| 초록 |
In recent years, highly conductive, three-dimensional (3D) printable materials for facilitating 3D electrical circuits received a tremendous attention in various research fields. Printable electrodes must display the following characteristics: (i) high conductivity, (ii) cost-effectiveness, (iii) durability under extreme environmental conditions (heat and moisture), (iv) processability on low-cost plastic substrates (indispensably, polyethylene terephthalate (PET) substrate), and (iV) 3D printing processability. I will introduce a variety of chemical technologies for resolving the aforementioned issues for the realization of 3D-printed electronics. Also, in a viewpoint of enabling energy unit-embedded circuitries, we have designed functional composite materials for printing directly in-plane energy storage units. Prerequisites in materials will be discussed for achieving high-performance multi-stack printed micro-supercapacitors. |
