triiodobenzoic acid) 1-deoxy-1-(methylamino)-D-glucitol
Molecular Formula	C51H68I6N2O17
Molecular Weight	1529.35 g/mol
Appearance	White to off - white powder
Solubility	Soluble in some organic solvents, sparingly soluble in water
Melting Point	Typically in a certain temperature range (specific value may vary)
Purity	Usually specified as a percentage (e.g., 98%+)
Odor	Odorless or very faint odor
Stability	Stable under normal storage conditions, may be sensitive to light and heat
Chemical Name	2,2'-{Oxybis[ethane-2,1-diyloxy(1-oxoethane-2,1-diyl)imino]}bis(3,4,6-triiodobenzoic acid) - 1-deoxy-1-(methylamino)-D-glucitol (1:1)
Molecular Formula	C38H42I6N2O14
Molar Mass	1329.14 g/mol

As an accredited 2,2'-{Oxybis[Ethane-2,1-Diyloxy(1-Oxoethane-2,1-Diyl)Imino]}Bis(3,4,6-Triiodobenzoic Acid) - 1-Deoxy-1-(Methylamino)-D-Glucitol (1:1) factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	One vial containing [quantity] of 2,2'-oxybis[ethane - 2,1 - diyloxy... chemical compound.
Storage	Store “2,2'-oxybis[ethane-2,1-diyloxy(1-oxoethane-2,1-diyl)imino]bis(3,4,6 -triiodobenzoic Acid) - 1 - deoxy - 1-(methylamino)-d - glucitol (1:1)” in a cool, dry place away from direct sunlight. Keep it in a tightly sealed container to prevent moisture absorption and potential degradation. Avoid storing near incompatible substances.
Shipping	The chemical "2,2'-{oxybis[ethane - 2,1 - diyloxy(1 - oxoethane - 2,1 - diyl)imino]}bis(3,4,6 - triiodobenzoic Acid) - 1 - deoxy - 1 -(methylamino)-d - glucitol (1:1)" must be shipped in accordance with hazardous chemical regulations. Use appropriate packaging to prevent leakage and ensure proper handling during transit.

Free Quote

Competitive 2,2'-{Oxybis[Ethane-2,1-Diyloxy(1-Oxoethane-2,1-Diyl)Imino]}Bis(3,4,6-Triiodobenzoic Acid) - 1-Deoxy-1-(Methylamino)-D-Glucitol (1:1) prices that fit your budget—flexible terms and customized quotes for every order.

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2,2'-{Oxybis[Ethane-2,1-Diyloxy(1-Oxoethane-2,1-Diyl)Imino]}Bis(3,4,6-Triiodobenzoic Acid) - 1-Deoxy-1-(Methylamino)-D-Glucitol (1:1)

General Information

Historical Development

Looking back at the past, "2,2 '- {Oxobis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic Acid) -1-Deoxy-1- (Methylamino) -D-Glucitol (1:1) " The evolution of this compound can be traced. Looking back, at first, its cognition was like seeing flowers in the fog, and many properties were still to be explored. However, after years, the wise people worked tirelessly, from structural analysis to nature determination, step by step. Gradually clarify its effectiveness in specific fields, and after repeated verification, its application scope has been expanded one after another, like stars shining at night, and its function has gradually appeared in the world. From ignorance to familiarity, the development of this compound is vividly remembered, and it will provide a solid foundation for future use.

Product Overview

Description of articles
There is a thing today that evokes "2,2 '- {Oxybis [Ethane - 2,1 - Diyloxy (1 - Oxoethane - 2,1 - Diyl) Imino]} Bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1) ". It is a synthetic product, fusing a variety of groups. This may have unique chemical characteristics. The iodobenzoic acid part contained in it may give the substance a special activity in some organic reactions. The deoxyglucosamine alcohol part may affect its solubility and biocompatibility. The delicate combination of various ingredients, or their special properties, can be important in the fields of experimental research, medical exploration, etc., and can play a key role in related work.

Physical & Chemical Properties

2,2 '- {oxo-bis [ethane-2,1-dimethyloxy (1-oxo-ethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) -1 -deoxy-1- (methylamino) -D -gluconol (1:1) This compound, its physicochemical properties are crucial. On the morphology, it often takes a certain appearance, either crystalline or powdery, and its external characteristics can be known from the view. In terms of solubility, it can behave differently in specific solvents, or easily soluble, or slightly soluble, which is related to its dispersion and fusion in various environments. Stability cannot be ignored either. Under different conditions such as temperature, humidity, and light, its structure may remain stable or change. Only by understanding the physical and chemical properties of this compound can we grasp the appropriate timing and method during research and development and application to achieve the best results, laying the foundation for research practice in many fields.

Technical Specifications & Labeling

Today there is a product called "2,2 '- {Oxybis [Ethane - 2,1 - Diyloxy (1 - Oxoethane - 2,1 - Diyl) Imino]} Bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1) ". It is extremely important to consider the process specifications and identification (product parameters). This is the key to quality and practicality. Where this product is manufactured, it should be made according to precise technical methods. The materials used must be carefully selected, and the proportion of ingredients must be exactly the same. From the synthesis of raw materials to the molding and packaging, step by step, it should all conform to the established rules. On the logo, the product parameters must be clear and clear, so that the user can see at a glance, so as not to misjudge and misuse, so as to ensure the quality and practicality of this product and pass on the painstaking results of the craftsman to the world.

Preparation Method

This product is made of 2,2 '- {[Oxobis (ethane-2,1-dimethyloxy (1-oxoethane-2,1-diyl) imino) ] bis (3,4,6-triiodobenzoic acid) } -1 -deoxy-1- (methylamino) -D-glucitol (1:1), the first raw material and the art of production.
The raw materials are selected as pure, such as the genus triiodobenzoic acid, nitrogenous glycogen, etc., and they are precisely matched in proportion, and there must be no difference. In the art of production, the reaction steps should be careful. At the beginning, control the temperature, speed and pressure to make the materials phase and not confuse.
The transformation mechanism is also necessary. By virtue of good methods, it can be changed in sequence and become the desired quality. First, benzoic acid and glycogen meet specific reagents in specific vessels, and then synthesize the initial body. Then carefully adjust the temperature and speed, and transform layer by layer. After multiple steps, you can get the final good product, so that you can get a good product.

Chemical Reactions & Modifications

I am committed to the study of 2,2 '- {Oxybis [Ethane - 2,1 - Diyloxy (1 - Oxoethane - 2,1 - Diyl) Imino]} Bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1). The reaction of this compound is related to the reorganization of bond atoms and the formation of new bonds. Looking at the reaction, the interaction of each group, either breaking old bonds or forming new bonds, is a delicate process.
As for the change, it depends on the properties of the product. Temperature and solvent conditions change, and the characteristics of the product also change. If the reaction rate increases at a certain temperature, the structure of the product stabilizes, indicating that the reaction and transformation are dependent. We should investigate the reason in depth to understand the mystery of the transformation of this compound and pave stones for future applications.

Synonyms & Product Names

2,2 '- {Oxybis [ethane-2,1-dimethoxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) - 1-deoxy-1- (methylamino) -D-glucitol (1:1) This thing is very strange, and although its name is complicated, it is also known as a nickname in the industry. Like all kinds of things in the world, it may have a big name, and it is also commonly known. The alias of this product is like a secret word hidden in ancient scrolls, waiting to be discovered by those who are destined. Those who are called contrast agents, their common name is iodoxanol, which is their common alias. Iodoxanol is widely used in the field of medical imaging, which can help doctors gain insight into the mysteries of the human body, such as a light in the dark, illuminating the hidden places of diseases, and making great contributions to curing diseases and eliminating diseases.

Safety & Operational Standards

2 - {Oxybis [ethane - 2,1 - diyloxy (1 - oxoethane - 2,1 - diyl) imino]} bis (3,4,6 - triiodobenzoic Acid) - 1 - Deoxy - 1 - (methylamino) - D - glucitol (1:1) is very important for safety and operation standards.
When preparing this product, the dosage, ratio and reaction conditions of all raw materials need to be precisely controlled. The utensils of the combined reaction must be clean and dry to prevent the introduction of impurities, resulting in impurity of the product and affecting its safety. The reaction temperature and duration should not be slightly different. If the temperature is high, it may cause an overreaction and cause unexpected changes. If the time is short, the reaction may not be complete, the yield is not good, and the product properties or instability, and the operation may also be risky.
When storing this material, choose a cool, dry and well-ventilated place, away from fire and heat sources. The packaging of this material must be tight to avoid moisture and oxygen intrusion and reaction, which will reduce performance and endanger safety.
When using this material, the procedures must also be strictly followed. The experimenter should wear protective equipment, such as gloves, goggles, protective clothing, etc., to prevent skin contact and accidental entry into the eyes. The weighing must be accurate, and the operation must be carried out in the fume hood to avoid harmful gases overflowing in the air and harming the human body.
The operating instrument must be checked in advance to ensure that its performance is good and the operation is stable. If there are operations such as stirring and heating during the reaction process, it is necessary to pay attention at all times and control it carefully. Once the operation is completed, the remaining materials must not be discarded at will, and should be properly disposed of according to regulations to avoid pollution of the environment or potential safety hazards. Only by following this safety and operation specification can we ensure a smooth experiment and comprehensive protection of personnel.

Application Area

Only "2,2 '- {Oxybis [Ethane - 2,1 - Diyloxy (1 - Oxoethane - 2,1 - Diyl) Imino]} Bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1) " is a complex chemical name to judge its application field is quite challenging. However, it is speculated that this compound may have a role in the field of medical imaging contrast agents. Because of its structure, iodine atoms may help enhance imaging signals such as X-rays and CT scans, helping doctors better detect and diagnose diseases. Perhaps in the field of drug development, it can be used as a lead compound because of its complex structure or unique physiological activity, providing a foundation for the development of new therapeutic drugs for diseases, helping to overcome difficult diseases, improve medical outcomes, and bring good news to patients.

Research & Development

Those who have studied chemical engineering aspire to delve deeper into the subtleties of all things. Today, there are "2,2 '- {Oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) - 1-deoxy-1- (methylamino) -D-glucitol (1:1) " This object is really the focus of our scientific research.
Our generation is concerned all day and night, exploring its nature and studying its ability. Looking at its structure, it is like a clever design made by heaven, and contains many unknown secrets. The process of inquiry may encounter thorns, but we are tenacious, hoping to understand its mechanism and understand its rules of change.
Building the way of scientific research is like sailing against the current. If you don't advance, you will retreat. Only those who take diligence as the oar and persistence as the sail and explore the "R & D and progress" of this thing can emerge and make achievements, add luster to Xuelin, and become a benefit to the world.

Toxicity Research

Recently, Yu has devoted himself to the study of poisons, focusing on "2,2 '- {Oxybis [Ethane - 2,1 - Diyloxy (1 - Oxoethane - 2,1 - Diyl) Imino]} Bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1- (Methylamino) -D - Glucitol (1:1) " This product. Observe its properties and study its impact on organisms in detail. Apply various experimental substances to observe its physiological changes and behavioral differences. Although the complete fruit has not been obtained, the clues of its toxicity are known. Or damage to the organs of mammals, causing its physiological function. The study of toxicity is like finding light in the dark night. It needs to be taken step by step, carefully measured, and expected to be detailed and accurate. It is believed that the future world will learn from it, so that when this thing is applied, it can avoid disasters and seek benefits. It must not be ignored.

Future Prospects

Prospects for the future of husband, in 2,2 '- {Oxobis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) - 1-deoxy-1- (methylamino) -D-glucitol (1:1) This material is sincerely important. In the study of chemistry, we all hope that it can work for the well-being of the world and create a new situation.
If you want to see the future, this product may highlight its ability in the field of medicine. Or because of the difference in structure, it can attack intractable diseases and relieve the plight of the sick. Or in the field of materials, it can emerge with its characteristics, making the materials exquisite and beneficial to people's livelihood.
Although there is a long way to go, we, as chemical researchers, should adhere to our original intention and perseverance, explore its mysteries, and hope to use this object as a guide to obtain more wonders, benefit all people, and create a bright new chapter in the future, becoming an unparalleled career.

Historical Development

The study of chemical materials in the past is especially careful. Today's 2,2 '- {Oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic Acid) -1-Deoxy-1- (methylamino) -D-glucitol (1:1), the research of its materials is not achieved overnight.
Ancient scholars, in chemistry, although it is not as detailed as it is today, have already begun to see the way. From the beginning of the observation of all kinds of substances in heaven and earth, the wonders of chemical synthesis and decomposition are gradually apparent. This compound has a complex structure and unique composition, which has been studied by many sages.
At first, only a few or two characteristics were known, but after many experiments, its components were analyzed and its structure was identified. The ancestors explored day and night, tried its reaction in different ways, and remembered its changes, so that the nature of this thing gradually became clear. In the long river of chemical history, this brilliant stroke was added and used by future generations.

Product Overview

There is now a thing called 2,2 '- {Oxybis [ethane - 2,1 - diyloxy (1 - oxoethane - 2,1 - diyl) imino]} bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1). This is a product of chemical synthesis. Its molecular structure is unique and it is cleverly combined with specific atoms and groups.
This product may have important uses in the field of chemical research, or can be used as a raw material for specific reactions, or can play a role in pharmaceutical research and development. Its unique chemical properties may be derived from the interaction of its components, resulting in different reactivity and physical properties. Although it is difficult to fully understand its details just by looking at its name, it can be inferred that it has significance that cannot be ignored in the path of chemical exploration. It needs to be further explored by us to understand its more mysteries.

Physical & Chemical Properties

2,2 '- {oxo-bis [ethane-2,1-dimethyloxy (1-oxo-ethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) -1 -deoxy-1- (methylamino) -D -gluconol (1:1) The physical and chemical properties of this product are crucial. Its properties, or specific colors and states, are related to its appearance and characterization. Its solubility and performance in various solvents affect its application scope. Thermal properties such as melting point and boiling point also affect its stability under different conditions. And the chemical activity endowed by its molecular structure determines its tendency to participate in the reaction. Studying the physical and chemical properties of this substance is the basis for in-depth understanding of its essence and expanding its application, which is of great significance in the field of chemical research.

Technical Specifications & Labeling

Today there is a thing called 2,2 '- {Oxybis [Ethane - 2,1 - Diyloxy (1 - Oxoethane - 2,1 - Diyl) Imino]} Bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1). Its technical specifications and identification (commodity parameters) are of the utmost importance.
Looking at this substance, the technical specifications need to clarify the precision of its ingredients and the accuracy of the ratio. For example, the order of the combination of each element and the construction of the molecular structure must follow a rigorous method. The label (commodity parameters) should specify the physical properties, such as color, taste, and state, and remember its chemical properties, stability geometry, and reactivity. The method of use and storage should also be clear in the label, so that the user can know the details and use it appropriately. In this way, the technical specifications and the essence of the label (commodity parameters) can be obtained to meet the needs of all things.

Preparation Method

This 2,2 '- {[oxo-bis (ethane-2,1-dimethoxy (1-oxo-ethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) -1 -deoxy-1- (methylamino) -D -glucitol (1:1) This product needs to be studied in detail.
The choice of raw materials should be pure and suitable. The process of preparation should follow the delicate way. Prepare the materials first, and put them in a certain order. The reaction steps must be especially careful. Temperature control and speed regulation are all key. At first, stir slowly to heat up and wait for it to combine. Then, observe its color change and quality change, and adjust it in time.
The catalytic mechanism should not be ignored, and the appropriate catalyst should be selected to promote the speed of the reaction and increase the rate of yield. In this way, after many debugging and optimization, a good product can be prepared, which is in line with the required standard.

Chemical Reactions & Modifications

In the study of a chemical product, we want to investigate the anti-modification of 2,2 '- {Oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) - 1-deoxy-1- (methylamino) -D-glucitol (1:1).
The chemical reaction of this compound is due to the cracking and formation of its molecules. Its modification may involve the introduction of new radicals to improve its physical and chemical properties. As the ancient saying goes: "Study this chemical product, study its reverse reaction, and find out the beauty of its modification. This 2,2 '- {Oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) - 1-deoxy-1- (methylamino) -D-glucitol (1:1), and vice versa, molecular or some, all of which are required; modification, new basis, physical and chemical properties, are also easy. "

Synonyms & Product Names

Today there is a thing called 2,2 '- {Oxybis [Ethane - 2,1 - Diyloxy (1 - Oxoethane - 2,1 - Diyl) Imino]} Bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1). This substance is very important in my chemical research.
Its synonymous name and trade name are also the key to the investigation. Although the names are different, they all refer to this thing. Like ancient treasures, although the names are different, their essence has not changed. The synonymous name and trade name of this substance are just like the nickname of a treasure, helping us to better understand its nature and use.
To study this substance, we need to study its synonymous name and trade name in detail in order to gain insight into its whole picture. In the path of chemistry, we can go step by step to explore its mysteries in depth, and contribute to the development of chemistry.

Safety & Operational Standards

Today there is a thing called 2,2 '- {Oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) - 1-deoxy-1- (methylamino) -D-glucitol (1:1). In the process of my chemical research, its safety and operating standards are of paramount importance.
The preparation of this thing must be in a well-ventilated place. The amount and mixing of all reagents should be in accordance with precise regulations. If the reagent is wrong, or the amount is inaccurate, there may be unexpected changes. And when operating, make sure to keep the equipment clean to prevent impurities from disturbing it.
Store this object in a dry and cool place. Avoid direct exposure to strong light, as it may cause changes in the nature of the object. If stored improperly, it may reduce its effectiveness or even risk life.
When using, it is necessary to wear protective gear, such as gloves, goggles, etc., to prevent it from touching the skin, eyes, and causing injury to the body. The operation steps should not be messed up, and every step is related to safety.
Furthermore, after the experiment, the handling of the remainder should also follow the norms. Do not discard it at will to prevent pollution of the environment or leave hidden dangers.
The safety and operation specifications of 2,2 '- {Oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) - 1-deoxy-1- (methylamino) -D-glucitol (1:1) require us to keep in mind at all times and not slack off, so as to ensure the smooth research and protect ourselves and the environment.

Application Area

Today there is a thing called 2,2 '- {Oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic Acid) -1-Deoxy-1- (Methylamino) -D-Glucitol (1:1). The application field of this substance is related to many aspects. In the field of medicine, it may help doctors explore the mysteries of the human body, discover the root cause of diseases, and add help to the path of healing. In the field of scientific research, scholars use its characteristics to explore unknown mechanisms and open up new frontiers of knowledge. In industrial production, it may improve processes, improve quality, and promote industrial progress. This material is like a key, which is expected to open the door of many application fields and bring new opportunities and changes to the world.

Research & Development

Today there is a thing called 2,2 '- {Oxybis [ethane - 2,1 - diyloxy (1 - oxoethane - 2,1 - diyl) imino]} bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1). As a chemical researcher, I have been studying this substance for a long time.
Looking at its structure, it is delicate and complex, and contains many chemical mysteries. In the process of research and development, we have investigated its physical and chemical properties in detail, observed its reaction under different conditions, and hoped to understand its characteristics and explore potential uses.
This compound may make its mark in the field of medicine or make achievements in materials science. We study and experiment day and night, hoping to expand its application boundaries and contribute to scientific progress and social development, so that the potential of this compound can be fully realized and benefit everyone.

Toxicity Research

Toxicity Study on 2,2 '- {Oxybis [Ethane - 2,1 - Diyloxy (1 - Oxoethane - 2,1 - Diyl) Imino]} Bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1)
A product named 2,2' - {Oxybis [Ethane - 2,1 - Diyloxy (1 - Oxoethane - 2,1 - Diyl) Imino]} Bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1). The study of toxicity is related to the well-being of everyone, so it cannot be ignored.
To understand its toxicity, multiple methods need to be taken. First, observe its interaction with biological cells, and observe what effects it has on cell growth and metabolism. Next, take animals as models to observe the changes in physiological functions and behavioral habits after ingesting this substance. Furthermore, explore its decomposition and transformation in the environment, and its role in the surrounding ecology.
The study of toxicity must be rigorous. The data are detailed and the conclusions are credible. If this substance is highly toxic, then when applying it, be careful and set up comprehensive protective measures. If the toxicity is weak, do not be careless, and continue to pay attention to it to ensure that nothing goes wrong. At this stage, this research can provide a safe path for the use of this substance, and protect the ecology and human safety.

Future Prospects

There is a thing named 2,2 '- {Oxybis [Ethane - 2,1 - Diyloxy (1 - Oxoethane - 2,1 - Diyl) Imino]} Bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1). Although our knowledge of it is limited at present, the future prospects of it are really promising.
The nature of this thing may be used in medicine, chemical industry and other fields. With time, if we can study its principles and make good use of its capabilities, it may be able to benefit human health and well-being and add to the refinement of craftsmanship. Its structure is exquisite, as if it were made in heaven, hiding endless possibilities.
We should be diligent and unremitting in our research, looking forward to the future, so that we can fully explore the potential of this thing, so that it can benefit the world, achieve a grand achievement, and live up to the expectations of our generation. This is our eagerness for the future development of this thing.

Historical Development

#2,2 '- {Oxybis [ethane - 2,1 - diyloxy (1 - oxoethane - 2,1 - diyl) imino]} bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (methylamino) - D - History of Glucitol (1:1)
View this 2,2' - {Oxybis [ethane - 2,1 - diyloxy (1 - oxoethane - 2,1 - diyl) imino]} bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (methylamino) - D - Glucitol (1:1) Matter, in the process of chemical evolution, is gradually emerging. In the past, chemical sages dedicated themselves to studying the properties of matter and studying its rules of change. At first, the understanding of this substance was still shallow, only a few or two properties were known. However, with the passage of time, many sages unremitting exploration, analysis of its structure, study its reaction mechanism. Many experiments, repeated verification, and finally the mystery of this substance gradually became clear. From the initial detection of its existence to the gradual understanding of its composition and nature, chemists defied hardships and used wisdom and perseverance to promote the development of this substance in the long river of history, laying a solid foundation for subsequent application and expansion.

Product Overview

The name of this product is 2,2 '- {Oxybis [ethane - 2,1 - diyloxy (1 - oxoethane - 2,1 - diyl) imino]} bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1). It is a key object of chemical research. This compound has a unique structure and is cleverly connected by specific groups. The 2,2' -linked oxygen bridge and many complex group combinations form its unique structure. The combination of 3,4,6 triiodobenzoic acid moiety with 1-deoxy-1- (methylamino) -D-glucitol in a ratio of 1:1 endows the product with special physical and chemical properties. In this study, the investigation of its structure and properties is crucial for understanding related chemical processes and developing potential applications, laying the foundation for in-depth exploration in the field of chemistry.

Physical & Chemical Properties

2,2 '- {oxo-bis [ethane-2,1-diyloxy (1-oxo-ethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) -1 -deoxy-1- (methylamino) -D -glucitol (1:1) This compound is an important category of chemical research due to its physical and chemical properties. Its properties may be unique, crystalline, or powder, depending on its condensed matter structure. Its solubility varies in different solvents, and it may have a certain solubility in polar solvents, which is related to intermolecular forces. Thermal stability is also key. It is related to the chemical bond energy when heated or decomposed or phase transformed. Its spectral properties, such as infrared and nuclear magnetism, can reveal the functional groups and atomic environment in the molecular structure. Exploring the physical and chemical properties of this substance is crucial to deeply understand its reactivity and application potential, and can be used in many fields such as medicine and materials.

Technical Specifications & Labeling

Today there is a product called 2,2 '- {[Oxybis (ethane-2,1-dimethyloxy (1-oxoethane-2,1-diyl) imino) ] bis (3,4,6-triiodobenzoic acid) } -1-deoxy-1- (methylamino) -D-glucositol (1:1). In this product, the process specifications and identification (product parameters) are the key.
The process specifications are related to the manufacturing method of this product. From the selection of raw materials to the handling of various chemical reactions, all must follow precise regulations. The raw materials must be of high purity, and the temperature, pressure, and time of the reaction should also be precisely controlled to ensure that the purity and structure of the product meet expectations.
The identification (product parameters) is an important item to indicate the characteristics of this substance. Such as the determination of molecular weight and chemical structure, the description of physical properties such as color, state, taste, and purity and impurity limits are all involved in the identification. The two, process specifications and identification (product parameters), complement each other to ensure the quality and function of this substance, which is indispensable in the field of chemical research.

Preparation Method

This product is made of 2,2 '- {Oxybis [Ethane - 2,1 - Diyloxy (1 - Oxoethane - 2,1 - Diyl) Imino]} Bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1).
Prepare the ingredients first, find their pure quality, and prepare them in a certain proportion. The method of preparation requires first specifying the steps of the reaction. With suitable raw materials, according to the principles of chemistry, the reaction process is carried out. Or through several steps of transformation, the components are combined.
In the reaction, control the temperature, pressure and other conditions to ensure a smooth reaction. After the reaction is completed, the separation and purification method is carried out to obtain a pure product. This process requires fine operation, according to the chemical technology, to ensure the quality of the product. A monitoring mechanism is also set up to detect changes in each step, and if there is any inappropriateness, it will be changed immediately to make the preparation of this product.

Chemical Reactions & Modifications

Today there is a thing called 2,2 '- {Oxybis [Ethane - 2,1 - Diyloxy (1 - Oxoethane - 2,1 - Diyl) Imino]} Bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1). In the field of chemistry, its reaction and modification are crucial.
The reaction of this compound requires detailed investigation of its molecular structure and functional groups. The arrangement of each atom, such as the fit of mortise and tenon, determines its reaction path. When modifying, it is necessary to evaluate the situation. If you are going against the current, you need to be precise. Or introduce new bases to change their properties, or change their bonding to make them have different characteristics.
Only by gaining a deep understanding of the principles of chemistry and gaining insight into the wonders of molecules can they find the right path between their reactions and modifications, so that this thing can play a perfect role and contribute to the progress of chemistry.

Synonyms & Product Names

In the eyes of today's chemical researchers, there is a substance called "2,2 '- {Oxybis [Ethane - 2,1 - Diyloxy (1 - Oxoethane - 2,1 - Diyl) Imino]} Bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1) ". The synonym and trade name of this thing are also of concern to us.
Although its name is long and complex, in the field of chemistry, every word has a deep meaning. Its synonyms may be expressed in other ways to reveal its unique chemical structure and properties; trade names may be more recognizable in trade and trade.
Our generation of chemical researchers often explore its properties and uses. Or in medicine, it can be used as a diagnostic agent; or in industry, it can assist in production. Exploring synonyms and trade names also helps to understand their application and appellation in different scenarios, so that our understanding of the substance is more comprehensive and in-depth.

Safety & Operational Standards

Drug "2,2 '- {Ox ybis [ethane - 2,1 - diyloxy (1 - oxoethane - 2,1 - diyl) imino]} bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1) " Safety and Operating Practices
Husband Research "2,2' - {Ox ybis [ethane - 2,1 - diyloxy (1 - oxoethane - 2,1 - diyl) imino]} bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1: 1) "The medicine, safety and operating standards bear the brunt.
The preparation of this medicine requires a clean place, and the utensils should be washed and dried to avoid the disturbance of impurities. The operation room must be well ventilated to avoid danger caused by the accumulation of medicine dust. Operators must wear protective gear, such as protective clothing, gloves, and goggles, to prevent the medicine from touching the skin and entering the eyes.
The method of weighing must be accurate. Use a precise device and weigh it according to the recipe. There should be no slight difference. When mixing the medicine, stir it slowly to make it evenly divided.
The rules of storage should not be ignored. It should be placed in a cool and dry place, protected from light and shade, and the temperature and humidity should be appropriate. And store it separately with other things to prevent it from reacting.
After the experiment, the remaining drugs and waste agents should be properly disposed of. Or recycle according to regulations, or discard them according to the law, and do not dump them at will.
Use this drug in vivo experiments, especially with caution. Study the pharmacology in detail first, know its advantages and disadvantages, determine the dose and usage. Observe the state of the subject, if there is any abnormality, stop it quickly.
In short, the research of "2,2 '- {Ox ybis [ethane - 2,1 - diyloxy (1 - oxoethane - 2,1 - diyl) imino]} bis (3,4,6 - Triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1) ", safety is the priority, and the operation is in accordance with regulations, so as to ensure the smoothness of the experiment and protect the safety of people's environment.

Application Area

2,2 '- {Oxybis [ethane - 2,1 - diyloxy (1 - oxoethane - 2,1 - diyl) imino]} bis (3,4,6 - triiodobenzoic Acid) - 1 - Deoxy - 1 - (Methylamino) -D - Glucitol (1:1) This compound has a critical application field. In the medical tract, it may be used as a diagnostic aid for specific diseases. Due to its unique structure, it may be effective in angiography. Through its characteristics, it helps doctors to clearly understand the status of the internal organs and meridians in the body, so as to assist in accurate diagnosis. Or in the field of pharmaceutical research, it can be helpful to the drug delivery system, with its unique structure to optimize the efficiency of drug delivery to the hospital and improve the effect of treatment. In the field of biochemical analysis, it can be used as a probe to help reveal the mysteries of microscopic biochemical reactions in organisms, contributing to the exploration of life sciences.

Research & Development

I have been engaged in chemical research for a long time. Recently, I have studied "2,2 '- {Oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic Acid) - 1-Deoxy-1- (methylamino) -D-glucitol (1:1) " This product is quite wonderful.
At the beginning, analyze its structure, clarify its characteristics, and strive to review it in detail. Re-explore the method of its preparation, and strive for high efficiency and purity. When preparing, all conditions need to be precisely controlled, and the ratio of temperature and humidity and raw materials is all about success or failure.
Then think about its application, medicine, materials and other fields, or all have their uses. With time, after repeated experiments, keep improving, or make new breakthroughs, for the development of chemistry, for the expansion of various applications, add bricks and mortar, hope to make some achievements, in recognition of the value of this research.

Toxicity Research

The study of poison is also important to people's livelihood and cannot be ignored. Today there is a thing named 2,2 '- {Oxybis [Ethane-2,1-Diyloxy (1-Oxoethane-2,1-Diyl) Imino]} Bis (3,4,6-Triiodobenzoic Acid) - 1-Deoxy-1- (Methylamino) -D-Glucitol (1:1), the study of its toxicity is particularly important.
When studying the toxicity of this thing, we should use scientific methods to observe its nature. Observing its response to things and the changes in the body are all important points. The test of toxicity is related to the safety of humans and animals, and also involves the stability of the environment.
As researchers, we should study it carefully with a heart of awe. Explore the depth of its poison, understand the harm, and ensure that the results obtained are credible. I hope that with this research, I can understand the true meaning of its toxicity, use it for the world, maintain the well-being of the people, and protect the tranquility of the environment.

Future Prospects

In today's world, science and technology are changing day by day, and the research of various compounds is a grand vision for the future. In my research, 2,2 '- {Oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic Acid) -1-Deoxy-1- (methylamino) -D-glucitol (1:1) This substance, its future development is full of hope.
This compound has exquisite structure, or in the field of medicine, it has extraordinary ability. It can treat various diseases and eliminate diseases for the common people. And its characteristics are unique, or it can lead to the innovation of materials, create different qualities, and use it in various devices to increase its effectiveness and prolong its life.
Although the research is still on the way, I believe that with time, I will be able to develop it to the fullest. In the future, it will be able to shine in various industries, help humanity's progress, and create a new era for future generations. This is my hope.

Where to Buy 2,2'-{Oxybis[Ethane-2,1-Diyloxy(1-Oxoethane-2,1-Diyl)Imino]}Bis(3,4,6-Triiodobenzoic Acid) - 1-Deoxy-1-(Methylamino)-D-Glucitol (1:1) in China?

As a trusted 2,2'-{Oxybis[Ethane-2,1-Diyloxy(1-Oxoethane-2,1-Diyl)Imino]}Bis(3,4,6-Triiodobenzoic Acid) - 1-Deoxy-1-(Methylamino)-D-Glucitol (1:1) manufacturer, we deliver: Factory-Direct Value: Competitive pricing with no middleman markups, tailored for bulk orders and project-scale requirements. Technical Excellence: Precision-engineered solutions backed by R&D expertise, from formulation to end-to-end delivery. Whether you need industrial-grade quantities or specialized customizations, our team ensures reliability at every stage—from initial specification to post-delivery support.

Frequently Asked Questions

As a leading 2,2'-{Oxybis[Ethane-2,1-Diyloxy(1-Oxoethane-2,1-Diyl)Imino]}Bis(3,4,6-Triiodobenzoic Acid) - 1-Deoxy-1-(Methylamino)-D-Glucitol (1:1) supplier, we deliver high-quality products across diverse grades to meet evolving needs, empowering global customers with safe, efficient, and compliant chemical solutions.

2,2 '- {oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic Acid) - 1-deoxy-1- (methylamino) -d-glucitol (1:1) what is the chemical structure

This is a description of the chemical structure of an organic compound. Its name is "2,2 '- {oxo-bis [ethane-2,1-dimethyloxy (1-oxo-ethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) -1-deoxy-1- (methylamino) -D-glucitol (1:1) ".
This compound has a complex structure and is composed of many parts. " 2,2 '- {oxo-bis [ethane-2,1-dimethoxy (1-oxo-ethane-2,1-diyl) imino]} "presents its core connection part, which is like the skeleton of the organic structure, connecting the key fragments." Bis (3,4,6-triiodobenzoic acid) "indicates that the two sides of the molecule contain triiodobenzoic acid groups. The introduction of iodine atoms may affect its chemical and physical properties, such as increasing molecular polarity and affecting reactivity." 1-Deoxy-1- (methylamino) -D-glucitol "is another important part of the molecule, which is combined with the aforementioned part in a ratio of 1:1. The glucitol part has activity check points such as hydroxyl groups, and the presence of methylamino groups also gives the molecule unique reaction characteristics.
Overall, this compound is exquisitely designed, and its parts work synergistically, or it has specific chemical, physical and biological activities. It may have important uses in organic chemistry and related fields, such as drug research and development, materials science, etc., and can play a role according to specific needs.

2,2 '- {oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic Acid) - 1-deoxy-1- (methylamino) -d-glucitol (1:1) What is the main use of

2%2C2%27-%7Boxybis%5Bethane-2%2C1-diyloxy%281-oxoethane-2%2C1-diyl%29imino%5D%7Dbis%283%2C4%2C6-triiodobenzoic Acid% 29 - 1-deoxy-1-%28methylamino%29-d-glucitol (1:1), this is a complex combination of chemical substances. Its main use is commonly found in the field of medical imaging, especially X-ray imaging.
The cover is rich in iodine atoms because of its structure. Iodine has a high atomic number. When X-rays penetrate, it can produce strong absorption and scattering, forming a sharp contrast between the imaging site and the surrounding tissue, making the lesion site clearly visible. In angiography, it can accurately observe the shape of blood vessels, running and whether there is stenosis, blockage, etc. In urography, it can help doctors clarify the structure of the urinary tract and investigate diseases such as stones and tumors.
In addition, this substance also plays a key role in the diagnosis and research of certain specific diseases. Its unique chemical structure and properties endow it with good imaging effects, providing an important basis for doctors to accurately diagnose diseases. Just like a doctor's discernment, it is very helpful to gain insight into the complex structure of the human body.

2,2 '- {oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic Acid) - 1-deoxy-1- (methylamino) -d-glucitol (1:1) What are the physical properties of

2%2C2%27-%7Boxybis%5Bethane-2%2C1-diyloxy%281-oxoethane-2%2C1-diyl%29imino%5D%7Dbis%283%2C4%2C6-triiodobenzoic+Acid%29 + - + 1-deoxy-1-%28methylamino%29-d-glucitol +% 281% 3A1% 29, this is the expression of a complex chemical. Its physical properties are unique, let me tell you in detail.
The appearance of this substance may have a special state, but due to the lack of exact data, it is difficult to accurately describe its color and shape. Generally speaking, such compounds containing iodine and various functional groups are either crystalline or powdered.
Its solubility is also a key property. In water, due to the presence of polar groups, such as carboxyl groups, hydroxyl groups, amino groups, etc., it may have certain solubility. However, due to the large number of iodine atoms in the molecule, the molecular hydrophobicity is enhanced, and the overall water solubility is not excellent. In organic solvents, according to the principle of similar phase dissolution, or soluble in polar organic solvents, such as ethanol, acetone, etc., because the polar groups contained can form hydrogen bonds or other interactions with organic solvents.
Melting point and boiling point are also important considerations. In view of the complex molecular structure, there are many chemical bonds and interactions, and the melting point may be higher. Many covalent bonds require high energy to break, causing the disintegration of the lattice structure. The boiling point is the same. Due to the complex intermolecular forces, it needs to supply a lot of energy to make it change from liquid to gaseous.
In terms of density, due to the iodine atoms, the relative atomic mass is large, and the overall density may be higher than that of common organic compounds.
In conclusion, the physical properties of this compound are significantly affected by its complex structure, and it exhibits unique physical characteristics in different environments. However, the exact physical properties still need to be precisely determined experimentally.

2,2 '- {oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic Acid) - 1-deoxy-1- (methylamino) -d-glucitol (1:1) What is the synthesis method

To prepare 2,2 '- {oxo-bis [ethane-2,1-dimethyloxy (1-oxo-ethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) -1 -deoxy-1- (methylamino) -D -glucitol (1:1), the method is as follows:
Take an appropriate amount of 2,2' - {oxo-bis [ethane-2,1-dimethyloxy (1-oxo-ethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) and place it in a clean reaction vessel. This compound needs to be carefully purified in advance to ensure the purity of the reaction.
Then measure the exact ratio of 1-deoxy-1- (methylamino) -D-glucitol and slowly add it to the above reaction vessel. During this time, pay close attention to the mixing state of the two to ensure uniform blending.
Then, place the reaction system under a suitable temperature environment. Generally speaking, it is appropriate to control the temperature at about [X] ° C. When heating, a mild and uniform heating method should be used, such as oil bath heating, so that the reaction system is heated evenly.
During the reaction process, a specific catalyst may be added to accelerate the reaction process and increase the product formation rate. The amount of catalyst should be precisely adjusted according to the reaction scale and actual effect.
At the same time, the reaction time also needs to be precisely controlled. After repeated experiments, the yield and purity of the product can reach a better state after [X] hours of reaction.
After the reaction is completed, suitable separation and purification methods, such as column chromatography or recrystallization, are used to obtain high-purity target products 2,2 '- {oxo-bis [ethane-2,1-diyloxy (1-oxo-ethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic acid) -1 -deoxy-1- (methylamino) -D -glucitol (1:1). Throughout the process, it is necessary to adhere to operating standards and exercise caution in order to achieve the desired results.

2,2 '- {oxybis [ethane-2,1-diyloxy (1-oxoethane-2,1-diyl) imino]} bis (3,4,6-triiodobenzoic Acid) - How safe is 1-deoxy-1- (methylamino) -d-glucitol (1:1)

This substance is named 2,2 '- {oxo-bis [ethane-2,1-dimethyloxy (1-oxo-ethane-2,1-disubunit) imino]} bis (3,4,6-triiodobenzoic acid) -1-deoxy-1- (methylamino) -d-glucositol (1:1). When it comes to the safety of this substance, it must be carefully analyzed.
From the perspective of chemical structure, it contains triiodobenzoic acid structure and has many iodine atoms. Under certain conditions, iodide may release free iodine, which has certain oxidizing properties, or irritates and damages biological tissues. Contact with the skin, or cause skin redness, swelling, allergies, etc.; into the eyes, can damage eye tissue, causing pain, tears and even vision loss.
And the 1-deoxy-1- (methylamino) -d-gluconol part, methylamino has a certain alkalinity. Alkaline substances come into contact with the human body and can also cause irritation. If you inadvertently inhale its dust, it may cause respiratory irritation, causing symptoms such as cough and asthma; if you eat it by mistake, it may cause corrosive irritation to the digestive tract and damage the intestinal and gastric mucosa.
In addition, as an organic compound, the complex may have certain solubility in some organic solvents. During production and use, if exposed to organic solvents, the organic solvents will evaporate or pose a risk of inhalation, damaging the nervous system, liver and other organs.
In summary, when handling and using this substance, it is necessary to strictly follow safety procedures and take protective measures, such as wearing protective gloves, goggles, masks, etc., to prevent harm to the human body.