Unlocking the Potential of Different Types of Biomass-Derived Carbon Dots as Fluorescence Lifetime Imaging Probes

IF 3 4区化学 Q3 CHEMISTRY, PHYSICAL ChemPhotoChem Pub Date : 2024-05-24 DOI:10.1002/cptc.202400133

María Rosell, Verónica Torregrosa-Rivero, Diego Herrera-Ochoa, Andrés Garzón-Ruiz, Javier García-Martínez, Elena Serrano, Cristina Martín

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Abstract

The ongoing search for innovative and environmentally friendly luminescent materials coupled with customizable physical and chemical properties at the nanoscale positions carbon dots (CDots) as ideal candidates for photonic applications. However, even today, their rational design for specific applications remains elusive due to the unknown relationship between optical and structural properties. Therefore, this study aims to fill this gap by linking the chemical structure of the precursor and synthetic conditions to the final structural composition of the CDots and, by extension, to their optical properties. The study shows that while CDots are chemically stable, their optical properties, which are determined by the carbonaceous core and surface groups, are highly pH dependent. These properties, together with the long fluorescence lifetimes observed in living cells (>10 ns), make these biomass-derived CDots promising probes for time-resolved fluorescence imaging.

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挖掘不同类型生物质衍生碳点作为荧光寿命成像探针的潜力

人们一直在寻找创新的环保型发光材料，这些材料具有可定制的纳米级物理和化学特性，因此碳点（CDots）成为光子应用的理想候选材料。然而，时至今日，由于光学和结构特性之间的未知关系，针对特定应用的合理设计仍然难以实现。因此，本研究旨在填补这一空白，将前驱体的化学结构和合成条件与碳点的最终结构组成联系起来，并进而与它们的光学特性联系起来。研究表明，虽然 CDots 化学性质稳定，但其光学特性却高度依赖于 pH 值，而 pH 值则由碳质核心和表面基团决定。这些特性以及在活细胞中观察到的较长的荧光寿命（> 10 ns），使这些生物质衍生的 CDots 成为时间分辨荧光成像的理想探针。

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