Facile synthesis of intense green light emitting LiGdF4:Yb,Er-based upconversion bipyramidal nanocrystals and their polymer composites

Authors
Na, HyejinJeong, Jong SeokChang, Hye JungKim, Hyun YouWoo, KyoungjaLim, KipilMkhoyan, K. AndreJang, Ho Seong
Issue Date
2014-07
Publisher
ROYAL SOC CHEMISTRY
Citation
NANOSCALE, v.6, no.13, pp.7461 - 7468
Abstract
A pathway for achieving intense green light emitting LiGdF4:Yb,Er upconversion nanophosphors (UCNPs) via Y3+ doping is demonstrated. It was revealed that Y3+ doping initiated the formation of a tetragonal phase and affected the particle size. Single tetragonal-phase LiGd0.4Y0.4F4:Yb(18%),Er(2%) (LGY(0.4)F:Yb,Er) UCNPs exhibited strong upconversion (UC) green luminescence and tetragonal bipyramidal morphologies. They showed 1325 and 325-fold higher photoluminescence intensity than the 0 and 80 mol% Y3+-doped LiGdF4:Yb,Er UCNPs, respectively. Additionally the particle size (edge length) of LiGdF4:Yb,Er-based upconversion tetragonal bipyramids (UCTBs) was controlled from 60.5 nm to an ultrasmall size of 9.3 nm with varying Y3+ doping concentration. In an LGY(0.4)F:Yb,Er UCTB, uniform distribution of all constituent elements was directly confirmed by using high-angle annular dark-field scanning transmission electron microscopy and energy-filtered transmission electron microscopy (EFTEM) image analyses. In particular, existence of activator Er3+ ions with extremely small quantity was clearly seen over a particle on the EFTEM image. Moreover, the LGY(0.4)F:Yb,Er UCTBs were successfully incorporated into the polydimethylsiloxane (PDMS) polymer and the highly transparent UCTB-PDMS composites showed bright green light under the excitation of 980 nm infrared light.
Keywords
CRYSTAL-STRUCTURE; LUMINESCENCE; EMISSIONS; NANOPHOSPHORS; NANOPARTICLES; PHOSPHOR; LITHIUM; CRYSTAL-STRUCTURE; LUMINESCENCE; EMISSIONS; NANOPHOSPHORS; NANOPARTICLES; PHOSPHOR; LITHIUM; upconversion; nanocrystals; luminescence; polymer composites
ISSN
2040-3364
URI
https://pubs.kist.re.kr/handle/201004/126617
DOI
10.1039/c4nr00857j
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KIST Article > 2014
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