Demir, Hilmi VolkanNizamoglu, S.Erdem, T.Mutlugun, E.Gaponik N.Eychmüller A.2018-04-122018-04-122011-11-231748-0132http://hdl.handle.net/11693/38132This review summarizes advantages, recent progress and challenges related to the quickly evolving research field of colloidal quantum dot integrated LEDs based on color conversion. We start with presenting a short general introduction to the field of solid state lighting and color conversion phenomena, which are essential for defining the requirements for high-quality general lighting. Subsequently we continue with a brief description of the synthesis of nanocrystal quantum dots and their optical properties together with the advantages of utilizing them in LEDs as color convertors. Following this basic background, we review the recent efforts on quantum dot integrated color-conversion LEDs, Förster resonance energy transfer (FRET) converted LEDs and FRET-enhanced LEDs. Finally, we conclude with a future outlook on semiconductor lighting and quantum dot integrated LEDs.EnglishColor conversionFörster resonance energy transfer (FRET)Light-emitting diode (LED)Quantum dot (QD)High qualityIntegrated LEDNanocrystal quantum dotsRecent progressResearch fieldsResonance energy transferSolid state lightingColorEnergy transferIntegrationLightingSemiconductor quantum dotsNanocrystalBiotransformationFluorescence resonance energy transferPhotometryReviewSemiconductorSolid stateSynthesisQuantum dot integrated LEDs using photonic and excitonic color conversionReview10.1016/j.nantod.2011.10.006