Excitonic improvement of colloidal nanocrystals in salt powder matrix for quality lighting and color enrichment

Erdem, Talha; Soran‐Erdem, Zeliha; Keleştemur, Yusuf; Gaponik, Nikolai; Demir, Hilmi Volkan

doi:10.1364/oe.24.000a74

Cited by 8 publications

(10 citation statements)

References 23 publications

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“…On the basis of this hypothesis, Erdem et al hybridized nonpolar green-and red-emitting NCs within LiCl salt. 13 The analyses of the emission dynamics revealed a nonradiative energy transfer efficiency reaching ∼54%, which is almost twice the value obtained in anthracene macrocrystals. 22 The authors also prepared a proof-of-concept of an excitonically improved light-emitting diode employing these powders.…”

Section: The Journal Of Physical Chemistry Lettersmentioning

confidence: 81%

“…19 These were subsequently integrated with UV LEDs, forming purecolor emitting LEDs. A proof-of-concept blue-green LED was prepared by Erdem et al 13 In this work, green-emitting core/ alloyed shell NCs were immobilized within LiCl. These NCs were shown to protect the initial QY after forming their powders, and their LEDs were prepared by encapsulating them with a commercially available epoxy resin on a blue LED.…”

Section: The Journal Of Physical Chemistry Lettersmentioning

confidence: 99%

“…This is an important strength of this material system for the LED and display producers. In addition, these NC-macrocrystals have been shown to provide a robust platform for studying environment-sensitive interparticle interactions such as plasmonics and excitonics. , As an interesting application, the NCs in macrocrystals have been very recently proposed as sensitive thermometers using strong variations observed in their emission spectra as a function of temperature …”

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confidence: 99%

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Colloidal Nanocrystals Embedded in Macrocrystals: Methods and Applications

Adam

Gaponik

Eychmüller

et al. 2016

J. Phys. Chem. Lett.

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Colloidal semiconductor nanocrystals have gained substantial interest as spectrally tunable and bright fluorophores for color conversion and enrichment solids. However, they suffer from limitations in processing their solutions as well as efficiency degradation in solid films. As a remedy, embedding them into crystalline host matrixes has stepped forward for superior photostability, thermal stability, and chemical durability while simultaneously sustaining high quantum yields. Here, we review three basic methods for loading the macrocrystals with nanocrystals, namely relatively slow direct embedding, as well as accelerated methods of vacuum-assisted and liquid-liquid diffusion-assisted crystallization. We discuss photophysical properties of the resulting composites and present their application in light-emitting diodes as well as their utilization for plasmonics and excitonics. Finally, we present a future outlook for the science and technology of these materials.

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Section: The Journal Of Physical Chemistry Lettersmentioning

confidence: 81%

Section: The Journal Of Physical Chemistry Lettersmentioning

confidence: 99%

mentioning

confidence: 99%

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Colloidal Nanocrystals Embedded in Macrocrystals: Methods and Applications

Adam

Gaponik

Eychmüller

et al. 2016

J. Phys. Chem. Lett.

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“…They reported that the resulting white light possessed CRI of 89.2 with color coordinates of (0.3413, 0.3329) under 350 mA operation. Apart from polymers, perovskites can be prepared by incorporating them into microcrystals similar to QDs embedded in inorganic salts, which can lead to enhancement of the photo and chemical stabilities …”

Section: Use Of Halide Perovskites In Wled Applicationsmentioning

confidence: 99%

A Review on Halide Perovskites as Color Conversion Layers in White Light Emitting Diode Applications

Güner

Demir

2018

Physica Status Solidi (a)

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In the last decade, halide perovskites have attracted great interest due to many reasons, including their low cost, solution-processability, superior PL properties, broad range of color tunability, color purity, and defect tolerance, among others. They are in increasing demand for a wide range of applications, such as solar cells, light emitting diodes (LEDs), white LEDs (WLED), and lasers. Yellow phosphors have been heavily employed in solidstate lighting, since its illumination by blue yields white light with various optical features, such as high/low CRI, CCT, and luminous efficiency. However, phosphors as pigments are seldom found and are costly material. In this sense, halide perovskites may offer a promising alternative to phosphors for future solid-state lighting. In this study, the synthesis and optical properties of halide perovskites, as well as their application in WLED as a conversion layer are investigated.

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“…S. Gonzalez-Carrero et al [2] highlight advances on fabrication and characterization of a new class of semiconductor quantum dots, namely perovskite nanocrystals of lead halides. T. Erdem with associates [3] discuss possible ways to improve by means of salt powder matrix quantum dot based luminophores for lighting. Several research groups contributed with the works on improvement of quantum dot based devices.…”

mentioning

confidence: 99%