Rapid and Effective Electrical Conductivity Improvement of the Ag NW-Based Conductor by Using the Laser-Induced Nano-Welding Process

Authors
Lee, PhillipKwon, JinhyeongLee, JinhwanLee, HabeomSuh, Young D.Hong, SukjoonYeo, Junyeob
Issue Date
2017-05
Publisher
MDPI AG
Citation
MICROMACHINES, v.8, no.5
Abstract
To date, the silver nanowire-based conductor has been widely used for flexible/stretchable electronics due to its several advantages. The optical nanowire annealing process has also received interest as an alternative annealing process to the Ag nanowire (NW)-based conductor. In this study, we present an analytical investigation on the phenomena of the Ag NWs' junction and welding properties under laser exposure. The two different laser-induced welding processes (nanosecond (ns) pulse laser-induced nano-welding (LINW) and continuous wave (cw) scanning LINW) are applied to the Ag NW percolation networks. The Ag NWs are selectively melted and merged at the junction of Ag NWs under very short laser exposure; these results are confirmed by scanning electron microscope (SEM), focused-ion beam (FIB), electrical measurement, and finite difference time domain (FDTD) simulation.
Keywords
TRANSPARENT CONDUCTOR; PERCOLATION NETWORK; FLEXIBLE SUPERCAPACITOR; HIGHLY TRANSPARENT; NANOPARTICLE INK; METAL-ELECTRODE; TOUCH PANEL; FABRICATION; FILMS; LONG; TRANSPARENT CONDUCTOR; PERCOLATION NETWORK; FLEXIBLE SUPERCAPACITOR; HIGHLY TRANSPARENT; NANOPARTICLE INK; METAL-ELECTRODE; TOUCH PANEL; FABRICATION; FILMS; LONG; laser; laser-induced nano-welding; pulse laser; silver nanowires; silver nanowire percolation networks; transparent flexible conductor
ISSN
2072-666X
URI
https://pubs.kist.re.kr/handle/201004/122814
DOI
10.3390/mi8050164
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KIST Article > 2017
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