Light-emitting diodes enhanced by localized surface plasmon resonance

Xuefeng Gu; Teng Qiu; Wenjun Zhang; Paul K. Chu

doi:10.1186/1556-276X-6-199

Light-emitting diodes enhanced by localized surface plasmon resonance

Xuefeng Gu, Teng Qiu, Wenjun Zhang, Paul K. Chu

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

152 Citations (Scopus)

62 Downloads (CityUHK Scholars)

Abstract

Light-emitting diodes [LEDs] are of particular interest recently as their performance is approaching fluorescent/ incandescent tubes. Moreover, their energy-saving property is attracting many researchers because of the huge energy crisis we are facing. Among all methods intending to enhance the efficiency and intensity of a conventional LED, localized surface plasmon resonance is a promising way. The mechanism is based on the energy coupling effect between the emitted photons from the semiconductor and metallic nanoparticles fabricated by nanotechnology. In this review, we describe the mechanism of this coupling effect and summarize the common fabrication techniques. The prospect, including the potential to replace fluorescent/incandescent lighting devices as well as applications to flat panel displays and optoelectronics, and future challenges with regard to the design of metallic nanostructures and fabrication techniques are discussed. © 2011 Gu et al.

Original language	English
Journal	Nanoscale Research Letters
Volume	6
Issue number	1
DOIs	https://doi.org/10.1186/1556-276X-6-199
Publication status	Published - 8 Mar 2011

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This full text is made available under CC-BY 2.0. https://creativecommons.org/licenses/by/2.0/

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abstract = "Light-emitting diodes [LEDs] are of particular interest recently as their performance is approaching fluorescent/ incandescent tubes. Moreover, their energy-saving property is attracting many researchers because of the huge energy crisis we are facing. Among all methods intending to enhance the efficiency and intensity of a conventional LED, localized surface plasmon resonance is a promising way. The mechanism is based on the energy coupling effect between the emitted photons from the semiconductor and metallic nanoparticles fabricated by nanotechnology. In this review, we describe the mechanism of this coupling effect and summarize the common fabrication techniques. The prospect, including the potential to replace fluorescent/incandescent lighting devices as well as applications to flat panel displays and optoelectronics, and future challenges with regard to the design of metallic nanostructures and fabrication techniques are discussed. {\textcopyright} 2011 Gu et al.",

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AU - Gu, Xuefeng

AU - Qiu, Teng

AU - Zhang, Wenjun

AU - Chu, Paul K.

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N2 - Light-emitting diodes [LEDs] are of particular interest recently as their performance is approaching fluorescent/ incandescent tubes. Moreover, their energy-saving property is attracting many researchers because of the huge energy crisis we are facing. Among all methods intending to enhance the efficiency and intensity of a conventional LED, localized surface plasmon resonance is a promising way. The mechanism is based on the energy coupling effect between the emitted photons from the semiconductor and metallic nanoparticles fabricated by nanotechnology. In this review, we describe the mechanism of this coupling effect and summarize the common fabrication techniques. The prospect, including the potential to replace fluorescent/incandescent lighting devices as well as applications to flat panel displays and optoelectronics, and future challenges with regard to the design of metallic nanostructures and fabrication techniques are discussed. © 2011 Gu et al.

AB - Light-emitting diodes [LEDs] are of particular interest recently as their performance is approaching fluorescent/ incandescent tubes. Moreover, their energy-saving property is attracting many researchers because of the huge energy crisis we are facing. Among all methods intending to enhance the efficiency and intensity of a conventional LED, localized surface plasmon resonance is a promising way. The mechanism is based on the energy coupling effect between the emitted photons from the semiconductor and metallic nanoparticles fabricated by nanotechnology. In this review, we describe the mechanism of this coupling effect and summarize the common fabrication techniques. The prospect, including the potential to replace fluorescent/incandescent lighting devices as well as applications to flat panel displays and optoelectronics, and future challenges with regard to the design of metallic nanostructures and fabrication techniques are discussed. © 2011 Gu et al.

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Light-emitting diodes enhanced by localized surface plasmon resonance

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