Plasmon-enhanced ultraviolet photoluminescence from hybrid structures of graphene/ZnO films

We report substantially enhanced photoluminescence (PL) from hybrid structures of graphene/ZnO films at a band gap energy of ZnO (∼3.3  eV/376  nm). Despite the well-known constant optical conductivity of graphene in the visible-frequency regime, its abnormally strong absorption in the violet-freque...

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Published in:Physical review letters 2010-09, Vol.105 (12), p.127403-127403, Article 127403
Main Authors: Hwang, Sung Won, Shin, Dong Hee, Kim, Chang Oh, Hong, Seung Hui, Kim, Min Choul, Kim, Jungkil, Lim, Keun Yong, Kim, Sung, Choi, Suk-Ho, Ahn, Kwang Jun, Kim, Gunn, Sim, Sung Hyun, Hong, Byung Hee
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container_end_page 127403
container_issue 12
container_start_page 127403
container_title Physical review letters
container_volume 105
creator Hwang, Sung Won
Shin, Dong Hee
Kim, Chang Oh
Hong, Seung Hui
Kim, Min Choul
Kim, Jungkil
Lim, Keun Yong
Kim, Sung
Choi, Suk-Ho
Ahn, Kwang Jun
Kim, Gunn
Sim, Sung Hyun
Hong, Byung Hee
description We report substantially enhanced photoluminescence (PL) from hybrid structures of graphene/ZnO films at a band gap energy of ZnO (∼3.3  eV/376  nm). Despite the well-known constant optical conductivity of graphene in the visible-frequency regime, its abnormally strong absorption in the violet-frequency region has recently been reported. In this Letter, we demonstrate that the resonant excitation of graphene plasmon is responsible for such absorption and eventually contributes to enhanced photoemission from structures of graphene/ZnO films when the corrugation of the ZnO surface modulates photons emitted from ZnO to fulfill the dispersion relation of graphene plasmon. These arguments are strongly supported by PL enhancements depending on the spacer thickness, measurement temperature, and annealing temperature, and the micro-PL mapping images obtained from separate graphene layers on ZnO films.
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title Plasmon-enhanced ultraviolet photoluminescence from hybrid structures of graphene/ZnO films
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