2024年12月10日，Scilight Press 旗下期刊《Science for Energy and Environment》在线发表了国家级特聘人才、国家能源氢能与氨氢融合新能源技术重点实验室/佛山仙湖实验室的蒋三平教授、佛山市B类高层次人才黎景卫博士和云南师范大学化学与化工学院高端引进人才李如春博士合作的最新成果《Recent Progress on Layered Double Hydroxides for Electrocatalytic Small Molecules Oxidation to Synthesize High-Value Chemicals and Degrade Pollutants》。佛山仙湖实验室蒋三平教授、黎景卫博士和云南师范大学化学化工学院李如春博士为共同通讯作者。

Abstract

Researchers worldwide are developing innovative luminescent systems with exceptional features like high sensitivity. Luminescent frameworks based on aggregation-induced emission (AIE) have emerged as promising candidates for various applications. Over the past decade, porous materials like metal-organic cages (MOCs) incorporating AIE luminogens (AIEgens) have demonstrated exceptional performance. Chirality plays a significant role in specific non-racemic luminescent systems, particularly circularly polarized luminescence (CPL).Chiral organic materials coordinated with metals, including MOCs, have gained importance as they combine organic ligands and coordination-bonded metal centers, enabling the design of novel structures with CPL. These materials have shown exciting potential applications in fields like CPL-OLED, chiral recognition, and sensing. This review article provides an overview of the recent progress in emissive porous materials, specifically MOCs, and their possible applications. Additionally, the review focuses on the recent progress in AIEgen-based cages, CPL-active cages, and non-AIEgen-based cages, their practical applications in sensing and enantioselectivity, and future prospects. Key challenges in AIE-based POCs and MOCs include limited stability, affecting their use in wide-surface thin films, and the need to understand molecular structure and topology impacts. Future efforts should enhance luminescence efficiency and explore applications in chiral sensing, supramolecular assemblies, bioimaging, and optoelectronics, driving innovation in smart materials.

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本文内容来自Science for Energy and Environment (SEE)第1卷第1期发表的《Recent Progress on Layered Double Hydroxides for Electrocatalytic Small Molecules Oxidation to Synthesize High-Value Chemicals and Degrade Pollutants》。

引用格式：Ge, Z.-Q., Chu, C., Wang, C., Li, R., Li, J., & Jiang, S. P. Recent Progress on Layered Double Hydroxides for Electrocatalytic Small Molecules Oxidation to Synthesize High-Value Chemicals and Degrade Pollutants. Science for Energy and Environment. 2024, 1(1), 10.

DOI:https://doi.org/10.53941/see.2024.1000010

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