Title :
The Temperature Dependence in Nanoresistive Switching of HfAlO
Author :
Zhou, Peng ; Ye, Li ; Sun, Qing-Qing ; Chen, Lin ; Ding, Shi-Jin ; Jiang, An-Quan ; Zhang, David Wei
Author_Institution :
Dept. of Microelectron., Fudan Univ., Shanghai, China
Abstract :
Critical-temperature regions for resistive switching were found based on HfAlO resistive switching memory. From 5 to 300 K, the resistive switching appears at 60 K, and then a reversible bipolar switching between the two states is observed at above 150 K. It is suggested that the resistive switching characteristics are governed by thermal-assisted percolating conductive paths. The process of low electron occupied region under the external electrical field in different temperature plays a dominated role with the oxygen vacancies movement and recombination in this region. This temperature dependence is originated from different electron transport behavior among oxygen vacancies along conductive filaments at different temperatures.
Keywords :
hafnium compounds; random-access storage; switching; vacancies (crystal); HfAlO; conductive filaments; critical-temperature regions; electron transport behavior; external electrical field; low electron occupied region; nanoresistive switching; oxygen vacancies movement; resistive switching characteristics; resistive switching memory; reversible bipolar switching; temperature 5 K to 300 K; temperature dependence; thermal-assisted percolating conductive paths; Hafnium compounds; Heating; Switches; Temperature distribution; Temperature measurement; Tin; Critical region; low temperature; resistive switching;
Journal_Title :
Nanotechnology, IEEE Transactions on
DOI :
10.1109/TNANO.2012.2212453
