Abstract

A flexible photoluminescent display fabricated with a low-temperature process is proposed. The fabrication temperature is a critical issue because a flexible display requires a flexible plastic film as a substrate. New fabrication methods were devised for inner components consisting of a flexible photoluminescent display. Long-term observation was used to examine the reliability of components fabricated with newly adapted fabrication methods. The electrical properties of the test panel were also analyzed for characterization of the proposed flexible photoluminescent display. Microplasma inside the test panel was successfully generated when the test panel was bent. The results of this study confirm that the proposed flexible photoluminescent display structure has reasonable potential as a platform for large-area flexible display devices.

© 2012 IEEE

Direct deflection radius measurement of flexible PET substrates by using an optical interferometry

Jiong-shiun Hsu and Po-wei Li
Appl. Opt. 54(17) 5469-5474 (2015)

ITO DBR Electrodes Fabricated on PET Substrate for Organic Electronics

W. C. Tien and A. K. Chu
Opt. Express 22(4) 3944-3949 (2014)

Optical display film as flexible and light trapping substrate for organic photovoltaics

Yoonseok Park, Frederik Nehm, Lars Müller-Meskamp, Koen Vandewal, and Karl Leo
Opt. Express 24(10) A974-A980 (2016)

High efficiency NbN nanowire superconducting single photon detectors fabricated on MgO substrates from a low temperature process

F. Marsili, D. Bitauld, A. Fiore, A. Gaggero, F. Mattioli, R. Leoni, M. Benkahoul, and F. Lévy
Opt. Express 16(5) 3191-3196 (2008)

Flexible GaN-based ultraviolet microdisk lasers on PET substrate

Peng Gu, Shuai Yang, Lilong Ma, Tao Yang, Xin Hou, Yang Mei, Leiying Ying, Hao Long, and Baoping Zhang
Opt. Lett. 48(15) 4117-4120 (2023)