Güngör, KıvançErdem, OnurGüzeltürk, BurakÜnal, EmreJun, ShinaeJang, EunjooDemir, Hilmi Volkan2025-02-222025-02-222024-07-242055-6756https://hdl.handle.net/11693/116639Colloidal quantum dots (QDs) offer high color purity essential to high-quality liquid crystal displays (LCDs), which enables unprecedented levels of color enrichment in LCD-TVs today. However, for LCDs requiring polarized backplane illumination in operation, highly polarized light generation using inherently isotropic QDs remains a fundamental challenge. Here, we show strongly polarized color conversion of isotropic QDs coupled to Fano resonances of v-grooved surfaces compatible with surface-normal LED illumination for next-generation QD-TVs. This architecture overcomes the critically oblique excitation of surface plasmon coupled emission by using v-shapes imprinted on the backlight unit (BLU). With isotropic QDs coated on the proposed v-BLU surface, we experimentally measured a far-field polarization contrast ratio of similar to 10. Full electromagnetic solution shows Fano line-shape transmission in transverse magnetic polarization allowing for high transmission as an indication for forward-scattering configuration. Of these QDs coupled to the surface plasmon-polariton modes, we observed strong modifications in their emission kinetics revealed by time-resolved photoluminescence spectroscopy and via dipole orientations identified by back focal plane imaging. This collection of findings indicates conclusively that these isotropic QDs are forced to radiate in a linearly polarized state from the patterned planar surface under surface-normal excitation. For next-generation QD-TVs, the proposed polarized color-converting isotropic QDs on such v-BLUs can be deployed in bendable electronic displays. We demonstrate a novel backlight unit utilizing the plasmonic interaction of quantum dots with v-shaped metallic grooves, which are capable of enhancing the emission in the desired polarization while suppressing the unwanted polarization component.EnglishCC BY 3.0 Deed (Attribution 3.0 International)https://creativecommons.org/licenses/by/3.0/Article10.1039/d4nh00101j2055-6764