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What is the chemical structure of 5-Methoxy-2- {[ (4-methoxy-3, 5-dimethylpyridin-2-yl) methyl] sulfonyl} -1H-benzimidazole?
This is the chemical structure analysis of 5-methoxy-2- {[ (4-methoxy-3,5-dimethylpyridine-2-yl) methyl] sulfonyl} -1H-benzimidazole. Its structure is made up of several parts.
The first is the benzimidazole parent nucleus, which is a nitrogen-containing fused heterocycle formed by the fusing of benzene ring and imidazole ring. It has a unique electron cloud distribution and reactivity. It is common in many drugs and bioactive molecules, laying the basic framework for the whole compound.
Methoxy is added at the 5th position, and methoxy is the power supply group, which can change the electron cloud density of the benzimidazole ring, which affects the physicochemical properties and biological activities of the compound.
The 2nd position is connected to the complex side chain, and the side chain starts from the [ (4-methoxy-3,5-dimethylpyridine-2-yl) methyl] part. The pyridine ring is also a nitrogen-containing heterocycle, and the substitution of the 4-methoxy group and the 3,5-dimethyl group regulates the electronic properties of the pyridine ring and the steric hindrance. Pyridine-2-yl methyl is connected to the sulfonyl group, which has strong electron-absorbing properties and further modifies the electronic properties of the entire side chain Ultimately, this side chain is connected to benzimidazole at the 2-position, and each part interacts to give the compound specific chemical and biological properties, which may have important uses in drug development, biological activity research, and other fields.
What are the physical properties of 5-Methoxy-2- {[ (4-methoxy-3, 5-dimethylpyridin-2-yl) methyl] sulfonyl} -1H-benzimidazole?
5-Methoxy-2-{ [ (4-methoxy-3,5-dimethylpyridine-2-yl) methyl] sulfonyl} -1H-benzimidazole, which is an organic compound. Its physical properties are as follows:
At room temperature, it is mostly in the state of white to quasi-white crystalline powder, which is easy to identify and handle.
As for the melting point, it is between 135-139 ° C. The melting point is an important characteristic of the compound, from which its purity can be judged. If the purity is high, the melting point range is narrow and close to the theoretical value; if the purity is poor, the melting point is reduced and the range is widened. < Br >
In terms of solubility, it exhibits good solubility in organic solvents such as dichloromethane, N, N-dimethylformamide, and can be uniformly dispersed to form a solution, providing convenient conditions for chemical synthesis and reaction. However, in water, the solubility is poor, and the insolubility makes it limited in the reaction or application of water systems.
In terms of stability, under conventional environmental conditions, it is quite stable and can be stored for a long time without significant deterioration. When exposed to extreme chemicals such as strong oxidants, strong acids or strong bases, the structure is easily damaged, chemical reactions occur, and the original properties and functions are changed. < Br >
The volatility is extremely weak, and there is basically no obvious volatilization loss at room temperature and pressure, which is convenient for storage and transportation, and no special anti-volatilization measures are required.
The above physical properties are of great significance in the fields of organic synthesis and drug research and development. Only by clarifying its properties can it be applied rationally and assist relevant research and production.
What is the main use of 5-Methoxy-2- {[ (4-methoxy-3, 5-dimethylpyridin-2-yl) methyl] sulfonyl} -1H-benzimidazole?
5-Methoxy-2 - {[ (4-methoxy-3,5-dimethylpyridine-2-yl) methyl] sulfonyl} -1H-benzimidazole is an important organic compound. It has a wide range of uses and is of great significance in the field of medicine.
It is often a key intermediate in the process of pharmaceutical research and development. With exquisite chemical modification and synthesis techniques, it can be turned into drug molecules with specific pharmacological activities. The creation of some anti-ulcer drugs is based on it. Due to its unique chemical structure, it can affect the physiological mechanism of gastric acid secretion, so as to relieve the effect of ulcer caused by excessive gastric acid.
In the field of organic synthesis, it is also indispensable. With its structural properties, it can participate in a variety of organic reactions, such as nucleophilic substitution, condensation and other reactions. Chemists skillfully use these reactions to construct more complex and novel organic molecular structures, paving the way for the development of new materials and functional compounds.
Furthermore, in pharmaceutical chemistry research, it is an important object to explore the structure-activity relationship. By precisely fine-tuning its structure, researchers can gain insight into the relationship between structural changes and biological activities, providing a solid theoretical basis for the design of more efficient and safe drugs. In summary, 5-methoxy-2 - { (4-methoxy-3,5-dimethylpyridine-2-yl) methyl] sulfonyl} -1H-benzimidazole has immeasurable value and potential in many fields such as medicine and organic synthesis.
What are the synthesis methods of 5-Methoxy-2- {[ (4-methoxy-3, 5-dimethylpyridin-2-yl) methyl] sulfonyl} -1H-benzimidazole?
The synthesis method of 5-methoxy-2-{ [ (4-methoxy-3,5-dimethylpyridine-2-yl) methyl] sulfonyl} -1H-benzimidazole, which is described in ancient books, is particularly complicated and should be described in detail today.
First, methoxy benzimidazole is used as the beginning, and sulfonyl is introduced through sulfonation. The method is to choose a clean kettle, add methoxy benzimidazole to it, add an appropriate amount of sulfonation reagent, such as concentrated sulfuric acid, fuming sulfuric acid, etc., control the temperature to a suitable degree, or between tens of degrees, stir it to make it uniform, and wait for several hours. After the reaction is completed, quench it with water, crystallize and filter it to obtain benzimidazole intermediates containing sulfonyl groups.
Next, prepare (4-methoxy-3,5-dimethylpyridine-2-yl) methyl halide. Take 4-methoxy-3,5-dimethylpyridine and react with halomethane under the catalysis of a base. The base can be selected from the genera of potassium carbonate and sodium carbonate, and halogenated methanes such as chloromethane and bromomethane can be used. In organic solvents, such as acetonitrile, N, N-dimethylformamide, heated and refluxed, after some time, to obtain (4-methoxy-3,5-dimethylpyridine-2-yl) methyl halide.
At the end, combine the former two. Using bases as mediators, such as sodium hydride, potassium tert-butyl alcohol, etc., in organic solvents, benzimidazole intermediates containing sulfonyl groups are reacted with (4-methoxy-3,5-dimethylpyridine-2-yl) methyl halide. The temperature is controlled in an appropriate range, and the waiting reaction is completed. After column chromatography, recrystallization and other methods, the product is purified to obtain 5-methoxy-2 - { (4-methoxy-3,5-dimethylpyridine-2-yl) methyl] sulfonyl} -1H -benzimidazole. Although this synthesis method is complicated, it can be followed to obtain the desired product.
What is the market outlook for 5-Methoxy-2- {[ (4-methoxy-3, 5-dimethylpyridin-2-yl) methyl] sulfonyl} -1H-benzimidazole?
5-Methoxy-2 - {[ (4-methoxy-3,5-dimethylpyridine-2-yl) methyl] sulfonyl} -1H-benzimidazole, which is a rather complex organic compound. Looking at its market prospects, it has several characteristics.
In the field of medicine, this compound may have potential medicinal activity due to its unique structure. It may be able to target specific disease targets and make new drugs through in-depth research and development. Today, the pharmaceutical industry is hungry for innovative drugs, and many pharmaceutical companies and scientific research institutions are investing heavily in research and development. If this compound is experimentally confirmed to have definite efficacy and good safety, it will be able to gain a share of the highly competitive pharmaceutical market and have a bright future.
Looking at the chemical industry, it may be used as a key intermediate for the synthesis of other fine chemicals. With the continuous development of the chemical industry, the demand for high-performance, high-purity fine chemicals is increasing day by day. If this compound can be used as a starting material to efficiently synthesize other substances with special properties, it will definitely be able to find a foothold in the chemical raw material market.
However, its marketing activities also face challenges. First of all, the synthesis process may be complex and expensive, requiring unremitting research by scientific researchers to optimize the process and reduce costs in order to be competitive in the market. Secondly, the research and development of new drugs requires a long cycle and huge capital investment, and must pass rigorous clinical trials and approvals, which is quite risky.
But overall, if the above problems can be properly solved, 5-methoxy-2- {[ (4-methoxy-3,5-dimethylpyridine-2-yl) methyl] sulfonyl} -1H-benzimidazole is expected to open up a wide world in the fields of medicine and chemical industry, and the market prospect cannot be underestimated.
