Remarkable luminescent carbon quantum dots: green synthesis from orange juice using microplasma-liquid method

IF 2.1 4区材料科学 Q3 CHEMISTRY, PHYSICAL Fullerenes, Nanotubes and Carbon Nanostructures Pub Date : 2023-11-10 DOI:10.1080/1536383x.2023.2274917

Minh Hoa Nguyen, Duc Toan Le, Hoang Tung Do, Anh Thi Le

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Abstract

AbstractGreen carbon quantum dots (CQDs) were fabricated through microplasma-liquid interactions, involving the treatment of an orange juice solution at atmospheric pressure and room temperature. Morphological analyses of the CQDs revealed a spherical shape with an average size of approximately 2.5 nm. The emission peak at a wavelength of 440 nm was observed for the blue emissive CQDs, with an excitation wavelength of 350 nm. The CQDs exhibited excellent luminescence activity, with emission dependent on the excitation wavelength, shifting towards longer wavelengths. The Raman spectrum of the CQDs displayed two peaks at 1425.3 and 1625.4 cm−1, representing predominantly disorder and graphitic bands. These green-synthesized CQDs possess tunable luminescence and biocompatibility, making them promising candidates for potential applications in biolabelling, antibacterial agents and optoelectronics.Keywords: Carbon quantum dotPhotoluminescenceOrange juiceMicroplasma Disclosure statementAll authors state that there is no conflict of interest.Additional informationFundingThis work is supported by the Foundation for Science and Technology of Hue University [Grant No. DHH2022-04-180].

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显著发光碳量子点:用微等离子体-液相法从橙汁中合成绿色碳量子点

摘要利用微等离子体与液体的相互作用，在常压和室温条件下制备了绿色碳量子点(CQDs)。形态学分析显示CQDs为球形，平均尺寸约为2.5 nm。当激发波长为350 nm时，蓝色发光CQDs的发射峰位于440 nm处。CQDs表现出优异的发光活性，其发光随激发波长的变化而向更长的波长偏移。CQDs的拉曼光谱在1425.3和1625.4 cm−1处有两个峰，主要表现为无序带和石墨带。这些绿色合成的CQDs具有可调谐的发光和生物相容性，使它们在生物标记、抗菌剂和光电子领域具有潜在的应用前景。关键词:碳量子点光致发光橙汁微等离子体披露声明所有作者声明无利益冲突。本研究由顺化大学科学技术基金资助[批准号:No. 5]。dhh2022 - 04 - 180]。

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来源期刊

Fullerenes, Nanotubes and Carbon Nanostructures 工程技术-材料科学：综合

CiteScore

4.80

自引率

17.40%

发文量

审稿时长

1 months

期刊介绍： The international and interdisciplinary forum, Fullerenes, Nanotubes, and Carbon Nanostructures , aims at publishing peer-reviewed research of original work in all areas of CARBON research including fullerenes, nanotubes, nanodiamond, graphene, any type of carbon nanostructure and any work dealing with carbon and carbon-related topics. Publishing high quality papers from all fields of carbon science and related topics, the journal intends to provide a means of communication between researchers who are interested in fundamental and applied carbon science issues.