Technical Name 高解析度紫外光微型發光二極體顯示器
Project Operator National Tsing Hua University
Project Host 吳孟奇
Summary
This demonstration presents an active-matrix, 1920x1080, 370 nm UV MicroLED display. There are 2,073,600 pixels fabricated on this display which is smaller than a dollar coin,its diagonal has an extremely high pixel density of 3200 pixels per inch (ppi). The size of each pixel is 5 μm in diameter,the pixel pitch is 8 μm. The key technology of this achievement lies in the fabrication of pixels with good characteristicshigh uniformity,the successful development of flip-chip technology combining MicroLEDdriving integrated circuit pixels. This result can display imagesvideos.
Scientific Breakthrough
This demonstration presents an active-matrix, 1920x1080, 3200 ppi, 370 nm ultraviolet MicroLED display with a pixel of 5 μma pitch of 8 μm. It can be claimed to be a real MicroLED display. This achievement is also the first in the world to show that UV MicroLED displays can be used in the photomaskless process. We placed the photoresist-coated sample onto the MicroLED screen,then the MicroLED screen was used to display the desired image in mirror writing. Then the UV light image can be exposed to the test sample to achieve the application of maskless photolithography.
Industrial Applicability
"1. The future approach is to use UV MicroLED to excite red, greenblue phosphors to develop the next-generation full-color displays.
2. The MicroLED display can display high-resolution imagesvideos,can be used in applications of augmented reality, virtual reality.
3. The 370 nm UV MicroLED display can be used as the exposure source of the aligner. There is no need to prepare a photomaskit can reduce the timecost required for making photomasks. It is expected to replace the traditional mercury lamp exposure sourcebecome a new application for MicroLED displays."
Matching Needs
天使投資人、策略合作夥伴
Keyword 1920x1080 Arrays Micro-LED Display Active Matrix High Resolution High Resolution 370 nm UV Flip-Chip Bonding Driver IC Images and Videos Maskless Photolithography
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