82‐5: Late‐News Paper: Three Dimensionally Stretchable AMOLED Display for Freeform Displays

Song

Symp Digest of Tech Papers

et al. 2022

Section: Objective and Backgroundmentioning

confidence: 99%

41‐4: Invited Paper: A 200 PPI Oval Shape Stretchable AMOLED Display

Song

Symp Digest of Tech Papers

et al. 2022

Symp Digest of Tech Papers

“…Jo very high modulus that hampers the shape from extending nor shrinking. To make matters worse, the rigidity of the conductors and thin film transistors (TFT's) cannot simply catch up the strains that such panels have to take [4][5][6].…”

Section: Stretchable Displays In the Era Of Dotmentioning

confidence: 99%

54‐1: Stretchable Display in the Era of the 4th Industrial Revolution

Hong

2021

Self Cite

Since its first introduction years ago, the concept has developed in various form‐factors and has caught the eyes of the public as a wonderful toy for curious dreamers. The situation has never changed until now in the eyes of many of the entrepreneurs who funded such projects and the comment like fore‐written provoked a necessity for the concepts of practical applications. This presentation portrays what the stretchable display would advance like to complete the new era when automation surrounds mankind in alliance with smart devices. The present and the future of the technology will be also discussed herein.

Adv Materials Technologies

“…Stretchable light‐emitting devices (LEDs) are expected to pave the way for a novel form‐factor of the next‐generation display, beyond the flat panel displays. Stretchable LEDs can extend the applicable areas of display by shaping onto arbitrary surfaces [ 1,2 ] or by enabling a novel type of wearable displays, such as a textile display [ 3 ] or a contact lens display. [ 4 ] Enabling technologies of stretchable LEDs can be categorized into two types: material‐based approach and geometric approach.…”

Section: Figurementioning

confidence: 99%

Distortion‐Free Stretchable Light‐Emitting Diodes via Imperceptible Microwrinkles

Jeong

Yoon

Lee

et al. 2020

Stretchable organic light‐emitting diodes (OLEDs) have been considered as a promising technology for next‐generation free‐form and wearable displays. However, an approach to ensure both high device performance and high resolution has not yet been suggested. While introducing a wrinkled structure in the active pixel areas is a decent method, the formation of out‐of‐plane macroscopic wrinkles having a wavelength of a few hundred µm has caused distortion in the shape of the pixel, which is a critical drawback for a matrix‐configured display demanding a sharp pixel definition. Herein, microwrinkled OLEDs are fabricated to define a distortion‐free pixel by direct deposition of OLEDs on biaxially prestretched elastomeric substrate, being feasible by a low‐temperature‐based solution process. The total thickness of the device can be significantly reduced up to 350 nm, producing the imperceptible microwrinkles having a wavelength under 20 µm. The microwrinkled OLEDs show a luminance over 8000 cd m−2 and maximum current efficiency of 7.76 cd A−1, which is comparable to the device without wrinkled structure. Finally, a stretchable 4 × 4 OLED pixel array with a microwrinkled structure is demonstrated showing sharply defined square‐patterned emission, proving the potential in the future high‐resolution stretchable display.