The roles of intermediate fluorophores on the optical properties of bottom-up synthesized carbon nanodots

HPU2 Journal of Science Natural Sciences and Technology Pub Date : 2023-08-31 DOI:10.56764/hpu2.jos.2023.2.2.68-82

Duy-Khanh Nguyen, Thanh-Son Le, Quang-Trung Le, Xuan-Dung Mai

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Abstract

Carbon nanodots (CNDs) are the latest nano-sized carbon materials having unique properties such as biocompatible, highly photoluminescent, and nontoxic which are suitable for diverse applications including lighting, sensing, bioimaging, and biochemical analyzing. CNDs could be synthesized by top-down methods in which graphite is fragmented into nano-sized graphene dots. Alternatively, CNDs could be formed by a bottom-up synthetic strategy where organic molecules are fused together via complex condensation and carbonization processes. Although a great number of organic molecules have been used successfully to prepare CNDs there are very few CNDs that exhibit the quantum size effects. The absorption and emission properties of bottom-up synthesized CNDs rely vastly on molecular-like fluorophores which are the intermediates formed during the fusion of molecular precursors and are incorporated into CNDs in the later states of carbonization processes. This review aims to demonstrate recent understandings on the formation of intermediate fluorophores and their contribution to the optical properties of CNDs

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中间荧光团对自下而上合成碳纳米点光学性质的影响

碳纳米点(CNDs)是最新的纳米级碳材料，具有生物相容性、高光致发光和无毒等独特性能，适合于照明、传感、生物成像和生化分析等多种应用。CNDs可以通过自上而下的方法合成，在这种方法中，石墨被破碎成纳米级的石墨烯点。另外，CNDs可以通过自下而上的合成策略形成，其中有机分子通过复杂的缩合和碳化过程融合在一起。虽然大量的有机分子已经被成功地用于制备CNDs，但很少有CNDs表现出量子尺寸效应。自下而上合成的CNDs的吸收和发射特性在很大程度上依赖于类分子荧光团，这些荧光团是在分子前体融合过程中形成的中间体，并在碳化过程的后期状态中被纳入CNDs中。本文综述了近年来对中间荧光团的形成及其对CNDs光学性质的贡献的理解

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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HPU2 Journal of Science Natural Sciences and Technology

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