2016
DOI: 10.1021/acs.jpcc.6b07196
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Multiscale Investigation of Oxygen Vacancies in TiO2 Anatase and Their Role in Memristor’s Behavior

Abstract: The structure, energetics, and transport properties of TiO2 anatase with different densities of oxygen vacancies are studied by computer simulations using a variety of techniques, ranging from first-principles to Monte Carlo methods, to span different time scales. This work is motivated by the recent development of memristive electronic devices, usually made of metal oxides in which arrays of defects control the resistance switching mechanism. Anatase, in particular, emerged as one of the most promising candid… Show more

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Cited by 27 publications
(28 citation statements)
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“…Figure 3 presents a schematic representation that describes the mechanism responsible for an overabundance of oxygen on the surface of the films. Firstly, the oxygen ions from O 2 plasma imping distinct depth into the film [ 70 ] and through the physical diffusion mechanism [ 71 , 72 ] the oxygen reach the surface of the film being the oxygen consumed partially by Ti precursor. Finally, a new ALD cycle starts with the oxygen stored on the subsurface of the nanolaminates.…”
Section: Resultsmentioning
confidence: 99%
“…Figure 3 presents a schematic representation that describes the mechanism responsible for an overabundance of oxygen on the surface of the films. Firstly, the oxygen ions from O 2 plasma imping distinct depth into the film [ 70 ] and through the physical diffusion mechanism [ 71 , 72 ] the oxygen reach the surface of the film being the oxygen consumed partially by Ti precursor. Finally, a new ALD cycle starts with the oxygen stored on the subsurface of the nanolaminates.…”
Section: Resultsmentioning
confidence: 99%
“…Further DFT-based investigations of structural and thermodynamic features of vacancies in various memristive systems were presented recently. [87][88][89][90] Phenomenological models, on the other side, are clearly sufficient for circuit-level simulations but are limited to specific switching mechanism(s) of the memristor and include various physical parameters that describe the active material characteristics in the device, thus reflecting potentially different switching mechanisms. We believe that a thorough understanding of atomic-scale processes leading to memristive behavior is fundamental in order to optimize material properties and help in the design of memory-based devices.…”
Section: Memfractors Memristors and Modelingmentioning
confidence: 99%
“…Our first-principles calculations are based on density functional theory as implemented in the Quantum ESPRESSO (QE) package. [24] We have used a local density approximation (LDA) to treat the exchange-correlation energy of electrons, and norm conserving pseudo potentials to represent the interaction between ionic cores and valence electrons. We employ an energy cut-off of 85 Ry to truncate the plane-wave basis set used in representation of Kohn-Sham wavefunctions.…”
Section: Computational Studiesmentioning
confidence: 99%