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Literature DB >> 24902615

Core/shell quantum dot based luminescent solar concentrators with reduced reabsorption and enhanced efficiency.

Abstract

CdSe/CdS core/shell quantum dots (QDs) have been optimized toward luminescent solar concentration (LSC) applications. Systematically increasing the shell thickness continuously reduced reabsorption up to a factor of 45 for the thickest QDs studied (with ca. 14 monolayers of CdS) compared to the initial CdSe cores. Moreover, an improved synthetic method was developed that retains a high-fluorescence quantum yield, even for particles with the thickest shell volume, for which a quantum yield of 86% was measured in solution. These high quantum yield thick shell quantum dots were embedded in a polymer matrix, yielding highly transparent composites to serve as prototype LSCs, which exhibited an optical efficiency as high as 48%. A Monte Carlo simulation was developed to model LSC performance and to identify the major loss channels for LSCs incorporating the materials developed. The results of the simulation are in excellent agreement with the experimental data.

Entities: Chemical Gene

Year: 2014 PMID： 24902615 DOI： 10.1021/nl501627e

Source DB: PubMed Journal: Nano Lett ISSN： 1530-6984 Impact factor: 11.189

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Cited

15 in total

1. Highly efficient large-area colourless luminescent solar concentrators using heavy-metal-free colloidal quantum dots.

Authors: Francesco Meinardi; Hunter McDaniel; Francesco Carulli; Annalisa Colombo; Kirill A Velizhanin; Nikolay S Makarov; Roberto Simonutti; Victor I Klimov; Sergio Brovelli
Journal: Nat Nanotechnol Date: 2015-08-24 Impact factor: 39.213

2. Sample-averaged biexciton quantum yield measured by solution-phase photon correlation.

Authors: Andrew P Beyler; Thomas S Bischof; Jian Cui; Igor Coropceanu; Daniel K Harris; Moungi G Bawendi
Journal: Nano Lett Date: 2014-11-19 Impact factor: 11.189

3. Environmentally friendly, highly efficient, and large stokes shift-emitting ZnSe:Mn²⁺/ZnS core/shell quantum dots for luminescent solar concentrators.

Authors: Nyamsuren Byambasuren; A-Ra Hong; Woo-Young Lee; Ji Young Byun; Gumin Kang; Hyungduk Ko; Ho Seong Jang
Journal: Sci Rep Date: 2022-10-20 Impact factor: 4.996

Core/shell quantum dot based luminescent solar concentrators with reduced reabsorption and enhanced efficiency.

1. Highly efficient large-area colourless luminescent solar concentrators using heavy-metal-free colloidal quantum dots.

2. Sample-averaged biexciton quantum yield measured by solution-phase photon correlation.

3. Environmentally friendly, highly efficient, and large stokes shift-emitting ZnSe:Mn²⁺/ZnS core/shell quantum dots for luminescent solar concentrators.

4. A path to practical Solar Pumped Lasers via Radiative Energy Transfer.

5. Colloidal-Quantum-Dot Ring Lasers with Active Color Control.

6. Direct Patterning of Colloidal Quantum-Dot Thin Films for Enhanced and Spectrally Selective Out-Coupling of Emission.

7. Impact of Stokes Shift on the Performance of Near-Infrared Harvesting Transparent Luminescent Solar Concentrators.

8. Quantum dot assisted luminescent hexarhenium cluster dye for a transparent luminescent solar concentrator.

9. Large Stokes Shift and High Efficiency Luminescent Solar Concentrator Incorporated with CuInS2/ZnS Quantum Dots.

10. Stokes-Shift-Engineered Indium Phosphide Quantum Dots for Efficient Luminescent Solar Concentrators.