Acyloxy, sulfate, and phosphate radicals as hydrogen atom transfer (HAT) agents for direct C(sp3)–H functionalization

RSC sustainability Pub Date : 2024-09-23 DOI:10.1039/D4SU00520A

Jia-Lin Tu and Binbin Huang

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Abstract

Selective activation of inert and ubiquitous C(sp³)–H bonds has long been a challenging task in organic synthesis, through which chemists can directly synthesize value-added compounds from inexpensive and readily available alkane feedstocks. By means of modern photochemistry, electrochemistry, as well as traditional thermochemistry, diverse hydrogen atom transfer (HAT) protocols have been established, employing various radicals, especially oxygen-centered ones, as the HAT agents. This review focuses on three unique classes of oxygen radicals, namely acyloxy, sulfate, and phosphate radicals, which have demonstrated significant potential for achieving direct intermolecular C(sp³)–H bond functionalization via HAT pathways. By focusing on the key developments from 2014 to 2024, this review discusses the generation mechanisms, reactivity characteristics and applications of these acid-related oxygen radicals, aiming to provide researchers with insights to further advance the techniques and innovations in the future C(sp³)–H functionalization strategy development.

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酰氧基、硫酸根和磷酸根作为氢原子转移 (HAT) 剂直接实现 C（sp3）-H 功能化

长期以来，选择性活化惰性且无处不在的 C（sp3）-H 键一直是有机合成中一项具有挑战性的任务，通过这项任务，化学家们可以直接从廉价且易于获得的烷烃原料中合成出具有附加值的化合物。通过现代光化学、电化学以及传统的热化学手段，已经建立了多种氢原子转移（HAT）方案，采用各种自由基，尤其是氧中心自由基作为氢原子转移剂。本综述将重点介绍三类独特的氧自由基，即酰氧基、硫酸根和磷酸根自由基，它们在通过 HAT 途径实现分子间 C(sp3)-H 键直接官能化方面表现出了巨大的潜力。本综述通过聚焦 2014 年至 2024 年的主要发展，讨论了这些与酸相关的氧自由基的生成机理、反应特性和应用，旨在为研究人员提供见解，以便在未来的 C(sp3)-H 功能化策略开发中进一步推进技术和创新。

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