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Strong-coupling-enhanced nanoparticle array organic light emitting diode

Descrizione del progetto

Innalzare l’efficienza degli OLED per raggiungere il livello dei LED inorganici

I diodi organici a emissione di luce (OLED) usano una pila di strati organici per convertire l’elettricità in luce. Nonostante siano realizzati con materiali atossici che utilizzano processi improntati sull’efficienza energetica, la loro efficienza di conversione energetica è ancora molto bassa rispetto a quella delle loro controparti inorganiche. Il progetto SCOLED, finanziato dall’UE, adotterà un approccio radicalmente diverso per migliorare l’efficienza degli OLED. Il gruppo di ricerca impiegherà serie di nanoparticelle plasmoniche per migliorare le interazioni luce-materia all’interno degli OLED. Mediante la regolazione della periodicità, della dimensione e della forma delle nanoparticelle il gruppo riuscirà inoltre a controllare il colore, la polarizzazione e la distribuzione direzionale della luce emessa.

Obiettivo

We propose a radical new solution to the problem of increasing the efficiency of organic light-emitting diodes (OLEDs) based on modifying the light-matter coupling by nanostructures. All previous attempts to increase the efficiency of OLEDs to be competitive with commercial inorganic LEDs have failed. If successful, our new vision for strongly coupled organic light-emitting diodes (SCOLEDs) will bypass the existing technological bottleneck. OLEDs can be fabricated from earth-abundant non-toxic materials using energy-efficient processes, in stark contrast to the present market-leading inorganic LEDs. However, despite their much lower environmental impact, the widespread deployment of OLEDs has been blocked by their limited efficiency. To achieve the required step-change in efficiency, plasmonic nano-particle arrays will be used to enhance the coupling between light and matter within OLEDs. Our objectives are to enhance OLED efficiency to a level competitive with inorganic LEDs, and at the same time to adjust the periodicity, size and shape of the nanoparticles to control the color, polarization and directional distribution of the emitted light. Analytic theory, numerical simulations and nanofabrication will be combined with optical and electronic characterization across an interdisciplinary team with expertise ranging from materials science and electronics to photonics and quantum physics, including world-leading proficiency in nanoparticle arrays and strong light-matter coupling. Our ambitious target is the proof-of-principle demonstration of an OLED with more than 50% external quantum efficiency and tailorable control of the properties of the emitted light. SCOLEDs offer the prospect of a breakthrough technology that will dramatically reduce the environmental impact of LED technology in lighting and display applications, and will widen the palette of OLED applications to new and emerging areas such as electronic vehicles, augmented reality and urban agriculture.

Meccanismo di finanziamento

HORIZON-EIC - HORIZON EIC Grants

Coordinatore

AALTO KORKEAKOULUSAATIO SR
Contribution nette de l'UE
€ 841 513,25
Indirizzo
OTAKAARI 1
02150 Espoo
Finlandia

Mostra sulla mappa

Regione
Manner-Suomi Helsinki-Uusimaa Helsinki-Uusimaa
Tipo di attività
Higher or Secondary Education Establishments
Collegamenti
Costo totale
€ 841 513,25

Partecipanti (4)

Partner (1)