具有可控理化特性的荧光碳量子点奇妙地应用于新兴领域:综述

Wenbo You, Wentao Zou, Siyi Jiang, Jiahao Zhang, Yunchen Ge, Gui Lu, Detlef W. Bahnemann, Jia Hong Pan
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引用次数: 0

摘要

过去十年来,碳量子点(CQDs)因其可调的光学特性、强大的光稳定性、多功能的表面功能化和掺杂潜力、低毒性以及利用环境友好型前体直接合成等特点,已成为发光纳米材料领域的主要竞争者。在本综述中,我们首先简要介绍了自上而下和自下而上的 CQDs 环保合成策略。随后,我们将全面考察 CQDs 的结构和光学特性,包括其紫外-可见吸收特性、表面约束效应以及有助于室温光致发光 (PL) 的表面态发射。本综述将继续阐释 CQDs 改性策略的最新进展,尤其侧重于表面氧化、钝化和杂原子的结合。这些策略有助于控制物理化学特性,通过装饰高可见光响应性的 CQDs 来增强 PL。这种增强是通过抑制电子-空穴对的非辐射性重组、实现 CQDs 的红/蓝偏移以产生全色发射光谱,以及调节带隙和表面状态以拓宽光吸收范围来实现的。最后,我们概述了荧光 CQDs 应用领域的最新发展,强调了它们在生物医学、荧光传感器、照明和显示以及光催化方面的实用性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Fluorescent carbon quantum dots with controllable physicochemical properties fantastic for emerging applications: A review

Fluorescent carbon quantum dots with controllable physicochemical properties fantastic for emerging applications: A review

Carbon quantum dots (CQDs) have emerged as prominent contenders in the realm of luminescent nanomaterials over the past decade owing to their tunable optical properties, robust photostability, versatile surface functionalization and doping potential, low toxicity, and straightforward synthesis utilizing environmentally friendly precursors. In this review, we commence with a concise introduction, presenting both top-down and bottom-up strategies for the eco-friendly synthesis of CQDs. Subsequently, we delve into a comprehensive examination of CQDs' structure and optical characteristics, encompassing their ultraviolet–visible absorption properties, surface confinement effects, and surface state emissions contributing to room-temperature photoluminescence (PL). This review proceeds to elucidate recent advancements in modification strategies for CQDs, specifically focusing on surface oxidation, passivation, and the incorporation of heteroatoms. These strategies serve to afford control over the physicochemical properties, facilitating the enhancement of PL through the decoration of highly visible-responsive CQDs. This enhancement is achieved by suppressing the nonradiative recombination of electron-hole pairs, enabling red/blue shifts in CQDs for the generation of a full-color emission spectrum, and regulating the band-gap and surface states to broaden the photoabsorption range. Finally, we offer an overview of the most recent developments in the applications of fluorescent CQDs, emphasizing their utility in biomedicine, fluorescent sensors, lighting, and displays, as well as photocatalysis.

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