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What is the main use of S-2-benzothiaoyl- (Z) -2- (tert-butoxycarbonylisopropoxyimino) -4-thiazoleacetate
S - 2 - benzothiaoyl - (Z) - 2 - (tert - butoxycarbonylisopropoxyimino) - 4 - thiazoleacetate is the name of an organic compound. Its main use is related to the field of organic synthesis and medicinal chemistry.
In organic synthesis, this compound is often used as a key intermediate. Due to its unique structure, it can participate in a variety of chemical reactions, such as nucleophilic substitution, cyclization, etc. Through these reactions, chemists can construct more complex organic molecular structures, laying the foundation for the synthesis of new materials, natural product mimics, etc.
In the field of medicinal chemistry, this compound also has potential value. Or because of its structural properties, it can interact with specific targets in organisms. Researchers can modify and optimize its structure to explore biologically active substances, which are expected to be developed into new drugs for the treatment of diseases.
Furthermore, in some specific chemical research scenarios, this compound may act as a reaction reagent to help the occurrence of specific chemical reactions in order to obtain the desired product. Its various applications in the field of chemistry are constantly promoting the progress of organic synthesis and pharmaceutical research and development.
What are the chemical properties of S-2-benzothiaoyl- (Z) -2- (tert-butoxycarbonylisopropoxyimino) -4-thiazoleacetate
S-2 -benzothiazolyl - (Z) - 2 - (tert-butoxycarbonyl isopropoxyamino) - 4 -thiazole acetate, this is an organic compound. Its chemical properties are unique and valuable for investigation.
From the structural point of view, the compound contains many functional groups such as benzothiazolyl, tert-butoxycarbonyl, isopropoxycarbamino and thiazole acetate. This structure endows it with specific physical and chemical properties. It has certain stability, and the conjugated system of benzothiazole ring and thiazole ring reduces the molecular energy and stabilizes the structure. < Br >
The compound may have certain solubility. In organic solvents, such as dichloromethane, chloroform, etc., it may exhibit good solubility due to the characteristics of its organic groups. However, in water, due to the dominance of hydrophobic groups, the solubility may be limited.
In terms of chemical reactivity, its functional groups are active. Tert-butoxycarbonyl is a common protective group and can be removed under appropriate conditions to achieve protection and subsequent reaction manipulation of specific groups. Isopropoxycarbamino or participates in nucleophilic addition and elimination reactions, and the ester group of thiazole acetate can hydrolyze in case of alkali to form corresponding acids and alcohols. These reaction properties make the compound useful in the field of organic synthesis or as a key intermediate for the construction of more complex organic molecular structures.
Its chemical properties determine that it may have potential applications in many fields. In the field of medicinal chemistry, or due to its unique structure and reactivity, it becomes the basis for the development of new drugs; in the field of materials science, or because of its specific stability and reactivity, it participates in the preparation of materials with special properties.
What is the synthesis method of S-2-benzothiaoyl- (Z) -2- (tert-butoxycarbonylisopropoxyimino) -4-thiazoleacetate
S - 2 - benzothiaoyl - (Z) - 2 - (tert - butoxycarbonylisopropoxyimino) - 4 - thiazoleacetate is an organic compound, and its synthesis method is very important.
To synthesize this compound, many raw materials need to be prepared first. Using thiazole compounds as starting materials, select suitable thiazole derivatives, which is the basis for constructing the core structure of the target product. At the same time, prepare a reagent containing benzothiazole group, which will introduce benzothiazole part in the reaction. In addition, a reagent containing tert-butoxy carbonyl isopropoxy oxime is also indispensable, which will provide key substituents at specific positions of the target product.
At the beginning of the synthesis step, thiazole derivatives can react with reagents containing benzothiazole groups under suitable reaction conditions. This reaction may require the assistance of specific catalysts, such as some metal catalysts or organic base catalysts, and the reaction temperature and reaction time need to be precisely regulated. If the temperature is too high or side reactions are clustered, if it is too low, the reaction rate will be delayed. After this step is completed, an intermediate containing benzothiazole and thiazole structures is preliminarily constructed.
Subsequently, this intermediate is reacted with a reagent containing tert-butoxycarbonyl isopropoxyoxime. This step also requires fine adjustment of the reaction conditions, such as the choice of solvent is very important, and aprotic solvents may be more conducive to the reaction. At the same time, the pH of the reaction system can be controlled by adding an appropriate amount of acid or base.
During the whole synthesis process, the monitoring of the reaction process cannot be ignored. Commonly used monitoring methods, such as thin-layer chromatography (TLC), can observe the degree of reaction in real time to determine whether the reaction is complete, so as to stop the reaction in time and avoid impurities from overreaction. Finally, through a series of reactions and subsequent separation and purification steps, such as column chromatography, pure S-2 -benzothiaoyl - (Z) - 2 - (tert - butoxycarbonylisopropoxyimino) - 4 - thiazoleacetate can be obtained.
What is the price of S-2-benzothiaoyl- (Z) -2- (tert-butoxycarbonylisopropoxyimino) -4-thiazoleacetate in the market?
I look at this "S-2 - benzothiaoyl - (Z) - 2 - (tert - butoxycarbonylisopropoxyimino) - 4 - thiazoleacetate", which is a complex chemical substance. However, it is difficult to know the price in the market.
Looking at the writing style of "Tiangong Kaiwu", there are many techniques and products, etc. However, such chemical substances did not exist at that time, and it is difficult to find comparable examples of relevant prices. Today's chemical product prices often vary depending on the origin, quality, supply and demand. This substance may be used in special chemical synthesis, pharmaceutical research and development and other fields.
If you want to know the inter-market price, you need to consult the chemical product trading market, relevant chemical raw material suppliers, or check the chemical product price information platform. Because there is no exact market data, it is difficult to determine the price geometry. Or because the preparation process is complicated, the raw materials are rare, and the price is high; or because the production is increasing and the demand is limited, the price is flat. Therefore, if you want to get the actual price, you must check the current market situation in detail.
Is the production process of S-2-benzothiaoyl- (Z) -2- (tert-butoxycarbonylisopropoxyimino) -4-thiazoleacetate complicated?
The production process of S-2 - benzothiaoyl - (Z) - 2 - (tert - butoxycarbonylisopropoxyimino) - 4 - thiazoleacetate is not simple, but rather complex. The structure of this compound is specific, and the preparation process requires multiple fine steps.
The first to bear the brunt, the selection and pretreatment of raw materials are extremely critical. Each raw material must be of extremely high purity, and a little impurities may cause reaction errors and affect the quality of the product. At the beginning of preparation, a specific proportion of raw materials needs to be mixed with accurate measurement. In this case, the control of reaction conditions, such as temperature, pressure and reaction time, needs to be exactly the same. If the temperature is slightly higher or lower, or the reaction rate is abnormal, or the side reactions are clustered, the yield and purity of the product are affected.
Furthermore, the chemical reaction mechanism involved in the reaction process is complex. Multiple reactions occur in parallel or one after another, and each reaction affects each other. In order to make the reaction proceed according to the expected path, the regulation of the reaction conditions and the concentration of the reactants needs to be exquisite. And the separation and purification of intermediates is also quite difficult, because its properties are often unstable, and the separation process may decompose or deteriorate if it is not careful.
In addition, the post-treatment stage should not be ignored. The product needs to be carefully purified to remove residual impurities and unreacted raw materials. This process often requires the use of a variety of separation techniques, such as extraction, crystallization, chromatographic separation, etc. Each technique has its own scope of application and operation points. Only when used properly can high-purity S-2 -benzothiaoyl - (Z) - 2 - (tert - butoxycarbonylisopropoxyimino) - 4 - thiazoleacetate be obtained.
In summary, the production process of S-2 - benzothiaoyl - (Z) - 2 - (tert - butoxycarbonylisopropoxyimino) - 4 - thiazoleacetate, from raw materials to finished products, is interlocking, and any negligence in any link may lead to a complete loss. It is a complex and challenging process.
