What question did this study set out to answer?

The research aims to explore strategies for stabilizing and regulating radicals through supramolecular approaches.

June 10, 2026

Supramolecular Radical Chemistry: Self-Assembly and Spin Regulation

Key Points

The research aims to explore strategies for stabilizing and regulating radicals through supramolecular approaches.
Systematic review of advancements in supramolecular radical chemistry.
Analysis of molecular recognition and spin regulation patterns in host-guest systems.
Examination of applications in catalytic conversion and self-assembly monitoring.
Identified mechanisms for radical stabilization and controlled generation.
Demonstrated the relationship between structure, properties, and functionalities of supramolecular radicals.
Outlined key challenges and future directions for molecular design and system optimization.

Abstract

自由基作为开壳层物种，在有机合成与功能材料中具有重要作用，但其高反应活性与短寿命导致稳定性差、调控困难，限制了实际应用. 超分子化学通过非共价相互作用构筑限域空间与可调微环境，为活性物种的稳定与调控提供了新策略. 超分子自由基化学作为传统自由基化学和超分子化学的交叉研究方向，主要是利用超分子主体实现自由基的可控生成、稳定及自旋与反应行为调控，从而突破传统自由基体系的局限. 本文系统梳理了超分子自由基领域的研究进展，包括基于配位自组装与共价构筑的主体设计及其稳定机制、主客体体系中的分子识别与自旋调控规律、以及在催化转化与自组装监测中的应用潜力. 最后分析了自由基可控生成与稳定、结构–性质–功能关系及机制表征等关键挑战，并对面向应用的分子设计与体系优化进行了展望.

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Authors

Bin Huang

Xueliang Shi

Haibo Yang

Journals

Scientia Sinica Chimica

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Supramolecular Radical Chemistry: Self-Assembly and Spin Regulation

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Abstract

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