Preparation of luminescent ZnS:Cu nanoparticles for the functionalization of transparent acrylate polymers

Klausch, Andrea; Althues, Holger; Schrage, Christian; Simon, Paul; Szatkowski, Adam; Bredol, Michael; Adam, Dieter; Kaskel, Stefan

doi:10.1016/j.jlumin.2009.11.021

Cited by 42 publications

(20 citation statements)

References 12 publications

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“…Based on XPS results, we can deduce that the chemical reactions involved in the aqueous solution are as follows: [49] observed the maximum luminescence at doping concentration of 3.0 at% in ZnS:Mn 2+ nanoparticles. Klausch et al [50] reported an optimal Cu 2+ concentration of 0.5 mol% in ZnS:Cu nanoparticles. Unni et al [51] found that the intensity decreases with increase of doping up to 6 wt%, increases for 6-10 wt% and then decreases and completely quenches at 15 wt% doping in CdS:Cu 2+ quantum dots.…”

Section: Resultsmentioning

confidence: 99%

Fe:ZnSe semiconductor nanocrystals: Synthesis, surface capping, and optical properties

Xie

et al. 2011

Journal of Alloys and Compounds

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Section: Resultsmentioning

confidence: 99%

Fe:ZnSe semiconductor nanocrystals: Synthesis, surface capping, and optical properties

Xie

et al. 2011

Journal of Alloys and Compounds

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“…The light-emitting phosphor material had been developed by researchers such as ZnS:Cu, ZnS:Cu,Cl, ZnS:Mn, and another phosphor material [17][18][19][20][21][22][23]. The researchers had researched on EL devices which can explain the following literatures.…”

Section: Introductionmentioning

confidence: 99%

An Analysis of ZnS:Cu Phosphor Layer Thickness Influence on Electroluminescence Device Performances

Chansri

Arunrungrusmi

Yuji

et al. 2017

International Journal of Photoenergy

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Electroluminescence (EL) device is a new technology; its thickness is within micrometer range which can bend more easily and emit light. However, the thickness of ZnS:Cu phosphor layer may affect the light intensity, so we have analyzed the thickness of ZnS:Cu phosphor layer on EL device. The EL devices consist of ITO:PET/ZnS:Cu phosphor/insulator (BaTiO 3 )/Ag electrode. The EL devices were fabricated in changing thickness 10 μm, 30 μm, and 50 μm. At 100 V 400 Hz, the luminance of EL devices was 51.22 cd/m 2 for thickness 30 μm more than that of 45.78 cd/m 2 (thickness: 10 μm) and 42.58 cd/m 2 (thickness: 50 μm). However, the peak light intensity was achieved at wavelength of 507 nm which was not influenced by the thickness of the ZnS:Cu phosphor. The use of the ZnS:Cu phosphor layer at thickness 30 μm in the EL device significantly improves the luminescence performance.

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“…The names of these minerals are used to designate the corresponding crystalstructures. It is a II-VI compound semiconductor material and is commercially used in solar cells [3], infrared windows [4], and phosphor materials by doping with transition or rare-earth metals [5,6]. There has been growing interest in developing techniques to prepare semiconductor ZnS thin films.…”

Section: Introductionmentioning

confidence: 99%

Optical properties of pulse electrodeposited ZnS films

Murali¹

2014

IOSRJAP

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Preparation of luminescent ZnS:Cu nanoparticles for the functionalization of transparent acrylate polymers

Cited by 42 publications

References 12 publications

Fe:ZnSe semiconductor nanocrystals: Synthesis, surface capping, and optical properties

Fe:ZnSe semiconductor nanocrystals: Synthesis, surface capping, and optical properties

An Analysis of ZnS:Cu Phosphor Layer Thickness Influence on Electroluminescence Device Performances

Optical properties of pulse electrodeposited ZnS films

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