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    Home > Medical News > Medical World News > The Synthetic Routes of 6-BROMO-3-CHLOROISOQUINOLINE

    The Synthetic Routes of 6-BROMO-3-CHLOROISOQUINOLINE

    • Last Update: 2023-05-11
    • Source: Internet
    • Author: User
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    6-Bromo-3-chloroisoquoline is a commonly used compound in the chemical industry, and it can be synthesized through several different routes.
    In this article, we will discuss some of the most commonly used synthetic routes for 6-bromo-3-chloroisoquoline.


    Route 1: Via Hydrolysis of N-Bromo-3-Chloro-N-methylaniline


    One of the most common methods for synthesizing 6-bromo-3-chloroisoquoline is through the hydrolysis of N-bromo-3-chloro-N-methylaniline.
    This reaction involves the treatment of N-bromo-3-chloro-N-methylaniline with water, which leads to the formation of 6-bromo-3-chloroisoquoline.
    This reaction is relatively simple and easy to perform, making it a popular choice in the chemical industry.


    Route 2: Via Nitration of 3-Chloro-1,2-dimethylisoindoline


    Another method for synthesizing 6-bromo-3-chloroisoquoline is through the nitration of 3-chloro-1,2-dimethylisoindoline.
    This reaction involves the treatment of 3-chloro-1,2-dimethylisoindoline with nitric acid, which leads to the formation of 6-bromo-3-chloroisoquoline.
    This reaction is also relatively simple and easy to perform, making it a popular choice in the chemical industry.


    Route 3: Via Nitration of N-Chlorosuccinimide


    6-bromo-3-chloroisoquoline can also be synthesized through the nitration of N-chlorosuccinimide.
    This reaction involves the treatment of N-chlorosuccinimide with nitric acid, which leads to the formation of 6-bromo-3-chloroisoquoline.
    This reaction is relatively straightforward, but it does require the use of nitric acid, which can be hazardous if proper precautions are not taken.


    Route 4: Via Reduction of N-Bromo-3-Chloro-N-methylbenzamide


    6-bromo-3-chloroisoquoline can also be synthesized through the reduction of N-bromo-3-chloro-N-methylbenzamide.
    This reaction involves the treatment of N-bromo-3-chloro-N-methylbenzamide with hydrogen in the presence of a catalyst, such as palladium on barium oxide, which leads to the formation of 6-bromo-3-chloroisoquoline.
    This reaction requires the use of specialized equipment and is more complicated than some of the other synthetic routes.


    In conclusion, there are several different synthetic routes that can be used to synthesize 6-bromo-3-chloroisoquoline, each with its own advantages and disadvantages.
    The choice of synthetic route will depend on various factors, such as the availability of starting materials, the desired yield, and the safety considerations for the reaction.



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