Litcius/Paper detail

Noninvasive and Direct Patterning of High-Resolution Full-Color Quantum Dot Arrays by Programmed Microwetting

Kyeong Min Song, Moohyun Kim, Hyunjin Cho, Hongjoo Shin, Geon Yeong Kim, Soonmin Yim‬, Tae Won Nam, Yeon Sik Jung

2022ACS Nano13 citationsDOI

Abstract

Although the commercialization of electroluminescent quantum-dot (QD) displays essentially demands multicolor patterning of QDs with sufficient scalability and uniformity, the implementation of QD patterning in a light-emitting diode device is highly challenging, mainly due to the innate vulnerability of QDs and charge-transport layers. Here, we introduce a noninvasive surface-wetting approach for patterning full-color QD arrays on a photoprogrammed hole-transport layer (HTL). To achieve noninvasiveness of QD patterning, surface-specific modification of HTLs was performed without degrading their performance. Moreover, engineering the solvent evaporation kinetics allows area-selective wetting of QD patterns with a uniform thickness profile. Finally, multicolor QD patterning was enabled by preventing cross-contamination between different QD colloids via partial fluoro-encapsulation of earlier-patterned QDs. Throughout the overall QD patterning process, the optoelectronic properties of QDs and hole-transport layers are well preserved, and prototype electroluminescent quantum dot light-emitting diode arrays with high current efficiency and brightness were realized.

Topics & Concepts

Quantum dotMaterials scienceOptoelectronicsElectroluminescenceNanotechnologyWetting layerDiodeLight-emitting diodeLayer (electronics)Quantum Dots Synthesis And PropertiesNanomaterials and Printing TechnologiesNanofabrication and Lithography Techniques