| 초록 |
In this study, we report a novel high-performance glass-fabric reinforced hybrimer (GFRHybrimer) film which can be used as a substrate for flexible devices. The GFRHybrimer film was fabricated by impregnation and/or lamination of a woven glass-fabric (E-glass) with a photo-curable, sol-gel organic/inorganic hybrid material (Hybrimer) as the matrix. The glass-fabric reinforcement enabled not only a significant reduction in the CTE, but also a remarkable increase in the modulus and flexibility (rollable). The high optical transparency could be obtained by matching refractive index of the glass-fabric and hybrimer matrix. The GFRHybrimer film exhibited high optical transparency (~89%), a low CTE (~13 ppm/°C), a high modulus (~10GPa), high thermal stability (~378°C), and a low retardation ( |
