用于时分双工的寿命工程化碳纳米点

Lifetime-Engineered Carbon Nanodots for Time Division Duplexing.

作者信息

Liang Ya-Chuan, Liu Kai-Kai, Wu Xue-Ying, Lou Qing, Sui Lai-Zhi, Dong Lin, Yuan Kai-Jun, Shan Chong-Xin

机构信息

Henan Key Laboratory of Diamond Optoelectronic Material and Devices School of Physics and Microelectronics Zhengzhou University Zhengzhou 450001 China.

State Key Laboratory of Molecular Reaction Dynamics Dalian Institute of Chemical Physics Chinese Academy of Sciences 457 Zhongshan Road Dalian 116023 China.

出版信息

Adv Sci (Weinh). 2021 Feb 1;8(6):2003433. doi: 10.1002/advs.202003433. eCollection 2021 Mar.

DOI:10.1002/advs.202003433

PMID:33747738

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7967062/

Abstract

Optical multiplexing attracts considerable attention in the field of information encryption, optical probe, and time-resolved bioimaging. However, the optical multiplexing based on rare-earth nanoparticles suffers from heavy metal elements and relatively short lifetimes; sophisticated facilities are thus needed. Herein, time division duplexing based on eco-friendly carbon nanodots (CNDs) with manipulative luminescence lifetimes is demonstrated. In a single green color emission channel, the luminescence lifetimes of the CNDs can be manipulated from nanosecond level to second level by introducing water, while the lifetime of the CNDs confined by a silica shell stays. Time division duplexing based on the CNDs and CNDs@silica with distinct lifetimes is realized and spatio-temporal overlapping information is thus resolved. High-level information encryption using the time division duplexing technology is realized. This work may promise the potential applications of CNDs in multi-lifetime channels biological imaging, high-density information storage, and anti-counterfeiting.

摘要

光学复用在信息加密、光学探针和时间分辨生物成像领域引起了广泛关注。然而，基于稀土纳米粒子的光学复用存在重金属元素且寿命相对较短的问题，因此需要复杂的设备。在此，展示了基于具有可控发光寿命的环保型碳纳米点（CNDs）的时分双工技术。在单一绿色发射通道中，通过引入水，碳纳米点的发光寿命可从纳秒级调控至秒级，而被二氧化硅壳层限制的碳纳米点的寿命保持不变。基于具有不同寿命的碳纳米点和碳纳米点@二氧化硅实现了时分双工，从而解决了时空重叠信息问题。利用时分双工技术实现了高级信息加密。这项工作有望使碳纳米点在多寿命通道生物成像、高密度信息存储和防伪等方面具有潜在应用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8b72/7967062/fdc71f355315/ADVS-8-2003433-g006.jpg

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用于时分双工的寿命工程化碳纳米点

Lifetime-Engineered Carbon Nanodots for Time Division Duplexing.

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