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JOURNAL ARTICLE

Fluorescence quenching due to sliver nanoparticles covered by graphene and hydrogen-terminated graphene

Cheng-Wen HuangHsing-Ying LinChen-Han HuangKai-Hong LoYu-Chung ChangChih‐Yi LiuChen-Hao WuYonhua TzengHsiang‐Chen Chui

Year: 2013 Journal:   Applied Physics Letters Vol: 102 (5)   Publisher: American Institute of Physics
DOI: 10.1063/1.4790825
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Abstract

Fluorescence quenching effects on graphene or hydrogen-terminated graphene covered sliver nanoparticles are studied and the results are explained with energy transfer models. The fluorescence signal of R6G is suppressed by the graphene flakes via Förster resonance energy transfer and by the silver nanoparticles via surface energy transfer. The relative fluorescence intensities of R6G are reduced to 28% and 69% on the single-atom-thick graphene flake and the hydrogen-terminated graphene covered silver film, respectively. The mechanism of the quenching effect is illustrated by the energy diagram of electron transition.

Keywords:
Graphene Quenching (fluorescence) Förster resonance energy transfer Materials science Fluorescence Hydrogen Photochemistry Nanoparticle Graphene nanoribbons Electron transfer Chemical physics Nanotechnology Analytical Chemistry (journal) Chemistry Optics Organic chemistry

Metrics

16
Cited By
0.73
FWCI (Field Weighted Citation Impact)
22
Refs
0.68
Citation Normalized Percentile
Is in top 1%
Is in top 10%

Citation History

Topics

Graphene research and applications
Physical Sciences →  Materials Science →  Materials Chemistry
Plasmonic and Surface Plasmon Research
Physical Sciences →  Engineering →  Biomedical Engineering
Gold and Silver Nanoparticles Synthesis and Applications
Physical Sciences →  Materials Science →  Electronic, Optical and Magnetic Materials

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