| 초록 |
Many nanomaterial-based electrodes, in particular, 1D and 2D nanomaterials have been proposed as next-generation transparent and flexible electrodes. However, their transparency, conductivity, large-area uniformity and sometimes cost are not yet sufficient to replace indium tin oxide (ITO). Furthermore, the conventional ITO is quite rigid and susceptible to mechanical fractures under deformations. Here, we report new advances in the design, fabrication, and integration of wearable and transparent force touch (touch and pressure). By using this multi-layered ECI electrode, we present a wearable and transparent force touch sensor array, which is multiplexed by SiNM PIN diodes and integrated on the skin-mounted quantum dot light emitting diodes, which was then successfully applied as a wearable human-machine interface to control a drone wirelessly. These advances in novel material structures and system-level integration strategies create new opportunities in wearable smart displays. |
