2 / 2017-04-01 18:25:14
Optical Micro-Resonators Based on Reactive-Mesogen Doped with Quantum-Dots for Color Elements
13354,13355
摘要录用
Sujie Kang Kang / Seoul National University
Jeng-Hun Suh Suh / Seoul National University
Bo-Yeon Lee Lee / Seoul National University
Chiwoo Kim Kim / Seoul National University
Sin-Doo Lee Lee / Seoul National University
Recently, structural color elements have been extensively studied owing to the superior reliability and the stability in comparison to conventional color pigments. Particularly, an optical micro-resonator type is promising for the realization of the structure coloration since it allows the high optical efficiency and the polarization-independent optical property in a simple metal-dielectric-metal (MIM) configuration. It is desirable to improve the transmission of the micro-resonators for use as color filters, color image storage, and sensors. Several approaches such as an optical path control layer, a nano-porous structure, and a nano-grating structure have been suggested but they suffer from the peak shift of the transmittance due to the structural change or an additional structure in the MIM configuration. Moreover, a complex fabrication process is inevitably involved. In this work, we demonstrate a micro-resonator with spectral overlap between the selective transmittance of the optical micro-resonator and the photoluminescence (PL) spectrum of quantum dots (QDs) in a dielectric layer so as to improve the transmittance without a peak shift. In order to construct a resonant cavity between two metallic layers, a mixture of reactive-mesogens and QDs were slit-coated on an alignment layer which promoted the vertical alignment of mesogens. The resonant cavity with green QDs showed about 20% higher transmittance than that of a conventional MIM cavity at the peak wavelength of 530 nm and no peak shift. Our QD-dispersion approach would provide simple design of an optical micro-resonator with high transmission for a variety of applications including displays and coloration devices.
This work was supported in part by Samsung Display Company and BK 21 Program of Ministry of Education of Korea.
重要日期
  • 05月05日

    2017

    会议日期

  • 04月01日 2017

    摘要截稿日期

  • 05月05日 2017

    注册截止日期

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