论文信息 - Comparative study of non-polar switching behaviors of NiO- and HfO2-based oxide resistive-RAMs

Comparative study of non-polar switching behaviors of NiO- and HfO2-based oxide resistive-RAMs

Abstract This paper presents a detailed comparative study of the switching characteristics of resistive memory devices, with NiO or HfO 2 active materials and Pt electrodes, based on identical integration schemes. Material screening and qualification are performed using structural and composition analyses. Preliminary electrical investigations outline the non-polar switching behavior of both HfO 2 and NiO devices. Then, by using a specific test setup, we present a systematic comparative study of HfO 2 and NiO devices, clearly showing the tunability of the electrical characteristics with material type and process. HfO 2 devices lead to largest High Resistance State/Low Resistance State ratios and higher forming voltages compared to NiO cells, while reset voltages are similar. Data retention of both materials show highly stable Low Resistance State, while High Resistance State increases over time under 85 °C baking.

[1] Qi Liu,et al. Nonpolar Nonvolatile Resistive Switching in Cu Doped $\hbox{ZrO}_{2}$ , 2008, IEEE Electron Device Letters.

[2] M. Aoki,et al. Sub-$\hbox{100-}\mu\hbox{A}$ Reset Current of Nickel Oxide Resistive Memory Through Control of Filamentary Conductance by Current Limit of MOSFET , 2008, IEEE Transactions on Electron Devices.

[3] L. Goux,et al. Coexistence of the bipolar and unipolar resistive-switching modes in NiO cells made by thermal oxidation of Ni layers , 2010 .

[4] B. Kahng,et al. Random Circuit Breaker Network Model for Unipolar Resistance Switching , 2008 .

[5] D. Ielmini,et al. Filament Conduction and Reset Mechanism in NiO-Based Resistive-Switching Memory (RRAM) Devices , 2009, IEEE Transactions on Electron Devices.

[6] S. Yasuda,et al. Nonpolar resistance switching of metal/binary-transition-metal oxides/metal sandwiches: Homogeneous/inhomogeneous transition of current distribution , 2007, cond-mat/0702564.

[7] Heng-Yuan Lee,et al. Low-Power Switching of Nonvolatile Resistive Memory Using Hafnium Oxide , 2007 .

[8] Jang‐Sik Lee,et al. Reproducible resistance switching characteristics of hafnium oxide-based nonvolatile memory devices , 2008 .

[9] Peng Zhou,et al. Endurance enhancement of Cu-oxide based resistive switching memory with Al top electrode , 2009 .