Transparent organic light-emitting diode(TrOLED)displays represent cutting-edge technology posed to significantly enhance user experience.This study addresses two pivotal challenges in TrOLED development.Firstly,we fo...Transparent organic light-emitting diode(TrOLED)displays represent cutting-edge technology posed to significantly enhance user experience.This study addresses two pivotal challenges in TrOLED development.Firstly,we focus on the innovation of transparent cathodes,a fundamental component in TrOLEDs,by introducing a ZnO/Yb:Ag cathode.This cathode employs a combination of seed layer and metal doping techniques to achieve a highly uniform surface morphology and a low surface energy barrier.The optimized Yb:Ag cathode on ZnO,with a mere thickness of 15 nm,exhibits remarkable properties:an extremely low surface roughness of 0.52 nm,sheet resistance of 11.6Ω γ^(-1),an optical transmittance of 86.7%at 510 nm,and tunable work function(here,optimized to be 3.86 eV),ensuring superior electron injection capability.Secondly,we propose a novel TrOLED pixel structure that features selective bidirectional viewing,allowing different types of information to be selectively displayed on each side while preserving overall transparency and minimizing pixel complexity.This design innovation distinguishes itself from conventional TrOLEDs that display images on only one side.The bidirectional TrOLED design not only enhances openness and esthetic appeal but also holds promise for diverse applications across various user environments.展开更多
基金supported by the National Research Foundation of Korea(NRF)(NRF-2022R1A4A1028702,NRF-2022M3D1A2083618,and RS-2023-00241971)by the ICT Creative Consilience Program(ITP-2023-2020-0-01821)+1 种基金funded by the Ministry of Science,ICTFuture Planning,and by Korea Institute for Advancement of Technology(KIAT)(00418086,The Competency Development Programfor Industry Specialist).
文摘Transparent organic light-emitting diode(TrOLED)displays represent cutting-edge technology posed to significantly enhance user experience.This study addresses two pivotal challenges in TrOLED development.Firstly,we focus on the innovation of transparent cathodes,a fundamental component in TrOLEDs,by introducing a ZnO/Yb:Ag cathode.This cathode employs a combination of seed layer and metal doping techniques to achieve a highly uniform surface morphology and a low surface energy barrier.The optimized Yb:Ag cathode on ZnO,with a mere thickness of 15 nm,exhibits remarkable properties:an extremely low surface roughness of 0.52 nm,sheet resistance of 11.6Ω γ^(-1),an optical transmittance of 86.7%at 510 nm,and tunable work function(here,optimized to be 3.86 eV),ensuring superior electron injection capability.Secondly,we propose a novel TrOLED pixel structure that features selective bidirectional viewing,allowing different types of information to be selectively displayed on each side while preserving overall transparency and minimizing pixel complexity.This design innovation distinguishes itself from conventional TrOLEDs that display images on only one side.The bidirectional TrOLED design not only enhances openness and esthetic appeal but also holds promise for diverse applications across various user environments.
