TY - JOUR AU - Lin, Yi-Chiuan AU - Le, Quoc-Khoa AU - Lai, Li-Wei AU - Liao, Ren-Mao AU - Jeng, Ming-Shin AU - Liu, Day-Shan PY - 2012/07/01 Y2 - 2024/03/29 TI - Optimizing the Organic/Inorganic Barrier Structure for Flexible Plastic Substrate Encapsulation JF - International Journal of Engineering and Technology Innovation JA - Int. j. eng. technol. innov. VL - 2 IS - 3 SE - Articles DO - UR - https://ojs.imeti.org/index.php/IJETI/article/view/77 SP - 184-194 AB - <p>A multilayered barrier structure stacked with organosilicon and silicon oxide (SiOx) films consecutively prepared using plasma enhanced chemical vapor deposition (PECVD) was developed to encapsulate flexible plastic substrate. The evolution on the residual internal stress, structural quality of the organosilicon/SiOx multilayered structure as well as its adhesion to the substrate were found to correlate closely with the thickness of the inset organosilicon layer. Due to the significant discrepancy in the thermal expansion coefficient between the substrate and SiOx film, the thickness of the organosilicon layer deposited onto the substrate and SiOx film thus was crucial to optimize the barrier property of the organosilicon/SiOx structure. The organosilicon/SiOx barrier structure possessed a lowest residual compressive stress and quality adhesion to the substrate was achieved from engineering the organosilicon layer thickness in the multilayered structure. The relaxation of the residual internal stress in the barrier structure led to a dense SiOx film as a consequence of the enhancement in the Si-O-Si networks and thereby resulted in the reduction of the water vapor permeation. Accordingly, a water vapor transmission rate (WVTR) below 1 × 10-2 g/m2/day being potential for the application on the flexible optoelectronic device packaging was achievable from the 3-pairs organosilicon/SiOx multilayered structure deposited onto the polyethylene terephthalate (PET) substrate.</p> ER -