Diversity-oriented synthesis is a powerful and interesting synthetic tool for the rapid construction of structurally complex and privileged scaffolds from readily accessible starting materials. To date, diversity-oriented synthesis mostly relies on the employment of versatile reagents. Versatile reagents can be regulated as controllable and flexible building blocks for multipurpose utilizations. Over the past decade, a variety of multifunctional reagents have been developed. However, most versatile reagents usually need multi-step synthesis, thus restricting their wide application to a large extent. In terms of the practicalities and universalities, we prefer to pay more attention to the utilization of simple and practical versatile reagents with multiple reactivities, mainly including atropaldehyde acetals, aryl methyl ketones, vinylene carbonate, vinyl azides, aryldiazonium salts, rongalite, halodifluoromethyl compounds. Most importantly, these versatile reagents can also play different roles simultaneously in the same reaction, in which their different reactivities are converged into the final target products. Such strategy can not only offer more possibilities for the synthesis of several active pharmaceutical ingredients, but also minimize the occurrence of some side reactions by lessening the varieties of materials. Also, a perspective is given at the end of this review.

Recent advances of versatile reagents as controllable building blocks in organic synthesis

Vaccaro L.;
2024

Abstract

Diversity-oriented synthesis is a powerful and interesting synthetic tool for the rapid construction of structurally complex and privileged scaffolds from readily accessible starting materials. To date, diversity-oriented synthesis mostly relies on the employment of versatile reagents. Versatile reagents can be regulated as controllable and flexible building blocks for multipurpose utilizations. Over the past decade, a variety of multifunctional reagents have been developed. However, most versatile reagents usually need multi-step synthesis, thus restricting their wide application to a large extent. In terms of the practicalities and universalities, we prefer to pay more attention to the utilization of simple and practical versatile reagents with multiple reactivities, mainly including atropaldehyde acetals, aryl methyl ketones, vinylene carbonate, vinyl azides, aryldiazonium salts, rongalite, halodifluoromethyl compounds. Most importantly, these versatile reagents can also play different roles simultaneously in the same reaction, in which their different reactivities are converged into the final target products. Such strategy can not only offer more possibilities for the synthesis of several active pharmaceutical ingredients, but also minimize the occurrence of some side reactions by lessening the varieties of materials. Also, a perspective is given at the end of this review.
2024
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11391/1574377
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