Title :
Optimized Ni Oxidation in 80-nm Contact Holes for Integration of Forming-Free and Low-Power Ni/NiO/Ni Memory Cells
Author :
Goux, Ludovic ; Lisoni, Judit G. ; Wang, Xin Peng ; Jurczak, Malgorzata ; Wouters, Dirk J.
Author_Institution :
Interuniversity Microelectron. Center (IMEC), Leuven, Belgium
Abstract :
In this brief, we integrate oxygen-deficient NiO cells in 80-nm-wide contact holes using complementary metal-oxide-semiconductor-compatible Ni electrodes. Ni/NiO/Ni memory-cell arrays are forming free, and can be operated using very low reset current (< 50 muA) and switching voltage (< 1 V). In contrast to metallic-type filaments formed at high-power switching, low-power switching involves high-resistance semiconducting filaments, probably consisting of oxygen-vacancy-rich paths. Retention tests carried out at 150degC indicated excellent stability of both the high- and low-power set states. Drastic reduction of reset current is also demonstrated for single-contact cells with TiN top electrodes.
Keywords :
MIS devices; flash memories; nickel compounds; Ni-NiO-Ni; TiN; complementary metal-oxide-semiconductor; contact holes; high-power set states; high-power switching; high-resistance semiconducting filaments; low-power set states; low-power switching; memory cell arrays; metallic-type filaments; single-contact cells; size 80 nm; temperature 150 degC; CMOS technology; Dielectric substrates; Electrodes; Lithography; Oxidation; Semiconductivity; Semiconductor materials; Switches; Tin; Voltage; Integration; NiO memory; reset current; scaling;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2009.2028378
