2005
DOI: 10.1063/1.2150580
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Electrode dependence of resistance switching in polycrystalline NiO films

Abstract: We investigated resistance switching in top-electrode/NiO∕Pt structures where the top electrode was Au, Pt, Ti, or Al. For Pt∕NiO∕Pt and Au∕NiO∕Pt structures with ohmic contacts, the effective electric field inside the film was high enough to induce trapping or detrapping at defect states and thus resistance switching. For a Ti∕NiO∕Pt structure with well-defined Schottky contact at Ti∕NiO interface accompanied by an appreciable voltage drop, the effective electric field inside the NiO film was not enough to in… Show more

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Cited by 97 publications
(59 citation statements)
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“…[8][9][10][11][12][13][14][15] In many of the applications mentioned above, deposition techniques capable of yielding good step coverage on complex-shaped substrate surfaces, and good uniformity in terms of thickness and properties, are essential. These requirements make ALD an interesting technique for the deposition of NiO films, particularly as the dimensions of the device structures are continually being reduced.…”
Section: Introductionmentioning
confidence: 99%
“…[8][9][10][11][12][13][14][15] In many of the applications mentioned above, deposition techniques capable of yielding good step coverage on complex-shaped substrate surfaces, and good uniformity in terms of thickness and properties, are essential. These requirements make ALD an interesting technique for the deposition of NiO films, particularly as the dimensions of the device structures are continually being reduced.…”
Section: Introductionmentioning
confidence: 99%
“…Because the work functions of different electrodes can vary considerably, the type of contact between an electrode and a resistive-switching layer can be determined by Ohmic or Schottky contact. For Ohmic contact, the voltage drop at an electrode/resistive-switching layer interface can be negligible, and the effective electric field inside the resistive-switching film is high enough to induce resistive switching [12,13]. For Schottky contact, if a low Schottky barrier is formed, the voltage drop at an electrode/resistive switching layer interface is small but not negligible [12].…”
Section: Electrode Materialsmentioning
confidence: 99%
“…For Ohmic contact, the voltage drop at an electrode/resistive-switching layer interface can be negligible, and the effective electric field inside the resistive-switching film is high enough to induce resistive switching [12,13]. For Schottky contact, if a low Schottky barrier is formed, the voltage drop at an electrode/resistive switching layer interface is small but not negligible [12]. On the other hand, if the Schottky barrier height is quite large, the voltage drop at an electrode/ resistive-switching layer interface is appreciable and the effective electric field inside the resistive-switching film is insufficient to induce resistive switching [13].…”
Section: Electrode Materialsmentioning
confidence: 99%
“…[8] Several hypotheses have been proposed to explain the conductivity switching phenomena. 'Domain tunneling model' [9] and Schottky model [6] are two such examples. Another leading hypothesis is that conductivity switching originates from the repetitive formation and rupturing of a conducting filament in the transition metal oxide matrix [3] Although numerous studies have been done on the transport properties of the transition metal oxides (cf, e.g.…”
Section: Introductionmentioning
confidence: 99%
“…The bistable conductivity switching phenomena have been observed in many kinds of transition metal oxides, such as NB 2 O 5 , [1] TiO 2 , [2] NiO [3 -5] nonstoichiometric ZrO x , [6] Cr-dopedSrZrO 3 , [7] and Pr 1−x Ca x MnO 3 . [8] Several hypotheses have been proposed to explain the conductivity switching phenomena.…”
Section: Introductionmentioning
confidence: 99%