S G Park scite author profile

S G Park

2Publications

79Citation Statements Received

31Citation Statements Given

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Keimyung University, Samsung (South Korea)

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SET kinetics of electrochemical metallization cells: influence of counter-electrodes in SiO₂/Ag based systems

et al. 2017

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The counter-electrode material in resistively switching electrochemical metallization cells (ECMs) is a crucial factor influencing the nucleation of conductive filaments, the equilibrium electrode potentials, and kinetics in the devices, and hence the overall switching characteristics. Here, we demonstrate the influence of the counter-electrode (CE) material on the SET events and the importance of appropriate choice and combination of materials. The counter-electrode material influences the counter-electrode processes at the CE/insulator interface and consequently determines the metal ion concentration in the cells. We measured the switching kinetics for SiO/Ag based ECM cells using different counter-electrode materials with different electrocatalytic activities towards water reduction, namely platinum, ruthenium, and iridium oxide, as well as titanium nitride and tantalum. The experimental results are fitted using a physical simulation model and are analysed for the limiting factors for fast SET kinetics.

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Parametric study of nanofiber fabrication by biocompatible polymers

Park

Choi

2017

IOP Conf. Ser.: Mater. Sci. Eng.

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S G Park

SET kinetics of electrochemical metallization cells: influence of counter-electrodes in SiO₂/Ag based systems

Parametric study of nanofiber fabrication by biocompatible polymers

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S G Park

SET kinetics of electrochemical metallization cells: influence of counter-electrodes in SiO2/Ag based systems

Parametric study of nanofiber fabrication by biocompatible polymers

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SET kinetics of electrochemical metallization cells: influence of counter-electrodes in SiO₂/Ag based systems