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

Sung Won Hwang; Dong Hee Shin; Chang Oh Kim; Seung Hui Hong; Min Choul Kim; Jungkil Kim; Keun Yong Lim; Sung Kim; Suk Ho Choi; Kwang Jun Ahn; Gunn Kim; Sung Hyun Sim; Byung Hee Hong

doi:10.1103/PhysRevLett.105.127403

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

Sung Won Hwang, Dong Hee Shin, Chang Oh Kim, Seung Hui Hong, Min Choul Kim, Jungkil Kim, Keun Yong Lim, Sung Kim, Suk Ho Choi, Kwang Jun Ahn, Gunn Kim, Sung Hyun Sim, Byung Hee Hong

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133 Citations (Scopus)

Abstract

We report substantially enhanced photoluminescence (PL) from hybrid structures of graphene/ZnO films at a band gap energy of ZnO (∼3.3eV/376nm). 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.

Original language	English
Article number	127403
Journal	Physical Review Letters
Volume	105
Issue number	12
DOIs	https://doi.org/10.1103/PhysRevLett.105.127403
Publication status	Published - 15 Sept 2010

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title = "Plasmon-enhanced ultraviolet photoluminescence from hybrid structures of graphene/ZnO films",

abstract = "We report substantially enhanced photoluminescence (PL) from hybrid structures of graphene/ZnO films at a band gap energy of ZnO (∼3.3eV/376nm). 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.",

author = "Hwang, {Sung Won} and Shin, {Dong Hee} and Kim, {Chang Oh} and Hong, {Seung Hui} and Kim, {Min Choul} and Jungkil Kim and Lim, {Keun Yong} and Sung Kim and Choi, {Suk Ho} and Ahn, {Kwang Jun} and Gunn Kim and Sim, {Sung Hyun} and Hong, {Byung Hee}",

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doi = "10.1103/PhysRevLett.105.127403",

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AU - Hwang, Sung Won

AU - Shin, Dong Hee

AU - Kim, Chang Oh

AU - Hong, Seung Hui

AU - Kim, Min Choul

AU - Kim, Jungkil

AU - Lim, Keun Yong

AU - Kim, Sung

AU - Choi, Suk Ho

AU - Ahn, Kwang Jun

AU - Kim, Gunn

AU - Sim, Sung Hyun

AU - Hong, Byung Hee

PY - 2010/9/15

Y1 - 2010/9/15

N2 - We report substantially enhanced photoluminescence (PL) from hybrid structures of graphene/ZnO films at a band gap energy of ZnO (∼3.3eV/376nm). 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.

AB - We report substantially enhanced photoluminescence (PL) from hybrid structures of graphene/ZnO films at a band gap energy of ZnO (∼3.3eV/376nm). 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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Plasmon-enhanced ultraviolet photoluminescence from hybrid structures of graphene/ZnO films

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