What question did this study set out to answer?

This research aims to diversify trityl radicals using radical-polar crossover methods with various nucleophiles.

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May 16, 2026

Diversifying Trityl Radicals via Oxidative Radical-Polar Crossover in Tandem with Aromatic Nucleophilic Substitution

Key Points

This research aims to diversify trityl radicals using radical-polar crossover methods with various nucleophiles.
Utilized a range of N-, S-, P-, and C-centered nucleophiles in the synthesis.
Employed iterative oxidative radical-polar crossover reactions for both symmetric and asymmetric trityl derivatives.
Assessed regioselectivity and yields compared to existing methods.
Achieved yields 1.5-2 fold higher than those reported in the literature.
Demonstrated high regioselectivity for the monofunctionalization of a single aryl ring.
Successfully synthesized a diverse array of trityl derivatives, enhancing the scope of their applications.

Abstract

Ar) with a diverse range of nucleophiles to afford various trityl derivatives. This method exhibits several notable advantages: (1) wide substrate scope, compatible with N-, S-, P-, and C-centered nucleophiles, including water-sensitive organozinc reagents; (2) high regioselectivity for monofunctionalization of a single aryl ring, avoiding statistical reaction mixtures; (3) iterative ORPC reaction which enables the synthesis of both symmetric trityls with three identical substituents and asymmetric trityls with three distinct substituents; (4) significantly improved yields which are 1.5-2 fold higher than those reported in the literature. This straightforward approach provides a powerful tool for tailoring trityl radicals to advance their applications in the fields of EPR and DNP.

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