用于紫外和pH双加密荧光油墨的超亮荧光碳点合成的严格二次迭代优化策略

Strict Twice Iterative Optimization Strategy to Synthesize Ultrabright Fluorescent Carbon Dots for UV and pH Dual-Encryption Fluorescent Ink.

作者信息

Xiang Jiamei, Li Ruixue, Long Xiang, Wu Shaogui, Wang Jiayang, Wang Zhuo

机构信息

College of Chemistry and Materials Science, Sichuan Normal University, Chengdu 610066, China.

Department of Resources & Environment, Chengdu University of Information Technology, Chengdu 610041, China.

出版信息

ACS Omega. 2022 Aug 17;7(34):29952-29958. doi: 10.1021/acsomega.2c02949. eCollection 2022 Aug 30.

DOI:10.1021/acsomega.2c02949

PMID:36061698

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9434782/

Abstract

In this work, ultrabright fluorescent carbon dots (U-CDs) were synthesized by using a strict twice iterative optimization strategy. Their relative photoluminescence (PL) quantum yield is close to 100%, exceeding most of the reported fluorescent CDs and greatly boosting the practical applications of fluorescent CDs in many fields. Then serving as fluorescent anti-counterfeiting ink was taken as an example to briefly introduce the application of the U-CDs. The PL emission of the U-CDs is quenched at the range of pH < 4 or pH > 11 and restored at the range of pH = 5-10. This pH-sensitive PL feature allows the U-CDs to be used as fluorescent ink for pH and UV dual information encryption. The written or printed information is invisible under daylight but visible under UV light. After acid treatment or alkali treatment, the information is invisible even under a UV lamp but visible after neutralization treatment. This work provides a standardized scheme for optimizing the synthesis conditions of fluorescent CDs and paves the way for large-scale production of high-performance fluorescent CDs.

摘要

在这项工作中，采用严格的两次迭代优化策略合成了超亮荧光碳点（U-CDs）。它们的相对光致发光（PL）量子产率接近100%，超过了大多数已报道的荧光碳点，并极大地推动了荧光碳点在许多领域的实际应用。然后以用作荧光防伪油墨为例，简要介绍了U-CDs的应用。U-CDs的PL发射在pH < 4或pH > 11的范围内猝灭，在pH = 5 - 10的范围内恢复。这种对pH敏感的PL特性使U-CDs能够用作pH和紫外线双重信息加密的荧光油墨。书写或印刷的信息在日光下不可见，但在紫外线下可见。经过酸处理或碱处理后，即使在紫外灯下信息也不可见，但中和处理后可见。这项工作为优化荧光碳点的合成条件提供了标准化方案，并为大规模生产高性能荧光碳点铺平了道路。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/2419/9434782/0bbb475e5492/ao2c02949_0002.jpg

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用于紫外和pH双加密荧光油墨的超亮荧光碳点合成的严格二次迭代优化策略

Strict Twice Iterative Optimization Strategy to Synthesize Ultrabright Fluorescent Carbon Dots for UV and pH Dual-Encryption Fluorescent Ink.

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