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The quenching of the fluorescence of carbon dots: A review on mechanisms and applications

Carbon dots (CDs) possess unique optical properties such as tunable photoluminescence (PL) and excitation dependent multicolor emission. The quenching and recovery of the fluorescence of CDs can be utilized for detecting analytes. The PL mechanisms of CDs have been discussed in previous articles, bu... Full description

Journal Title: Mikrochimica acta (1966) 2017, Vol.184 (7), p.1899-1914
Main Author: Zu, Fanlin
Other Authors: Yan, Fanyong , Bai, Zhangjun , Xu, Jinxia , Wang, Yinyin , Huang, Yicun , Zhou, Xuguang
Format: Electronic Article Electronic Article
Language: English
Subjects:
Publisher: Vienna: Springer Vienna
ID: ISSN: 0026-3672
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recordid: cdi_proquest_journals_1968549981
title: The quenching of the fluorescence of carbon dots: A review on mechanisms and applications
format: Article
creator:
  • Zu, Fanlin
  • Yan, Fanyong
  • Bai, Zhangjun
  • Xu, Jinxia
  • Wang, Yinyin
  • Huang, Yicun
  • Zhou, Xuguang
subjects:
  • Analytical Chemistry
  • Carbon
  • Characterization and Evaluation of Materials
  • Chemistry
  • Chemistry and Materials Science
  • Electron transfer
  • Electron transport
  • Emission
  • Energy transfer
  • Excitation
  • Fluorescence
  • Fretting
  • Imaging
  • Microengineering
  • Nanochemistry
  • Nanoparticles
  • Nanotechnology
  • Optical properties
  • Photoluminescence
  • Quenching
  • Quenching (cooling)
  • Recovery
  • Review Article
  • Surface energy
ispartof: Mikrochimica acta (1966), 2017, Vol.184 (7), p.1899-1914
description: Carbon dots (CDs) possess unique optical properties such as tunable photoluminescence (PL) and excitation dependent multicolor emission. The quenching and recovery of the fluorescence of CDs can be utilized for detecting analytes. The PL mechanisms of CDs have been discussed in previous articles, but the quenching mechanisms of CDs have not been summarized so far. Quenching mechanisms include static quenching, dynamic quenching, Förster resonance energy transfer (FRET), photoinduced electron transfer (PET), surface energy transfer (SET), Dexter energy transfer (DET) and inner filter effect (IFE). Following an introduction, the review (with 88 refs.) first summarizes the various kinds of quenching mechanisms of CDs (including static quenching, dynamic quenching, FRET, PET and IFE), the principles of these quenching mechanisms, and the methods of distinguishing these quenching mechanisms. This is followed by an overview on applications of the various quenching mechanisms in detection and imaging. Graphical abstract Schematic representation of the quenching mechanisms of carbon dots (CDs) which include static quenching, dynamic quenching, Förster resonance energy transfer (FRET), photoinduced electron transfer(PET), surface energy transfer (SET), Dexter energy transfer (DET) and inner filter effect (IFE). All these effects can be used to detect and image analytes.
language: eng
source:
identifier: ISSN: 0026-3672
fulltext: no_fulltext
issn:
  • 0026-3672
  • 1436-5073
url: Link


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titleThe quenching of the fluorescence of carbon dots: A review on mechanisms and applications
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descriptionCarbon dots (CDs) possess unique optical properties such as tunable photoluminescence (PL) and excitation dependent multicolor emission. The quenching and recovery of the fluorescence of CDs can be utilized for detecting analytes. The PL mechanisms of CDs have been discussed in previous articles, but the quenching mechanisms of CDs have not been summarized so far. Quenching mechanisms include static quenching, dynamic quenching, Förster resonance energy transfer (FRET), photoinduced electron transfer (PET), surface energy transfer (SET), Dexter energy transfer (DET) and inner filter effect (IFE). Following an introduction, the review (with 88 refs.) first summarizes the various kinds of quenching mechanisms of CDs (including static quenching, dynamic quenching, FRET, PET and IFE), the principles of these quenching mechanisms, and the methods of distinguishing these quenching mechanisms. This is followed by an overview on applications of the various quenching mechanisms in detection and imaging. Graphical abstract Schematic representation of the quenching mechanisms of carbon dots (CDs) which include static quenching, dynamic quenching, Förster resonance energy transfer (FRET), photoinduced electron transfer(PET), surface energy transfer (SET), Dexter energy transfer (DET) and inner filter effect (IFE). All these effects can be used to detect and image analytes.
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subjectAnalytical Chemistry ; Carbon ; Characterization and Evaluation of Materials ; Chemistry ; Chemistry and Materials Science ; Electron transfer ; Electron transport ; Emission ; Energy transfer ; Excitation ; Fluorescence ; Fretting ; Imaging ; Microengineering ; Nanochemistry ; Nanoparticles ; Nanotechnology ; Optical properties ; Photoluminescence ; Quenching ; Quenching (cooling) ; Recovery ; Review Article ; Surface energy
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abstractCarbon dots (CDs) possess unique optical properties such as tunable photoluminescence (PL) and excitation dependent multicolor emission. The quenching and recovery of the fluorescence of CDs can be utilized for detecting analytes. The PL mechanisms of CDs have been discussed in previous articles, but the quenching mechanisms of CDs have not been summarized so far. Quenching mechanisms include static quenching, dynamic quenching, Förster resonance energy transfer (FRET), photoinduced electron transfer (PET), surface energy transfer (SET), Dexter energy transfer (DET) and inner filter effect (IFE). Following an introduction, the review (with 88 refs.) first summarizes the various kinds of quenching mechanisms of CDs (including static quenching, dynamic quenching, FRET, PET and IFE), the principles of these quenching mechanisms, and the methods of distinguishing these quenching mechanisms. This is followed by an overview on applications of the various quenching mechanisms in detection and imaging. Graphical abstract Schematic representation of the quenching mechanisms of carbon dots (CDs) which include static quenching, dynamic quenching, Förster resonance energy transfer (FRET), photoinduced electron transfer(PET), surface energy transfer (SET), Dexter energy transfer (DET) and inner filter effect (IFE). All these effects can be used to detect and image analytes.
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doi10.1007/s00604-017-2318-9