About this Abstract |
Meeting |
2020 TMS Annual Meeting & Exhibition
|
Symposium
|
Mechanical Behavior at the Nanoscale V
|
Presentation Title |
N-10: Highly-impermeable and Stretchable Encapsulation with Wavy Structure |
Author(s) |
Hangeul Kim, Na-Hyang Kim, Hansol Jeon, Han Gi Chae, Ju-Young Kim |
On-Site Speaker (Planned) |
Hangeul Kim |
Abstract Scope |
To ensure chemical stability and long-term operation, organic electronic devices require encapsulations with low water vapor transmittance rate. A thermally-grown silicon dioxide, oxidized from single-crystalline silicon wafer at high temperature, has an ultra-low water vapor transmittance rate due to a high density without pinholes and defects. However, the thermally-grown silicon dioxide has low an elastic limit and shows a brittle fracture. For that reasons, it is necessary to improve a stretchability of the thermally-grown silicon dioxide thin film for stretchable encapsulation. Therefore, by applying a wavy structure to the thermally-grown silicon dioxide, we improved the stretchability. We fabricated a wavy structured thermally-grown silicon dioxide by oxidizing wavy textured single-crystalline silicon wafer. We carried out tensile test and cyclic tensile test by using a nano universal testing machine to analyze the stretchability. Lastly, we discussed about the correlation between the improvement of stretchability and the wavy structure through a FEM analysis. |
Proceedings Inclusion? |
Planned: Supplemental Proceedings volume |