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High-resolution patterning of colloidal quantum dots via non-destructive, light-driven ligand crosslinking.

Jeehye YangDonghyo HahmKyunghwan KimSeunghyun RheeMyeongjae LeeSeunghan KimJun Hyuk ChangHye Won ParkJaehoon LimMinkyoung LeeHyeokjun KimJoohee BangHyungju AhnJeong Ho ChoJeonghun KwakBongSoo KimChanghee LeeWan Ki BaeMoon Sung Kang
Published in: Nature communications (2020)
Establishing multi-colour patterning technology for colloidal quantum dots is critical for realising high-resolution displays based on the material. Here, we report a solution-based processing method to form patterns of quantum dots using a light-driven ligand crosslinker, ethane-1,2-diyl bis(4-azido-2,3,5,6-tetrafluorobenzoate). The crosslinker with two azide end groups can interlock the ligands of neighbouring quantum dots upon exposure to UV, yielding chemically robust quantum dot films. Exploiting the light-driven crosslinking process, different colour CdSe-based core-shell quantum dots can be photo-patterned; quantum dot patterns of red, green and blue primary colours with a sub-pixel size of 4 μm × 16 μm, corresponding to a resolution of >1400 pixels per inch, are demonstrated. The process is non-destructive, such that photoluminescence and electroluminescence characteristics of quantum dot films are preserved after crosslinking. We demonstrate that red crosslinked quantum dot light-emitting diodes exhibiting an external quantum efficiency as high as 14.6% can be obtained.
Keyphrases
  • quantum dots
  • high resolution
  • sensitive detection
  • energy transfer
  • room temperature
  • molecular dynamics
  • cell fate
  • high speed
  • hyaluronic acid
  • tandem mass spectrometry