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What is the chemical structure of -2-Amino-6-propionamidotetrahydrobenzothiazole?
The chemical structure of (6S) -2-amino-6-propionamidotetrahydrobenzothiazole is an important content in the field of organic chemistry. This compound is derived from the parent nucleus of benzothiazole and has a unique spatial structure and atomic connection.
Looking at its structure, the parent nucleus of benzothiazole is a fused ring system containing sulfur and nitrogen heteroatoms. Among them, the sulfur atom and nitrogen atom are in a specific position, which has a great influence on the distribution and chemical properties of the molecular electron cloud. The fused thiazole ring and benzene ring endow the molecule with certain rigidity and stability. < Br >
The amino group is introduced at the second position. The amino group has nucleophilicity and can participate in many chemical reactions, such as acylation with acid anhydride, acyl halide, or nucleophilic addition reaction with aldehyde, ketone, etc., which greatly expands the chemical activity and derivatization possibility of the compound.
The propionamide group at the sixth position is formed by the condensation of propionyl group and amino group. The existence of propionyl group not only increases the steric resistance of molecules, but also affects the polarity and hydrophobicity of molecules. The characteristics of amide bonds enable the formation of hydrogen bonds between molecules, which has an impact on the physical properties of compounds such as melting point, boiling point and solubility.
Overall, the chemical structure of (6S) -2-amino-6-propionamidotetrahydrobenzothiazole presents rich chemical properties and potential application value due to the synergistic action of various groups, which may be of great significance in the fields of medicinal chemistry and organic synthesis.
What is the main purpose of -2-Amino-6-propionamidotetrahydrobenzothiazole?
(6S) -2-amino-6-propionamidotetrahydrobenzothiazole is one of the organic compounds. Its main uses are quite extensive, and it is often a key intermediate in drug synthesis in the field of medicinal chemistry.
In the research and development of drugs, many drug molecules with specific biological activities need to be constructed with this compound as the starting material or key structural fragment. Through exquisite organic synthesis methods, adding various functional groups, or performing complex cyclization reactions, new compounds with different pharmacological properties can be derived. This plays a pivotal role in the creation of new antibacterial, antiviral, and antitumor drugs.
In the field of chemical research, it can be used as a model compound to help researchers delve deeper into the mechanism of organic reactions. By observing various chemical reactions it participates in, analyzing reaction conditions, rates, selectivity and other factors, in order to gain understanding of the basic principles of organic chemistry, and then provide theoretical support for the development of more efficient and accurate organic synthesis methods.
Furthermore, in materials science and other related fields, (6S) -2-amino-6-propionamido tetrahydrobenzothiazole or appropriately modified, exhibits unique physical and chemical properties, which are expected to be applied to the creation of new materials, such as polymer materials with special functions, optical materials, etc., to open up new paths for the development of materials science.
(6S) What are the synthesis methods of -2-Amino-6-propionamidotetrahydrobenzothiazole
The synthesis method of (6S) -2-amino-6-propionamidotetrahydrobenzothiazole has been known for a long time. In the past, the Fang family spent a lot of effort in the preparation of these things, and after several explorations, they obtained one or two methods.
One method begins with a specific raw material, which is put into the kettle in a delicate ratio. First, it is nourished with a mild temperature, just like a slow simmer, so that all things can be fused together. Then, a special auxiliary is added, which is like a guide to guide the reaction along the established path. With the evolution of the reaction, it gradually heats up, just like the heat gradually burns, promoting its transformation. In the meantime, closely observe its changes, adjust its temperature and control its flow in a timely manner, so that the reaction is smooth. After the reaction is completed, purify it in a complicated way, like panning for gold in the sand, remove its impurities, and retain the pure product.
The second method is to select other starting materials and make them interact with each other with ingenious techniques. Initially, create a special atmosphere, or in an inert atmosphere, or in a specific solvent, so that the activity of the material is just right. Then, apply the method of catalysis, which is like a magic key to open the door to the reaction. At a suitable temperature and pressure, the reaction proceeds in an orderly manner. After it is completed, it is also separated and refined by a fine method, and finally the required (6S) -2-amino-6-propionamido tetrahydrobenzothiazole is obtained.
All kinds of synthetic methods have their own strengths and weaknesses, all relying on the wisdom and experience of the Fang family. Over the long years, they have been continuously honed and perfected, paving the way for the preparation of such stunners in future generations.
What are the physical properties of -2-Amino-6-propionamidotetrahydrobenzothiazole?
(6S) -2-amino-6-propionamidotetrahydrobenzothiazole is an organic compound. Its physical properties are particularly important, and it is related to many characteristics and uses of this compound.
When it comes to appearance, this substance is often in the form of a white to off-white crystalline powder. Its color is white and pure, the particles are fine and uniform, and it has a good texture. This appearance characteristic is not only helpful for identifying this substance, but also in specific application scenarios, it is related to the quality and appearance of the product.
Melting point is also one of its key physical properties. ( The melting point of 6S) -2-amino-6-propionamidotetrahydrobenzothiazole is within a specific range. After accurate determination of this value, it can provide an important basis for identification and purity judgment. Due to the slight difference in the melting point of the compound with different purity, the melting point determination is an important means of quality control.
In terms of solubility, it exhibits specific solubility characteristics in specific solvents. In some organic solvents, such as ethanol and dichloromethane, it has a certain solubility, but its solubility in water is relatively limited. This solubility affects its dispersion and reactivity in different media. In the fields of drug research and development, chemical synthesis, etc., it is crucial to select suitable reaction solvents, preparation excipients, etc.
In addition, its density is also a consideration factor. Although the specific density value depends on the accurate measurement, this physical quantity has a non-negligible role in the operation of material measurement, mixing ratio, etc., which is related to the accuracy and stability of the production process.
In summary, the physical properties of (6S) -2-amino-6-propionamido tetrahydrobenzothiazole, such as appearance, melting point, solubility and density, are the basis for in-depth understanding and application of this substance, and are of great significance in research and practice in many fields.
What is the price range of -2-Amino-6-propionamidotetrahydrobenzothiazole in the market?
Today there is a question about the price range of (6S) -2-amino-6-propionylamino tetrahydrobenzothiazole in the market. This is a specific compound in the field of fine chemicals, and its price fluctuations are influenced by many factors.
Looking at the past chemical market, the price of raw materials was the key end. If the supply of raw materials required for the synthesis of this compound is abundant and the price is stable, the cost of this compound may decrease, and the price will also follow. Conversely, if the raw material is scarce or the price rises, the price will increase.
The preparation process should also not be underestimated. If there is a refined, efficient and low-cost process, it can increase output, reduce loss, and the price may decrease. If the process is complicated, energy consumption is high, and the yield is low, the price will be high.
The supply and demand of the market is also the main reason. If many industries have strong demand for this compound and limited supply, its price will rise. If the demand is weak and the supply is excessive, the price will fall.
Then I searched "Tiangong Kaiwu" all over. It was written in the Ming Dynasty, when the chemical industry was not thriving. Such fine compounds have not yet come out, and it is difficult to find relevant price records in the book. If you want to know the exact price range today, you should carefully investigate the current market conditions of chemical raw materials, consult professional chemical product suppliers, or refer to the chemical industry information platform to obtain accurate numbers to clarify the approximate price range in the market.
