Simultaneous Enhancement of Upconversion and Downshifting
Luminescence via Plasmonic Structure

Byeong-Kwon Ju (1437562); Dong-Hun Shin (1623805); Doo-Hyun Ko (1542493); Ho Seong Jang (1576759); Hyun-Keun Kwon (1623802); Hyungduk Ko (1596382); Il-Ki Han (1596391); Jihoon Kyhm (1623790); Jong-Hyun Park (1623799); Joon Soo Han (1623796); Kyu-Tae Lee (1623811); Kyung-Won Kwak (1372290); S. Joon Kwon (1394977); Soong-Hong Kwon (1623793); Su Yeon Kim (201244); Sung-Hwan Lee (1623808)

Simultaneous Enhancement of Upconversion and Downshifting Luminescence via Plasmonic Structure

Authors: Byeong-Kwon Ju (1437562)
Dong-Hun Shin (1623805)
Doo-Hyun Ko (1542493)
Ho Seong Jang (1576759)
Hyun-Keun Kwon (1623802)
Hyungduk Ko (1596382)
Il-Ki Han (1596391)
Jihoon Kyhm (1623790)
Jong-Hyun Park (1623799)
Joon Soo Han (1623796)
Kyu-Tae Lee (1623811)
Kyung-Won Kwak (1372290)
S. Joon Kwon (1394977)
Soong-Hong Kwon (1623793)
Su Yeon Kim (201244)
Sung-Hwan Lee (1623808)
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Doi

Abstract

We describe a metal nanodisk–insulator–metal (MIM) structure that enhances lanthanide-based upconversion (UC) and downshifting (DS) simultaneously. The structure was fabricated using a nanotransfer printing method that facilitates large-area applications of nanostructures for optoelectronic devices. The proposed MIM structure is a promising way to harness the entire solar spectrum by converting both ultraviolet and near-infrared to visible light concurrently through resonant-mode excitation. The overall photoluminescence enhancements of the UC and DS were 174- and 29-fold, respectively

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Last time updated on 12/02/2018