使用不含化学物质的前驱体提高碳量子点的量子产率，以传感六价铬离子

Inorganics Pub Date : 2024-03-28 DOI:10.3390/inorganics12040096

Karthiga Anpalagan, Hong Yin, Ivan Cole, Tianchi Zhang, Daniel T. H. Lai

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摘要

量子产率说明了荧光团将激发光转化为荧光发射的效率。碳量子点（CQDs）的量子产率可以通过前驱体、制造条件、化学掺杂和表面改性来改变。在这项研究中，首先采用无化学物质的水热法从全麦面包中制备出了碳量子点，并获得了较低的量子产率（0.81%）。将全麦面包、大豆粉和柠檬汁混合后生成的 CQDs 的量子产率提高了近四倍。详细的表征结果表明，这些 CQDs 经过了更彻底的水热反应，并具有齐聚物表面。这些 CQDs 可以选择性地检测 Cr (VI) 离子，检测限 (LOD) 为 8 ppm。这项研究表明，提高 CQDs 的量子产率不需要化学品，而且可以用食物前体来实现。

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Quantum Yield Enhancement of Carbon Quantum Dots Using Chemical-Free Precursors for Sensing Cr (VI) Ions

Quantum yield illustrates the efficiency that a fluorophore converts the excitation light into fluorescence emission. The quantum yield of carbon quantum dots (CQDs) can be altered via precursors, fabrication conditions, chemical doping, and surface modifications. In this study, CQDs were first fabricated from whole-meal bread using a chemical-free hydrothermal route, and a low quantum yield (0.81%) was obtained. The combination of whole-meal bread, soybean flour, and lemon juice generated CQDs with almost four folds of enhancement in quantum yield. Detailed characterization suggested that these CQDs were subjected to more complete hydrothermal reactions and had zwitterionic surfaces. The CQDs could selectively detect Cr (VI) ions with a limit of detection (LOD) of 8 ppm. This study shows that the enhancement of the quantum yield of CQDs does not need chemicals, and it is achievable with food precursors.

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Inorganics

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