Paper Title
Flexible Transparent Electro-Defabrication by using Copper Nanowires

Abstract
Low-cost, fast and scalable fabrication and patterning methods for copper nanowires (CuNWs) - based flexible transparent electrodes are needed to make CuNWs popularly in various application such as flexible optoelectronic devices, wearable devices, and electronic skins. In this thesis, coating and patterning for CuNWs FTEs by a combination of dip cleaning and pressure-assist lithography was studied. Without dip cleaning steps that makes bonding between nanowires and original glass substrate weaker, the lithography patterning could not be achieved. CuNWs in pattern line are strongly adhered to the substrate as those nanowires are embedded in substrate's surface, result in a simple and fast one-step transferring and patterning. Because cleaning process play an importance, irreplaceable role in this process, a numerous of experiments were carried out to investigate all parameters completely. Finally, the process was applied in making a flexible transparent touchscreen. On the other hand, this will not the only application of this fabrication and patterning process thank to its feature of damage free to the final flexible substrate.