Resistive Switching and Charge Transport in Laser-Fabricated Graphene Oxide Memristors: A Time Series and Quantum Point Contact Modeling Approach

Identificadores
URI: http://hdl.handle.net/10481/58590
Exportar
RISMendeleyBibtex
Estadísticas
View Usage Statistics
Metadata
Show full item record
Author
Rodríguez Santiago, Noel; Maldonado, D.; Romero Maldonado, Francisco Javier; Alonso Morales, Francisco J.; Aguilera Del Pino, Ana María; Godoy Medina, Andrés; Jiménez Molinos, Francisco; García Ruiz, Francisco Javier; Roldán Aranda, Juan Bautista
Editorial
MDPI
Materia
Memristor
 
RRAM
 
Variability
 
Time series modeling
 
Autocovariance
 
Graphene oxide
 
Lasers
 
Date
2019-11-13
Referencia bibliográfica
Rodriguez, N., Maldonado, D., Romero, F. J., Alonso, F. J., Aguilera, A. M., Godoy, A., ... & Roldan, J. B. (2019). Resistive Switching and Charge Transport in Laser-Fabricated Graphene Oxide Memristors: A Time Series and Quantum Point Contact Modeling Approach. Materials, 12(22), 3734.
Sponsorship
The authors thank the support of the Spanish Ministry of Science, Innovation and Universities under projects TEC2017-89955-P, TEC2017-84321-C4-3-R, MTM2017-88708-P and project PGC2018-098860-B-I00 (MCIU/AEI/FEDER, UE), and the predoctoral grant FPU16/01451.
Abstract
This work investigates the sources of resistive switching (RS) in recently reported laser-fabricated graphene oxide memristors by means of two numerical analysis tools linked to the Time Series Statistical Analysis and the use of the Quantum Point Contact Conduction model. The application of both numerical procedures points to the existence of a filament connecting the electrodes that may be interrupted at a precise point within the conductive path, resulting in resistive switching phenomena. These results support the existing model attributing the memristance of laser-fabricated graphene oxide memristors to the modification of a conductive path stoichiometry inside the graphene oxide.
Collections
Atribución 3.0 España
Except where otherwise noted, this item's license is described as Atribución 3.0 España