A sustainable synthesis and applications of biomass waste-derived tunable fluorescent carbon dots: In vitro and in vivo fluorescent imaging

IF 4.1 3区化学 Q2 CHEMISTRY, PHYSICAL

Journal of Photochemistry and Photobiology A-chemistry Pub Date : 2024-08-06 DOI:10.1016/j.jphotochem.2024.115944

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Abstract

Different heteroatoms introduced to carbon dots (CDs) have been used extensively owing to their excellent optical properties, simple synthesis method, and multifunctional applications such as environmental detection, multicolor cell imaging, and gene therapy/delivery. Nitrogen and sulfur codoped carbon dots (PSNCDs) were prepared using persimmon fruit (Diospyros kaki) peel biomass waste and sodium thiosulphate by the straight route, showing excellent optical properties. The resulting PSNCDs exhibit consistent fluorescence emission at 440 nm under excitation at 360 nm, with a high quantum yield (approximately 16 %), making them suitable for a range of applications, including bioimaging, drug delivery, sensing, catalysts, and so on. The as-synthesized PSNCDs were subjected to various analytical methods to confirm their morphology and surface functionalization. High-resolution transmission electron microscopy displayed that the PSNCDs are predominately 2–4 nm with an average size of around 3 nm. Fourier-transform infrared and X-ray photoelectron spectroscopy analysis confirmed the amine and sulfur functional moieties on the outer surfaces and edges of the PSNCDs. The uniform particle size distribution and structural morphology were confirmed by transmission electron microscopy analysis. The Raman and X-ray diffraction investigation reveals that the as-synthesized PSNCDs appeared to be defective graphite-like structures with an intensity ratio of D to G is 0.65. Furthermore, PSNCDs were also utilized as fluorescent probes for cellular imaging. PSNCDs exhibited enhanced biocompatibility (cell viability 98 %) with regular fibroblast cells; in both in vitro and in vivo scenarios, they exhibited robust fluorescence signals upon fluorescent imaging of cultured fibroblast cells. These characteristics collectively validate the potential of PSNCDs for cell imaging without the need for supplementary modifications.

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生物质废物衍生可调荧光碳点的可持续合成与应用：体外和体内荧光成像

由于碳点具有优异的光学性能、简单的合成方法以及环境检测、多色细胞成像和基因治疗/递送等多功能应用，碳点中引入的不同杂原子已被广泛使用。本研究利用柿子果皮生物质废料和硫代硫酸钠，通过直接法制备了氮硫共掺杂碳点（PSNCDs），显示出优异的光学特性。所制备的 PSNCD 在 360 纳米波长的激发下，在 440 纳米波长处发出稳定的荧光，量子产率高（约 16%），适合用于生物成像、药物输送、传感、催化剂等一系列应用。对合成的 PSNCD 进行了各种分析，以确认其形态和表面功能化。高分辨率透射电子显微镜显示，PSNCD 主要为 2-4 纳米，平均尺寸约为 3 纳米。傅立叶变换红外光谱和 X 射线光电子能谱分析证实了 PSNCD 外表面和边缘的胺和硫功能分子。透射电子显微镜分析证实了均匀的粒度分布和结构形态。拉曼和 X 射线衍射研究表明，合成的 PSNCD 具有缺陷石墨样结构，D 与 G 的强度比为 0.65。此外，PSNCDs 还被用作细胞成像的荧光探针。PSNCD 与普通成纤维细胞具有更强的生物相容性（细胞存活率为 98%）；在体外和体内情况下，对培养的成纤维细胞进行荧光成像时，PSNCD 都能显示出强大的荧光信号。这些特点共同验证了 PSNCD 无需辅助修饰即可用于细胞成像的潜力。

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来源期刊

Journal of Photochemistry and Photobiology A-chemistry 化学-物理化学

CiteScore

7.90

自引率

7.00%

发文量

580

审稿时长

48 days

期刊介绍： JPPA publishes the results of fundamental studies on all aspects of chemical phenomena induced by interactions between light and molecules/matter of all kinds. All systems capable of being described at the molecular or integrated multimolecular level are appropriate for the journal. This includes all molecular chemical species as well as biomolecular, supramolecular, polymer and other macromolecular systems, as well as solid state photochemistry. In addition, the journal publishes studies of semiconductor and other photoactive organic and inorganic materials, photocatalysis (organic, inorganic, supramolecular and superconductor). The scope includes condensed and gas phase photochemistry, as well as synchrotron radiation chemistry. A broad range of processes and techniques in photochemistry are covered such as light induced energy, electron and proton transfer; nonlinear photochemical behavior; mechanistic investigation of photochemical reactions and identification of the products of photochemical reactions; quantum yield determinations and measurements of rate constants for primary and secondary photochemical processes; steady-state and time-resolved emission, ultrafast spectroscopic methods, single molecule spectroscopy, time resolved X-ray diffraction, luminescence microscopy, and scattering spectroscopy applied to photochemistry. Papers in emerging and applied areas such as luminescent sensors, electroluminescence, solar energy conversion, atmospheric photochemistry, environmental remediation, and related photocatalytic chemistry are also welcome.

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