Artículos de revistas
HfO2 based memory devices with rectifying capabilities
Fecha
2013-12Registro en:
Levy, Pablo Eduardo; Hueso, L.; Stoliar, Pablo Alberto; Casanova, F.; Golmar, Federico; Marlasca, F. G.; et al.; HfO2 based memory devices with rectifying capabilities; American Institute of Physics; Journal of Applied Physics; 115; 2; 12-2013; 24501-24501
0021-8979
CONICET Digital
CONICET
Autor
Quinteros, Cynthia Paula
Zaspe, R.
Marlasca, F. G.
Golmar, Federico
Casanova, F.
Stoliar, Pablo Alberto
Hueso, L.
Levy, Pablo Eduardo
Resumen
We report on the fabrication and characterization of metal/insulator/metal capacitor like devices, with both rectifying and hysteretic features. Devices are formed by two junctions, Ti/HfO2 and Co/HfO2. Each junction exhibits highly repetitive hysteretic I-V curves with a sharp transition from a high to a low resistance state (3–4 orders of magnitude jump). The opposite transition (from low to high) is induced by polarity reversal. The rectifying non-crossing characteristics of the I-V branches denote their potential use as a multifunctional device, acting as a built-in rectifier and memory cell in a single device. Based on the phenomenological model description by Zazpe et al. [Appl. Phys. Lett. 103, 073114 (2013)], we propose a circuital equivalent representation supported on switchable rectifying junctions. By exploring different electrode connections, we disentangle the role of the bulk transport in HfO2 devices.