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Home Products 2-Deoxy-2,2-Difluoro-D-Erythro-Pentofuranos-1-Ulose-3,5-Dibenzoate-1-Methanesulfonate

Sulfonic Acid Series Sulfamic Acid Series Guanidine Series

Sulfonic Acid Series

Sulfamic Acid Series

Guanidine Series

2-Deoxy-2,2-Difluoro-D-Erythro-Pentofuranos-1-Ulose-3,5-Dibenzoate-1-Methanesulfonate

Specifications

HS Code	562835
Chemical Formula	C20H18F2O9S
Molecular Weight	474.415 g/mol
Physical State	Solid (predicted)
Boiling Point	614.2±55.0 °C at 760 mmHg (predicted)
Melting Point	N/A
Density	1.45±0.1 g/cm3 (predicted)
Flash Point	325.2±31.5 °C (predicted)
Logp	3.36 (predicted)
Solubility	Soluble in organic solvents like DMSO (predicted)
Appearance	White to off - white powder (predicted)

As an accredited 2-Deoxy-2,2-Difluoro-D-Erythro-Pentofuranos-1-Ulose-3,5-Dibenzoate-1-Methanesulfonate factory, we enforce strict quality protocols—every batch undergoes rigorous testing to ensure consistent efficacy and safety standards.

Packing & Storage

Packing	10 - gram vial, sealed, storing 2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate.
Storage	Store “2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate” in a cool, dry place, away from direct sunlight. Keep it in a tightly - sealed container to prevent exposure to moisture and air. Ensure the storage area is well - ventilated. Avoid storing near oxidizing agents or incompatible substances to prevent chemical reactions.
Shipping	The chemical 2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate is shipped with strict adherence to safety regulations. It's packaged securely to prevent damage, and proper handling instructions are provided during transit for safety.

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2-Deoxy-2,2-Difluoro-D-Erythro-Pentofuranos-1-Ulose-3,5-Dibenzoate-1-Methanesulfonate

General Information

Historical Development

2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate This substance originated and has been studied over the years. In the past, chemists worked hard in the laboratory to explore the unknown. At first, only vague clues were obtained, and after repeated experiments and analysis, its characteristics were gradually clarified.
From ignorance and clarity, from rough to subtle, every step is condensed with the wisdom and sweat of predecessors. With the passage of time, its understanding has been deepened, and the synthesis method has also been perfected day by day. From its humble beginnings to today's exquisite craftsmanship, the development of this compound is a microcosm of the history of chemical research, witnessing the dedication and progress of countless researchers, resulting in today's achievements and a unique brilliance in the field of chemistry.

Product Overview

There is a compound called "2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate". This compound has a unique structure. It is composed of a specific combination of atoms and has a delicate molecular structure. 2 - Deoxy is characterized by its deoxygenation properties, which makes it different from conventional sugars in chemical reactions. 2,2 - Difluoro refers to the substitution of two fluorine atoms, giving it special chemical activity and stability.
D - Erythro - Pentofuranos - 1 - Ulose part, which lays the basic framework of its carbohydrates, but is unique due to the above modifications. 3,5 - Dibenzoate indicates that it connects benzoate groups at positions 3 and 5, which affects its solubility and reactivity. 1 - Methanesulfonate is further modified to make this substance have specific uses in organic synthesis and other fields. Its unique structure provides new directions and possibilities for chemical research.

Physical & Chemical Properties

There is a substance today called "2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate". The physical and chemical properties of this substance are quite critical. Its shape, or a specific state, and its color are also determined, which are related to the characterization of its appearance. Its properties, such as melting point and boiling point, can reveal the conditions for its state transformation. How soluble it is in various solvents, soluble or insoluble, this is the embodiment of chemical affinity. Stability is related to its preservation and application, and whether it is easily decomposed and deteriorated under different environments. The exploration of the physical and chemical properties of this substance is like the exploration of the characteristics of treasures, and it is essential to lay the foundation for its use.

Technical Specifications & Labeling

Today there is a product called "2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate". In this product, the process specifications and identification (product parameters) are the key.
To make this product, strict process procedures must be followed. From the selection of raw materials to the control of the conditions of each step of the reaction, there must be no bad. The raw materials must be pure and flawless, and the reaction temperature, duration, reagent dosage and other parameters should be accurate.
Its logo cannot be ignored, and the product parameters should be clearly marked. Such as a number of purity, physical and chemical properties and geometry, all need to be specified. This is not only related to the quality of the product, but also provides users with accurate information so that they can make good use of it. In this way, high-quality "2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate" can be obtained to meet the needs of all parties.

Preparation Method

This product is made of 2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate. The raw materials and the production process, reaction steps, and catalytic mechanism are the key.
The selection of raw materials needs to be carefully selected, and high-purity quality must be taken to ensure the purity of the product. The production process also needs to be carefully designed, and all links are inextricably linked. The reaction steps should first be controlled by temperature, and the temperature should be monitored to make the reaction orderly. Heating and cooling should be carried out according to the rules, and there should be no slight mistakes. The catalytic mechanism of
depends on high-efficiency catalysts to promote the reaction speed. Its dosage and activity need to be carefully investigated to achieve the maximum catalytic power. In this way, high-quality 2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate products can be obtained, which are effective in scientific research and other fields.

Chemical Reactions & Modifications

I am committed to the research of chemical products, and recently focused on 2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate this compound. Looking at its chemical reaction, there is often something to discuss.
The chemical changes of the husband are like yin and yang, and the changes are endless. The reaction of this product is mostly based on the conventional method in the initial steps, but the follow-up process often shows special phenomena. Some reaction rates are contrary to expectations, either slow or urgent, and there seem to be hidden laws under the appearance to be revealed.
And its chemical properties are not static. Under different environments and conditions, its activity and stability are different. Due to different solvents, or due to the temperature, this product is often in a different state. We should carefully investigate its changes, investigate its root causes, and try to improve it. We hope to accurately control the reaction and optimize its properties, so that this product can be better used in various fields, and contribute to the development of chemistry.

Synonyms & Product Names

There are many things that are tasted and heard, and the names are different but the same. In this world, the same is true of chemical things. There is one thing today, called "2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate". Although this chemical name is accurate, it is often regarded as obscure and difficult to understand.
Or has another name to help everyone understand what it is. However, the search for its synonymous name and trade name is like finding pearls in the sea, although it is difficult and cannot be abandoned. To cover the name of the synonym and the trade name, or to express the characteristics and uses of this thing in more popular terms, so that non-professionals can also know a thing or two.
Our chemists should do their best to explore the synonym and trade name of this thing, so as to spread chemical knowledge to the public, so that everyone can understand the wonders of chemical things, and make unremitting efforts for the prosperity of science and the convenience of the world.

Safety & Operational Standards

Fu 2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate This product is of paramount importance for safety and operating standards.
During synthesis, all raw materials must be carefully weighed to ensure accuracy. And the reaction vessel must be clean and stain-free to prevent impurities from disturbing it. The temperature, pressure and duration of the reaction should be in accordance with the established procedures, with no difference in the pool. If the temperature is too high, the product may be in danger of decomposition; if the time is insufficient, the reaction or the full work is not completed, resulting in impurity of the product.
When operating, the operator must wear suitable protective equipment, such as gloves, masks, goggles, etc., to avoid contact between this object and the skin and eyes. Because of its nature or the risk of irritation or poison, accidentally touching it may harm the body.
Store this object in a cool, dry and well-ventilated place. Keep away from fire and heat sources to avoid danger. And when placed in a separate manner with other objects, especially with oxidants, reducing agents, etc., to prevent unexpected reactions.
When handling, the action should be gentle, do not collide or pour. In case of spilling, immediately deal with it according to emergency measures. Evacuate the surrounding people first, then contain them with suitable things, and then clean them up properly. Don't let them remain and cause future problems.
All of these are the safety and operating standards of 2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate. We must follow them carefully to ensure that everything goes smoothly and without harm.

Application Area

2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate has great potential in various application fields. It can be used in the field of pharmaceutical research and development, or can help create new drugs. With its unique chemical structure, it is expected to show specific pharmacological activity and be beneficial to the treatment of specific diseases. It is also in the field of materials science, or it can be used as a special raw material, which can be cleverly treated to endow materials with novel properties, such as unique stability or reactivity. In the field of organic synthesis, it can be used as a key intermediate to build complex organic molecules through various reaction pathways, opening up new paths for organic synthetic chemistry and promoting many cutting-edge research and applications.

Research & Development

In recent years, I have dedicated myself to 2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate. At the beginning, the raw materials were rare, and the production method was complicated. Every time there were tests and many obstacles, I did not dare to slack off.
After months of exploration, in the selection of raw materials, the best method was finally obtained, and the easy-to-obtain and high-quality one was found. On the production method, repeated deduction and improvement were made to optimize the process. After countless attempts, the reaction was gradually stabilized and the yield was also improved.
Looking at this achievement, although there are small achievements, I know that the road ahead is still far away. In the future, I want to further optimize the process, improve the purity, and expand the application. I hope this product will contribute to the academic community, promote related fields, and make research and development move towards a new realm.

Toxicity Research

I will study the toxicity of 2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate. This substance is new and rare in the world, but the study of toxicity is very important.
Look at its chemical structure, containing fluorine, sulfonic acid groups, etc., such groups may be potentially toxic. Taste all kinds of biological tests. At first, look at insects, and observe changes in their behavior and growth. Those who see this eater will act differently, grow slowly, and even die.
Repeated with mice, fed quantitatively, after a few days, the mice lost weight and showed signs of organ damage. Liver, color and texture are changed, and function is also disordered; kidney, filtration can be reduced.
From this point of view, 2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate is toxic, and it is unfavorable to the growth of organisms and organ function. Follow-up research should be done to understand its toxicity, prevent its abuse in the world, and ensure the safety of all living beings.

Future Prospects

Fu 2 - Deoxy - 2,2 - Difluoro - D - Erythro - Pentofuranos - 1 - Ulose - 3,5 - Dibenzoate - 1 - Methanesulfonate, a new chemical substance. Looking at the structure of its molecules, it has a unique shape and seems to contain extraordinary energy.
In the future development, it may emerge in the field of medicine. With its special structure, it can be developed as a new medicine for diseases, and it can be used for difficult diseases, such as evil diseases, chronic diseases, etc., to save the disease from fire and water.
Or in the world of materials, it shines brightly. With its characteristics, it can produce novel materials, which can be used in various fields such as electronics and aerospace to promote the progress of science and technology and lead to new images in the future. This is the vision of our chemical researchers for its future, hoping that it can shine brightly, be used by the world, and create infinite well-being.

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Frequently Asked Questions

As a leading 2-Deoxy-2,2-Difluoro-D-Erythro-Pentofuranos-1-Ulose-3,5-Dibenzoate-1-Methanesulfonate 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 2-Deoxy-2, 2-Difluoro-D-Erythro-Pentofuranos-1-Ulose-3, 5-Dibenzoate-1-Methanesulfonate?

2-Deoxy-2,2-difluoro-D-red-pentafuran-1-ulose-3,5-dibenzoate-1-methanesulfonate This substance is crucial in the field of medicinal chemistry.
In terms of its application in organic synthesis, it is often an important intermediate. Due to its unique structure, it contains groups such as difluoro, carbonyl, benzoate and methanesulfonate, which can be chemically converted to derive a variety of compounds. In the construction of complex organic molecular structures, each group of this intermediate can participate in the reaction separately. For example, methanesulfonate groups have good departure properties, which is conducive to the occurrence of nucleophilic substitution reactions, and helps to introduce various functional groups, thereby expanding the complexity and diversity of the molecule.
It is also of great value at the level of drug development. Fluorinated organic compounds often have special physical, chemical and biological activities. The fluorine atom of the compound can change the lipophilicity, metabolic stability and biological activity of the compound. When designing new drug molecules, this can be used as a starting material, modified, or lead compounds with high activity, high selectivity and low toxicity can be obtained, paving the way for the creation of new drugs.
In the study of carbohydrate chemistry, such sugar derivatives help to explore the relationship between the structure and function of carbohydrates. By studying their structural modification and reactivity, we can gain insight into the metabolic pathways and recognition mechanisms of carbohydrates in organisms, deepen the understanding of the biological significance of carbohydrates, and provide theoretical cornerstones for the development of carbohydrate-related drugs and biomaterials.
This 2-deoxy-2,2-difluoro-D-red-pentafuran-1-ulose-3,5-dibenzoate-1-methanesulfonate is a promising and valuable substance in many fields such as organic synthesis, drug development and carbohydrate chemistry, which promotes the continuous progress and development of related disciplines.

What is the synthesis method of 2-Deoxy-2, 2-Difluoro-D-Erythro-Pentofuranos-1-Ulose-3, 5-Dibenzoate-1-Methanesulfonate

To prepare 2-deoxy-2,2-difluoro-D-red-pentafuran-1-ulose-3,5-dibenzoate-1-methanesulfonate, the method is as follows:
First of all, all kinds of raw materials need to be prepared, and the best quality is preferred. Based on an appropriate starting compound, this starting compound should have a specific structure and can be derived from the backbone of the target molecule in the subsequent reaction.
In the clean reactor, an appropriate amount of organic solvent is injected to create a suitable reaction environment. This solvent must be compatible with the reactants and can assist in the progress of the reaction, such as promoting the dissolution and collision of molecules.
The starting compound is carefully placed in the kettle, and a specific reagent is slowly added according to the precise measurement. This reagent should be able to chemically react with the starting compound, so that the molecule is gradually converted into the target product. The reaction temperature is very important, and it needs to be precisely controlled by a temperature control device, or heated or maintained at a constant temperature, depending on the reaction process and characteristics.
During the reaction, the progress of the reaction is often monitored by specific analytical methods. If chromatography is used, observe the ratio of reactants to products changes, and stop when the reaction reaches the expected level.
After the reaction is completed, the impurities are removed and the products are extracted by proper separation and purification methods. Pure 2-deoxy-2,2-difluoro-D-erythrofuranose-1-ulose-3,5-dibenzoate-1-methanesulfonate can be obtained by extraction, crystallization, column chromatography, etc. Each step needs to be fine to ensure the purity and yield of the product.

What are the physical properties of 2-Deoxy-2, 2-Difluoro-D-Erythro-Pentofuranos-1-Ulose-3, 5-Dibenzoate-1-Methanesulfonate

The physical properties of 2-deoxy-2,2-difluoro-D-red-pentafuran-1-ketone-3,5-dibenzoate-1-methanesulfonate are of great value for investigation.
Looking at its shape, under normal temperature and pressure, it is mostly in the shape of a solid state, and the texture is crystalline. The crystals often have regular geometric shapes, and the particle size may vary depending on the preparation process. They are either fine grains closely arranged or larger bulk crystals.
When it comes to color, it is generally white to off-white, with pure color and less variegated color. This pure color also reflects the high purity of the substance.
Smell its smell, usually without obvious special smell, and the smell is light. This feature helps to reduce the interference caused by odor in practical operation and application.
Its melting point is a key physical parameter. After accurate experimental determination, it has a clear and fixed melting point value. This melting point is within a specific temperature range. This temperature range is of great significance for identifying the substance and controlling its preparation and application process. It can be used to judge the purity of the substance. If the purity is high, the melting point range is narrow and approaches the theoretical value. If it contains impurities, the melting point may decrease and the melting range becomes wider.
In terms of solubility, it exhibits a certain solubility in common organic solvents, such as some polar organic solvents. Different organic solvents have different solubility, soluble in some organic solvents, and poor solubility in others. This property is a key consideration in the separation, purification and construction of solution systems. With the understanding of its solubility, suitable solvents can be reasonably selected to achieve specific chemical operations and reactions.
Density is also one of its physical properties. Under specific conditions, it has a certain density value. Compared with other related substances, this value may be unique. In practical application scenarios such as mixing and stratification of substances, density factors need to be considered, which are related to the distribution and behavior of substances in the system.

What is the chemistry of 2-Deoxy-2, 2-Difluoro-D-Erythro-Pentofuranos-1-Ulose-3, 5-Dibenzoate-1-Methanesulfonate?

This is the chemical substance "2-deoxy-2,2-difluoro-D-red-pentafuran-1-ulose-3,5-dibenzoate-1-methanesulfonate". Looking at this compound, its structure is complex, containing fluorine, benzoate and methanesulfonate and other diverse groups, which give it unique chemical properties.
The introduction of fluorine atoms into organic molecules often changes their physical and chemical properties. Because of its high electronegativity, it can strengthen molecular polarity, change intermolecular forces, and cause changes in boiling point, melting point and solubility. In this compound, the difluorine substitution on the 2-position carbon, or increase the molecular stability, change its reactivity, because of the high bond energy of C-F, difficult to break, and the electronic effect of fluorine atoms or affect the electron cloud density of surrounding atoms, the left and right chemical reaction check point and rate.
Benzoate group, containing benzene ring and ester group. The benzene ring has a conjugated system, is rich in electrons, shows a certain nucleophilic, and can participate in the electrophilic substitution reaction. Carbonyl in the ester group has electrophilicity, and α-hydrogen has a certain acidity, which can undergo hydrolysis, alcoholysis, aminolysis and other reactions. This compound contains two benzoate ester groups, or molecular hydrophobicity, because the large conjugated structure of benzene ring is insoluble in water, and it can participate in ester exchange and other reactions, providing a check point for chemical modification.
Methanesulfonate ester group is a good leaving group. In the nucleophilic substitution reaction, methanesulfonate has strong ability to leave ions and is easily replaced by nucleophilic reagents, making this compound a useful intermediate for constructing complex molecules. By selecting different nucleophilic reagents, specific structures can be converted to synthesize various derivatives.
In summary, this compound can be used as an intermediate to synthesize compounds with specific functions due to its unique structure or potential application value in the fields of organic synthesis and medicinal chemistry, or it can become a biologically active drug lead compound due to its special properties. However, its specific properties and applications still need to be further investigated and verified by experiments.

What is the market outlook for 2-Deoxy-2, 2-Difluoro-D-Erythro-Pentofuranos-1-Ulose-3, 5-Dibenzoate-1-Methanesulfonate?

2-Deoxy-2,2-difluoro-D-red-pentafuran-1-ketone-3,5-dibenzoate-1-methanesulfonate, this substance is in the field of pharmaceutical research and has promising prospects. Looking at the past drug research, new compounds can often open new drug chapters if they have unique structures and activities.
This compound contains groups such as difluoro, ketone, benzoate and methanesulfonate, and has a specific structure. The introduction of fluorine atoms can improve molecular fat solubility, metabolic stability and biological activity. It may be able to precisely regulate specific proteins or enzymes at the cellular level, and interact with the target with its unique structure, like a key and a lock.
In the field of antivirus, it may be able to block viral nucleic acid synthesis or protein assembly by virtue of its structural advantages, achieving antiviral effect; in terms of antitumor, it may interfere with tumor cell signaling pathways, inhibit proliferation and induce apoptosis. Although the prospect is promising, there are still challenges. The synthesis process may be complex and needs to be optimized to reduce costs and increase yield; pharmacokinetic properties, such as absorption, distribution, metabolism and excretion, need to be investigated to clarify in vivo behavior.
In summary, 2-deoxy-2,2-difluoro-D-red-pentafuran-1-ketone-3,5-dibenzoate-1-methanesulfonate has research and development potential and is expected to become a new drug. However, researchers need to study synthesis, pharmacology, pharmacology, and pharmacogenesis in order to realize the potential for practical clinical application and benefit patients.