Reliable Multistate Data Storage with Low Power Consumption by Selective Oxidation of Pyramid-Structured Resistive Memory

Authors
Kirn, YoungjinChoi, HanhyeongPark, Hyun S.Kang, Moon SungShin, Keun-YoungLee, Sang-SooPark, Jong Hyuk
Issue Date
2017-11-08
Publisher
American Chemical Society
Citation
ACS Applied Materials & Interfaces, v.9, no.44, pp.38643 - 38650
Abstract
Multilevel data storage using resistive random access memory (RRAM) has attracted significant attention for addressing the challenges associated with the rapid advances in information technologies. However, it is still difficult to secure reliable multilevel resistive switching of RRAM due to the stochastic and multiple formation of conductive filaments (CFs). Herein, we demonstrate that a single CF, derived from selective oxidation by a structured Cu active electrode, can solve the reliability issue. High-quality pyramidal Cu electrodes with a sharp tip are prepared via the template-stripping method. Morphology-dependent surface energy facilitates the oxidation of Cu atoms at the tip rather than in other regions, and the tip-enhanced electric fields can accelerate the transport of the generated Cu ions. As a result, CF growth occurs mainly at the tip of the pyramidal electrode, which is confirmed by high-resolution electron microscopy and elemental analysis. The RRAM exhibits highly uniform and low forming voltages (the average forming voltage and its standard deviation for 20 pyramid-based RRAMs are 0.645 and 0.072 V, respectively). Moreover, all multilevel resistance states for the RRAMs are clearly distinguished and show narrow distributions within 1 order of magnitude, leading to reliable cell-to-cell performance for MLC operation.
Keywords
SWITCHING MEMORY; FILAMENT FORMATION; BLOCK-COPOLYMER; DEVICES; TRANSITION; GROWTH; CELLS; SWITCHING MEMORY; FILAMENT FORMATION; BLOCK-COPOLYMER; DEVICES; TRANSITION; GROWTH; CELLS; multilevel resistive memory; pyramidal electrode; tip-enhanced electric field; surface energy; conductive filament; resistive switching
ISSN
1944-8244
URI
https://pubs.kist.re.kr/handle/201004/122077
DOI
10.1021/acsami.7b10188
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KIST Article > 2017
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