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Hydroxyethoxy aminopyrazolopyridine chemical structure of HCl
The chemical structure of hydroxyethoxy aminopyrazolopyridine hydrochloride (Hydroxyethoxy aminopyrazolopyridine HCl) is a key content in the field of organic chemistry. The structure of this compound is composed of the core skeleton of pyrazolopyridine, hydroxyethoxy and amino functional groups, and the salt-forming state is hydrochloride.
Pyrazolopyridine skeleton is formed by fusing the pyrazole ring and the pyridine ring, which endows the compound with unique chemical properties and biological activity. The fusion of pyrazoles and pyridines has certain aromatic properties and conjugated systems, which has a great impact on the distribution and stability of molecular electron clouds.
Hydroxyethoxy is an important substituent, introducing hydrophilicity to the molecule. Due to the fact that hydroxyl groups can form hydrogen bonds, this structural feature changes the solubility and interaction of compounds in organisms, or enhances their ability to bind to biological macromolecules.
Amino-functional groups are also crucial, which are alkaline and can participate in many chemical reactions. In drug design, or as an important check point for binding to targets, the affinity of compounds with biological targets is enhanced by the formation of hydrogen bonds and electrostatic interactions.
The formation of hydrochloride not only changes the physical and chemical properties of compounds, such as improving water solubility, but also has a significant impact on their stability and bioavailability. The complexity of this structure and the synergistic effect of each part endow hydroxyethoxy aminopyrazole pyridine hydrochloride with diverse chemical and biological properties, which have potential application value in drug development, materials science and other fields.
What are the main uses of Hydroxyethoxy aminopyrazolopyridine HCl?
Hydroxyethoxy aminopyrazolopyridine HCl has a wide range of uses in the field of medicine and is often a key raw material for the creation of new drugs. This compound has a unique chemical structure and activity, which can act on specific disease targets and help develop specific drugs for the treatment of cancer, nervous system diseases, cardiovascular diseases, etc. For example, it may be able to precisely regulate cell signaling pathways to inhibit the proliferation of cancer cells, opening up new paths for the development of anti-cancer drugs.
In the field of agriculture, it can be used to develop new pesticides. Because it has certain biological activities, or can be used as insecticides, fungicides, etc., it can effectively prevent and control crop diseases and pests, improve crop yield and quality, and has little impact on the environment, which is in line with the needs of green agriculture development. < Br >
In the field of materials science, this substance can be used as a synthesis intermediate of functional materials. Through chemical reactions, it is introduced into the material structure, endowing the material with special properties, such as improving the conductivity and optical properties of the material, providing new options for the research and development of electronic devices and optical materials.
In the field of scientific research, hydroxyethoxyaminopyrazole and pyridine hydrochloride is an important chemical tool, which helps researchers to deeply explore the basic scientific issues such as the mechanism of organic synthesis reactions and molecular interactions, and promotes the development of chemistry.
What is Hydroxyethoxy aminopyrazolopyridine HCl?
To prepare hydroxyethoxy aminopyrazolo-pyridine hydrochloride (Hydroxyethoxy aminopyrazolopyridine HCl), the method is as follows:
Take the appropriate starting material first, if a compound containing pyrazolo-pyridine structure is used as the starting material, pay attention to its reactivity check point. In an appropriate reaction vessel, place the starting material and dissolve it in a suitable organic solvent, commonly used such as dichloromethane, N, N-dimethylformamide, etc., depending on the raw material and reaction properties.
Then, add reagents that can introduce hydroxyethoxy groups, such as halogenated hydrocarbons containing hydroxyethoxy groups, and add an appropriate amount of bases, such as potassium carbonate, triethylamine, etc. The effect of bases is to promote nucleophilic substitution reactions. The reaction temperature needs to be precisely controlled, either at room temperature or heated to a moderate temperature, such as 40-80 degrees Celsius, according to the reaction process, monitored by thin-layer chromatography (TLC) until the raw material point disappears or the desired degree of reaction is reached.
After the reaction is completed, the reaction liquid is cooled, extracted with water and an organic solvent, and the organic phase is separated. After drying with anhydrous sodium sulfate, the solvent is removed by distillation under reduced pressure to obtain a crude product.
The crude product was purified by column chromatography, and a suitable silica gel and eluent were selected to obtain a relatively pure hydroxyethoxy aminopyridine.
Finally, the product is dissolved in an organic solvent, passed into hydrogen chloride gas or added with a suitable hydrochloride salt reagent to form hydroxyethoxy aminopyrazole and pyridine hydrochloride, and then crystallized, filtered, dried, etc., to obtain the final product. Throughout the process, attention must be paid to the control of reaction conditions and safe operation to ensure the purity and yield of the product.
Hydroxyethoxy aminopyrazolopyridine the physical and chemical properties of HCl
Hydroxyethoxy aminopyrazolopyridine hydrochloride (Hydroxyethoxy aminopyrazolopyridine HCl) is an organic compound. Its physical and chemical properties are worth exploring.
Looking at its physical properties, under normal conditions, this compound may take a specific form or be crystalline, with a certain color and appearance. Its melting point and boiling point are key physical characteristics. The melting point is the temperature at which a substance changes from a solid state to a liquid state. This value can help identify and purify the compound. The boiling point is related to the temperature at which it changes from a liquid state to a gas state under a specific pressure, which is of great significance in the consideration of separation, purification and reaction conditions.
As for chemical properties, it has unique reactivity due to its specific functional groups. Functional groups such as amino groups, pyridine rings and pyrazole rings in molecules can participate in many chemical reactions. Amino groups have nucleophilic properties and can undergo nucleophilic substitution reactions with electrophilic reagents or participate in condensation reactions to form new chemical bonds. Pyridine rings and pyrazole rings can undergo aromatic electrophilic substitution reactions due to their aromatic properties. Under appropriate conditions, various substituents can be introduced to derive a variety of derivatives. In addition, the characteristics of hydrochloride salt make it dissociable in aqueous solution, which affects its chemical behavior and stability in different media. The chemical properties of this compound provide a broad application space for organic synthesis, drug research and development, and can be rationally designed reaction routes to prepare compounds with specific functions.
What is the price range of Hydroxyethoxy aminopyrazolopyridine HCl in the market?
Hydroxyethoxyaminopyrazolopyridine hydrochloride is in the market, and its price range is difficult to determine. There are many reasons for this. First, the use, purity, and mass production scale of this substance all affect its price. If it is used for high-precision scientific research, the purity is demanding, and the price will be high; if it is used for general industrial use, the purity is slightly lower, and the price may drop. Second, the supply and demand of the market are also critical. Demand is greater than supply, and prices tend to rise; if supply exceeds demand, prices will fall. Third, different manufacturers have different technical costs and marketing methods, and the prices are different. In the world of "Tiangong Kaiwu", although there is no such fine chemical, its principles are the same. For example, the price of molten materials varies depending on the quality, the wide range of use, and the amount of demand. Today's hydroxyethoxyaminopyrazole and pyridine hydrochloride is the same. Generally speaking, the price of each gram in the market may range from tens to hundreds of yuan, depending on the above reasons, the fluctuation is quite large.
