Nara Kim

TL;DR: The fabrication of electronic devices based on organic materials, known as ’printed electronics’, is an emerging technology due to its unprecedented advantages involving fl exibility, light weight, and portability, which will ultimately lead to future ubiquitous applications.

TL;DR: A novel transfer-printing method for high-performance all-plastic transparent electrodes is demonstrated, enabling expeditious "pick-and-place" transfer onto arbitrary surfaces using elastomeric stamps.

TL;DR: The authors elucidate the structure-property-performance relationships for conventional and crystallized PEDOT:PSS films and expect that the present study will contribute to the development of long-term stable implantable bioelectronics for neural recording/stimulation.

TL;DR: The addition of a polar solvent selectively enhanced the π-π coupling of the polymer chains, resulting in the reduction of disorder and tremendously increasing the charge carrier mobility, which yielded an insulator-to-metal transition.

TL;DR: By exploiting the additional benefits of high transparency and solution-processability of PEDOT:PSS, this work was able to fabricate a highly stretchable, semitransparent, and wholly solution- Processed alternating current electroluminescent device with unimpaired performance at 50% strain by using PEDOTS/EMIM TCB composite films as both bottom and top electrodes.