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Memory Effect by Carrier Trapping Into V3Si Nanocrystals Among SiO2 Layers on Multi-Layered Graphene Layer

Authors
Lee, Dong UkKim, DongwookLee, Kyoung SuKim, Eun Kyu
Issue Date
Nov-2014
Publisher
American Scientific Publishers
Keywords
Nanocrystals; V3Si; Nonvolatile Memory; Graphene
Citation
Journal of Nanoscience and Nanotechnology, v.14, no.11, pp 8654 - 8658
Pages
5
Indexed
SCIE
SCOPUS
Journal Title
Journal of Nanoscience and Nanotechnology
Volume
14
Number
11
Start Page
8654
End Page
8658
URI
https://scholarworks.bwise.kr/hanyang/handle/2021.sw.hanyang/143298
DOI
10.1166/jnn.2014.9985
ISSN
1533-4880
1533-4899
Abstract
We report the electrical characteristics and conduction mechanism of a resistive switching memory device consisting of V3Si nanocrystals embedded in the SiO2 layer on multi-layered graphene. The V3Si nanocrystals with average size of 5 nm were formed between the SiO2 layers by thin film deposition and post-annealing process at 800 degrees C for 5 s. The current values of high (HRS) and low resistance states (LRS) at 1 V were measured to be about 3.26 x 10(-9) A and 3.11 x 10(-8) A, respectively. The ratio of the HRS and LRS after applying sweeping bias of +/- 6 V appeared to be about 9.54 at 1 V. The resistance switching could originate from the effect of carrier trap and emission into the V3Si nanocrystals via the tunneling, space charge limited current, and thermionic emission mechanisms controlled by the modulation of the Fermi level of the graphene layer. The V3Si nanocrystals memory device has a strong possibility for the application of nonvolatile memory devices.
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