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The chemical industry plays a crucial role in the development of various products that we use in our daily lives.
One of the important compounds that are synthesized in this industry is TERT-BUTYL N-(2-THIENYL)CARBAMATE.
This compound has a wide range of applications in various fields such as pharmaceuticals, agrochemicals, and others.
In this article, we will discuss the synthetic routes of TERT-BUTYL N-(2-THIENYL)CARBAMATE.
Synthetic routes for TERT-BUTYL N-(2-THIENYL)CARBAMATE can be broadly classified into two categories, which are chemical synthesis and biotechnological synthesis.
Chemical Synthesis:
Chemical synthesis is the most common method used for the production of TERT-BUTYL N-(2-THIENYL)CARBAMATE.
This method involves the use of various chemical reactions and reagents to synthesize the compound.
One of the most commonly used methods for the synthesis of TERT-BUTYL N-(2-THIENYL)CARBAMATE is the reaction between N-(2-thienyl)acetamide and butyraldehyde in the presence of an acid catalyst.
The reaction produces N-(2-thienyl)carbamate, which on hydrolysis with water, gives TERT-BUTYL N-(2-THIENYL)CARBAMATE.
Another method for the synthesis of TERT-BUTYL N-(2-THIENYL)CARBAMATE is the reaction between 2-thiothiazolidine and butyraldehyde in the presence of an acid catalyst.
The reaction produces N-(2-thienyl)carbamate, which on hydrolysis with water, gives TERT-BUTYL N-(2-THIENYL)CARBAMATE.
Biotechnological Synthesis:
Biotechnological synthesis is a relatively new and environmentally friendly method for the production of TERT-BUTYL N-(2-THIENYL)CARBAMATE.
This method involves the use of microorganisms such as bacteria and fungi to synthesize the compound.
One of the most commonly used bacteria for the synthesis of TERT-BUTYL N-(2-THIENYL)CARBAMATE is Mycobacterium thiophilum.
This bacteria can convert 2-thiothiazolidine to N-(2-thienyl)carbamate, which on hydrolysis with water, gives TERT-BUTYL N-(2-THIENYL)CARBAMATE.
Advantages of Synthetic Routes of TERT-BUTYL N-(2-THIENYL)CARBAMATE:
The synthetic routes of TERT-BUTYL N-(2-THIENYL)CARBAMATE have several advantages over the traditional methods of synthesizing this compound.
The chemical synthesis methods are relatively simple and can be easily scaled up for commercial production.
They also offer better control over the reaction conditions, which results in a higher yield of the product.
The biotechnological synthesis methods are environmentally friendly and do not involve the use of hazardous chemicals.
They also offer a cost-effective way of synthesizing TERT-BUTYL N-(2-THIENYL)CARBAMATE.
Conclusion:
In conclusion, the synthetic routes of TERT-BUTYL N-(2-THIENYL)CARBAMATE are a crucial aspect of the chemical industry and are used widely in various
