Electrical current distribution across a metal–insulator–metal structure during bistable switching

Rossel, C.; Meijer, G. I.; Brémaud, D.; Widmer, Daniel

doi:10.1063/1.1389522

Cited by 202 publications

(111 citation statements)

References 30 publications

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“…A confined current transport was also found by Yang et al in formed TiO 2 MIM-devices. 10,20 Furthermore, electron beam induced current measurements 21 on Pt/ SrZrO 3 / SRO structures have also shown that confined conduction paths exist below the metal electrode after the electroforming process. In epitaxial Sr 2 TiO 4 thin films, Shibuya et al 22 found another type of forming process which exhibits a "homogeneous" character and can be explained by a homogeneous distribution of the conducting filaments beneath the electrode.…”

Section: Introductionmentioning

confidence: 99%

Impact of the electroforming process on the device stability of epitaxial Fe-doped SrTiO3 resistive switching cells

Menke

Dittmann

Meuffels

et al. 2009

Journal of Applied Physics

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In this work, the results of our detailed investigations on the electroforming procedure in Pt/SrTi0.99Fe0.01O3/SrTi0.99Nb0.01O3 [Pt/STO(Fe)/Nb:STO] metal-insulator-metal (MIM)-devices and its impact on the performance of resistive switching memory devices are presented. Questions about the exact location of the modifications triggered by the electroforming procedure within the investigated MIM-devices will be addressed. From a technological point of view, the thermal stability of formed devices becomes important. An increase in the device resistances during retention measurements has been observed indicating the presence of internal redistribution effects. These may result from an oxygen vacancy gradient induced by the forming process. However, these internal relaxation effects will not end up in the unformed state. Annealing experiments under defined atmospheric conditions allowed distinguishing between internal and external rediffusion effects. We found that SrTiO3 starts to interact with the surrounding atmosphere at moderate temperatures. The occurring external reoxidation effect set the device back to its initial (unformed) state. As a result, the investigated MIM-structures can no longer be regarded as closed systems and presented the large implication on the retention of such devices. The experimental findings are supported by calculations of the penetration depth of oxygen ions/vacancies in SrTiO3.

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Section: Introductionmentioning

confidence: 99%

Impact of the electroforming process on the device stability of epitaxial Fe-doped SrTiO3 resistive switching cells

Menke

Dittmann

Meuffels

et al. 2009

Journal of Applied Physics

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“…This in turn can be changed (write operation) and measured (read) when subjected to an electric field. The insulator layer is a nanometer-thick thin film, which can be composed of a wide variety of materials, such as binary oxides [8], perovskites [9][10][11][12], as well as many other compounds, which are known for their resistance switching properties [13,14].…”

Section: Introductionmentioning

confidence: 99%

TinO2n−1Magnéli phases studied using density functional theory

et al. 2014

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Defects in the rutile TiO 2 structures have been extensively studied, but the intrinsic defects of the oxygendeficient Ti n O 2n−1 phases have not been given the same amount of consideration. Those structures, known as Magnéli phases, are characterized by the presence of ordered planes of oxygen vacancies, also known as shear planes, and it has been shown that they form conducting channels inside TiO-based memristor devices. Memristors are excellent candidates for a new generation of memory devices in the electronics industry. In this paper we present density-functional-theory-based electronic structure calculations for Ti n O 2n−1 Magnéli structures using PBESol+U (0 U 5 eV) and Heyd-Scuseria-Ernzerhof functionals, showing that intrinsic defects present in these structures are responsible for the appearance of states inside the band gap, which can act as intrinsic dopants for the enhanced conductivity of TiO 2 memristive devices.

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“…9 Recently, dielectric perovskite type oxides ͑ABO 3 ͒ have attracted increasing attention as candidates for resistive information storage. [10][11][12] Multilevel storage was demonstrated for Cr-doped SrZrO 3 structures. 10 Here, different resistance levels could be addressed by a variation of length and amplitude of the programming voltage pulse.…”

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confidence: 99%

“…There is still some debate about the physical mechanisms of the resistance change and about the key experimental parameters. Mechanisms under discussion are ͑i͒ trapping/detrapping effects and charge transfer processes via donor and acceptor levels ͑Cr 3+ /Cr 4+ ͒, 10,13 ͑ii͒ a Mott metal-insulator transition, 14 ͑iii͒ formation of local current domains, 12 ͑iv͒ redox processes of extended defects, 15 and ͑v͒ conductivity changes due to a reversal of a local spontaneous polarization. 16 Polarization changes might not be stringently of ferroelectric nature, but might also be due to defect dipoles, e.g., formed by acceptor/oxygen vacancy defect associates.…”

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confidence: 99%

Resistive switching and data reliability of epitaxial (Ba,Sr)TiO3 thin films

Oligschlaeger

Waser

Meyer

et al. 2006

Applied Physics Letters

118

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We report on resistive switching of capacitor-like SrRuO 3 /Ba 0.7 Sr 0.3 TiO 3 / Pt thin films epitaxially grown on SrTiO 3 substrates. We observe a weak but stable hysteresis in the current-voltage curve. By applying short voltage pulses, a high or low resistive state as well as intermediate states can be addressed even at room temperature. We demonstrate a multiple-branch hysteresis curve corresponding to multilevel switching modus revealing different subloops for different write voltages. Furthermore reliability issues such as cycling endurance and data retention are presented. 10 Here, different resistance levels could be addressed by a variation of length and amplitude of the programming voltage pulse. There is still some debate about the physical mechanisms of the resistance change and about the key experimental parameters. Mechanisms under discussion are ͑i͒ trapping/detrapping effects and charge transfer processes via donor and acceptor levels ͑Cr 3+ /Cr 4+ ͒, 10,13 ͑ii͒ a Mott metal-insulator transition, 14 ͑iii͒ formation of local current domains, 12 ͑iv͒ redox processes of extended defects, 15 and ͑v͒ conductivity changes due to a reversal of a local spontaneous polarization. 16 Polarization changes might not be stringently of ferroelectric nature, but might also be due to defect dipoles, e.g., formed by acceptor/oxygen vacancy defect associates. 17 In our present work, we investigate resistive switching of 0.2% chromium-doped Ba 0.7 Sr 0.3 TiO 3 ͑BST͒ capacitorlike thin films of around 40 nm thickness at RT. We investigate in detail multibranch type I͑V͒ curves, which have not been reported for perovskites dielectrics so far. We will present detailed measurements of the multilevel switching and focus on reliability issues such as cycling endurance and data retention.SrRuO 3 ͑SRO͒ bottom electrodes of 100 nm thickness and BST layer of 40 nm thickness are grown in situ epitaxially on single crystalline ͑100͒ oriented SrTiO 3 ͑STO͒ substrates. The films are deposited by pulsed laser ablation while maintaining a substrate temperatur of 700°C and an oxygen base pressure of 0.25 mbar. The epitaxial growth of the bilayers is confirmed by x-ray diffraction measurements ͓Phil-ips PW 3020 ͑Cu K␣͔͒. Pt top electrodes are deposited by sputtering and patterned by optical lithography and a lift-off process to areas of 0.09 mm 2 down to 100 m 2 . The bottom electrode is contacted after removing the BST film from the sample edge by wet chemical etching. A postannealing step in oxygen is performed at 700°C for 5 min. The currentvoltage characteristics are measured with a Keithley 2410 source meter. To protect samples from damages due to high currents a current compliance is used. All samples reveal low initial resistances so that a high voltage treatment prior to quasistatic I͑V͒ characterization or pulse measurements to convert the sample from an insulating state into a low conductive state as described in Ref. 11 for SrTiO 3 single crystals ͑"forming process"͒ is not required here. The stable switching behavior r...

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Electrical current distribution across a metal–insulator–metal structure during bistable switching

Cited by 202 publications

References 30 publications

Impact of the electroforming process on the device stability of epitaxial Fe-doped SrTiO3 resistive switching cells

Impact of the electroforming process on the device stability of epitaxial Fe-doped SrTiO3 resistive switching cells

TinO2n−1Magnéli phases studied using density functional theory

Resistive switching and data reliability of epitaxial (Ba,Sr)TiO3 thin films

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