Title :
Design of ReRAM cell structure by metal buffer and contact engineering via first-principles transport calculations
Author :
Nakamura, Hajime ; Miyazaki, Toshimasa ; Nishio, Kenya ; Shmia, Hisashi ; Akinaga, Hiroyuki ; Asai, Yusuke
Author_Institution :
Nat. Inst. of Adv. Ind. Sci. & Technol. (AIST), Tsukuba, Japan
Abstract :
We performed first principles calculations of Resistive Random Access Memory (ReRAM) cell, which consists of HfO2 resistive layer and TiN electrodes, by using nonequilibrium Green´s function theory combined with density functional theory (NEGF-DFT). To analyze the transport mechanism of low/high resistive (ON/OFF) states, we examined several models of the HfOx wire (filament) structures and the oxidized interfaces. We found that concentration of vacancies in a only thin filament provides sufficiently low resistance than that of the thick filament. Furthermore, the oxidized interface by scavenged oxygen ions plays an important role to distinct ON/OFF ratio in low bias voltage. In order to argue the contact effect directly, we evaluated the complex site energies based on the effective Hamiltonian formalism. Then we proposed insertion of thin metal buffer layer to control the contact effects.
Keywords :
Green´s function methods; density functional theory; hafnium compounds; high-k dielectric thin films; random-access storage; titanium compounds; vacancies (crystal); HfO2; NEGF-DFT; ReRAM cell structure design; TiN; complex site energy; contact effect; contact engineering; density functional theory; effective Hamiltonian formalism; electrodes; first-principle transport calculations; low bias voltage; low-high resistive states; nonequilibrium Green function theory; oxidized interfaces; resistive layer; resistive random access memory cell; scavenged oxygen ions; thick filament; thin metal buffer layer insertion; vacancy concentration; wire structures; Couplings; Electrodes; Hafnium compounds; Tin; Wires; First-principles; Material design; ReRAM; oxdized contact; quantum transport;
Conference_Titel :
Computational Electronics (IWCE), 2014 International Workshop on
Conference_Location :
Paris
DOI :
10.1109/IWCE.2014.6865829
