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Bridging the Green Gap: Monochromatic InP-Based Quantum-Dot-on-Chip LEDs with over 50% Color Conversion Efficiency

Tijdschriftbijdrage - Tijdschriftartikel

Solid-state light-emitting diodes (LEDs) emit nearly monochromatic light, yet seamless tuning of emission color throughout the visible region remains elusive. Color-converting powder phosphors are therefore used for making LEDs with a bespoke emission spectrum, yet broad emission lines and low absorption coefficients compromise the formation of small-footprint monochromatic LEDs. Color conversion by quantum dots (QDs) can address these issues, but high-performance monochromatic LEDs made using QDs free of restricted, hazardous elements remain to be demonstrated. Here, we show green, amber, and red LEDs formed using InP-based QDs as on-chip color convertor for blue LEDs. Implementing QDs with near-unity photoluminescence efficiency yields a color conversion efficiency over 50% with little intensity roll-off and nearly complete blue light rejection. Moreover, as the conversion efficiency is mostly limited by package losses, we conclude that on-chip color conversion using InP-based QDs can provide spectrum-on-demand LEDs, including monochromatic LEDs that bridge the green gap.
Tijdschrift: Nano Letters
ISSN: 1530-6984
Issue: 12
Volume: 23
Pagina's: 5490 - 5496
Jaar van publicatie:2023
Trefwoorden:Multidisciplinaire scheikunde, Fysische scheikunde, Materiaalkunde, Toegepaste natuurkunde, Vast stoffysica, natuurkunde van vloeistoffen en plasma's
Toegankelijkheid:Open