期刊
ADVANCED SCIENCE
卷 6, 期 23, 页码 -出版社
WILEY
DOI: 10.1002/advs.201901603
关键词
3D printing; optoelectronics; printable electronics; transparent displays
资金
- Ministry of Science & ICT (MSIT) of Korea through the National Research Foundation [2019R1A2B5B03069358, 2016R1A5A1009926]
- Ministry of Trade, Industry and Energy (MOTIE) of Korea through the National Research Foundation [2019R1A2B5B03069358, 2016R1A5A1009926]
- Bio & Medical Technology Development Program [2018M3A9F1021649]
- Nano Material Technology Development Program [2015M3A7B4050308, 2016M3A7B4910635]
- Industrial Technology Innovation Program [10080577]
- Institute for Basic Science - Yonsei University [IBS-R026-D1]
- Yonsei University [2018-22-0194]
- National Research Foundation of Korea [2019R1A2B5B03069358] Funding Source: Korea Institute of Science & Technology Information (KISTI), National Science & Technology Information Service (NTIS)
Direct 3D printing technologies to produce 3D optoelectronic architectures have been explored extensively over the last several years. Although commercially available 3D printing techniques are useful for many applications, their limits in printable materials, printing resolutions, or processing temperatures are significant challenges for structural optoelectronics in achieving fully 3D-printed devices on 3D mechanical frames. Herein, the production of active optoelectronic devices with various form factors using a hybrid 3D printing process in ambient air is reported. This hybrid 3D printing system, which combines digital light processing for printing 3D mechanical architectures and a successive electrohydrodynamic jet for directly printing transparent pixels of organic light-emitting diodes at room temperature, can create high-resolution, transparent displays embedded inside arbitrarily shaped, 3D architectures in air. Also, the demonstration of a 3D-printed, eyeglass-type display for a wireless, augmented reality system is an example of another application. These results represent substantial progress in the development of next-generation, freeform optoelectronics.
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