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Effects of Curing Temperature on Bending Durability of Inkjet-Printed Flexible Silver Electrode.


ABSTRACT: Flexible electrodes should have a good mechanical durability and electrical properties under even extreme bending and deformation conditions. We fabricated such an electrode using an inkjet printing system. In addition, annealing was perfo3rmed under curing temperatures of 150, 170, and 190 °C to improve the electrical resistance performance of the electrode. Scanning electron microscopy, X-ray diffraction, nanoindentation, and surface profile measurements were performed to measure and analyze the electrode characteristics and the change in the shape of the coffee ring. The bending deformation behavior of the electrode was predicted by simulations. To confirm the bending durability of the flexible electrode according to different curing temperatures, the bending deformation and electrical resistance were simultaneously tested. It was found that the electrode cured at a temperature of 170 °C could endure 20,185 bending cycles and had the best durability, which was consistent with the predicted simulation results. Moreover, the average specific resistance before the electrode was disconnected was 13.45 ?? cm, which is similar to the conventional electrode value. These results are expected to increase the durability and life of flexible electrodes, which can be used in flexible electronic devices, sensors, and wearable devices that are subjected to significant bending deformation.

SUBMITTER: Kim NW 

PROVIDER: S-EPMC7763182 | biostudies-literature | 2020 Dec

REPOSITORIES: biostudies-literature

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Effects of Curing Temperature on Bending Durability of Inkjet-Printed Flexible Silver Electrode.

Kim Nam Woon NW   Lee Duck-Gyu DG   Kim Kyung-Shik KS   Hur Shin S  

Nanomaterials (Basel, Switzerland) 20201209 12


Flexible electrodes should have a good mechanical durability and electrical properties under even extreme bending and deformation conditions. We fabricated such an electrode using an inkjet printing system. In addition, annealing was perfo3rmed under curing temperatures of 150, 170, and 190 °C to improve the electrical resistance performance of the electrode. Scanning electron microscopy, X-ray diffraction, nanoindentation, and surface profile measurements were performed to measure and analyze t  ...[more]

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