| Abstract Scope |
Inkjet printing provides a straightforward approach for creating flexible hybrid electronics devices of the next generation. This study focuses on the complex connections between materials, processes, and resulting properties, especially focusing on emerging functional materials such as nanomaterials, polymers, and composites. As such, we processed, printed and characterized the conductive (nano-silver) and dielectric (polyimide and polyimide/Ba2TiO3 nanocomposite) ink-based materials for heterogeneous integration and sensor applications. The ceramic/polymer dielectric composite material was considered for further improvement in dielectric properties of the material. After processing and inkjet printing of the materials, they were characterized by high-resolution imaging and elemental identification using SEM and EDX, respectively.
Keywords: Inkjet Printing; Ag Nanoparticle ink; Barium Titanate ink; Polyamide ink; Electronic Packaging; SEM |