Resistive switching characteristics of ZnO-graphene quantum dots and their use as an active component of an organic memory cell with one diode-one resistor architecture

Authors
Ji, YongsungLee, Sang-ACha, An-NaGoh, MunjuBae, SukangLee, SanghyunSon, Dong IckKim, Tae-Wook
Issue Date
2015-03
Publisher
ELSEVIER
Citation
ORGANIC ELECTRONICS, v.18, pp.77 - 83
Abstract
We investigated the resistive switching characteristics of a polystyrene:ZnO-graphene quantum dots system and its potential application in a one diode-one resistor architecture of an organic memory cell. The log-log I-V plot and the temperature-variable I-V measurements revealed that the switching mechanism in a low-current state is closely related to thermally activated transport. The turn-on process was induced by a space-charge-limited current mechanism resulted from the ZnO-graphene quantum dots acting as charge trap sites, and charge transfer through filamentary path. The memory device with a diode presented a similar to 10(3) I-ON/I-OFF ratio, stable endurance cycles (10(2) cycles) and retention times (10(4) s), and uniform cell-to-cell switching. The one diode-one resistor architecture can effectively reduce cross-talk issue and realize a cross bar array as large as similar to 3 kbit in the readout margin estimation. Furthermore, a specific word was encoded using the standard ASCII character code. (C) 2015 Elsevier B.V. All rights reserved.
Keywords
DEVICES; FILMS; OXIDE; PERFORMANCE; INTEGRATION; DEVICES; FILMS; OXIDE; PERFORMANCE; INTEGRATION; Nonvolatile memory; Organic resistive memory; ZnO-Graphene quantum dot; One diode-one resistor architecture
ISSN
1566-1199
URI
https://pubs.kist.re.kr/handle/201004/125734
DOI
10.1016/j.orgel.2015.01.010
Appears in Collections:
KIST Article > 2015
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