Intrinsic and extrinsic resistive switching in a planar diode based on silver oxide nanoparticles

A. Kiazadeh; H.L. Gomes; A.M. Rosa da Costa; J.A. Moreira; D.M. Leeuw, de; S.C.J. Meskers

doi:10.1016/j.tsf.2012.08.041

Intrinsic and extrinsic resistive switching in a planar diode based on silver oxide nanoparticles

A. Kiazadeh
, H.L. Gomes
, A.M. Rosa da Costa
, J.A. Moreira
, D.M. Leeuw, de
, S.C.J. Meskers

Materials to Optoelectronic Devices

Onderzoeksoutput: Bijdrage aan tijdschrift › Tijdschriftartikel › Academic › peer review

11 Citaten (Scopus)

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Resistive switching is investigated in thin-film planar diodes using silver oxide nanoparticles capped in a polymer. The conduction channel is directly exposed to the ambient atmosphere. Two types of switching are observed. In air, the hysteresis loop in the current–voltage characteristics is S-shaped. The high conductance state is volatile and unreliable. The switching is mediated by moisture and electrochemistry. In vacuum, the hysteresis loops are symmetric, N-shaped and exhibit a negative differential resistance region. The conductance states are non-volatile with good data retention, programming cycling endurance and large current modulation ratio. The switching is attributed to electroforming of silver oxide clusters.

Originele taal-2	Engels
Pagina's (van-tot)	407-411
Aantal pagina's	4
Tijdschrift	Thin Solid Films
Volume	522
DOI's	https://doi.org/10.1016/j.tsf.2012.08.041
Status	Gepubliceerd - 2012

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10.1016/j.tsf.2012.08.041

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title = "Intrinsic and extrinsic resistive switching in a planar diode based on silver oxide nanoparticles",

abstract = "Resistive switching is investigated in thin-film planar diodes using silver oxide nanoparticles capped in a polymer. The conduction channel is directly exposed to the ambient atmosphere. Two types of switching are observed. In air, the hysteresis loop in the current–voltage characteristics is S-shaped. The high conductance state is volatile and unreliable. The switching is mediated by moisture and electrochemistry. In vacuum, the hysteresis loops are symmetric, N-shaped and exhibit a negative differential resistance region. The conductance states are non-volatile with good data retention, programming cycling endurance and large current modulation ratio. The switching is attributed to electroforming of silver oxide clusters.",

author = "A. Kiazadeh and H.L. Gomes and \{Rosa da Costa\}, A.M. and J.A. Moreira and \{Leeuw, de\}, D.M. and S.C.J. Meskers",

year = "2012",

doi = "10.1016/j.tsf.2012.08.041",

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AU - Kiazadeh, A.

AU - Gomes, H.L.

AU - Rosa da Costa, A.M.

AU - Moreira, J.A.

AU - Leeuw, de, D.M.

AU - Meskers, S.C.J.

PY - 2012

Y1 - 2012

N2 - Resistive switching is investigated in thin-film planar diodes using silver oxide nanoparticles capped in a polymer. The conduction channel is directly exposed to the ambient atmosphere. Two types of switching are observed. In air, the hysteresis loop in the current–voltage characteristics is S-shaped. The high conductance state is volatile and unreliable. The switching is mediated by moisture and electrochemistry. In vacuum, the hysteresis loops are symmetric, N-shaped and exhibit a negative differential resistance region. The conductance states are non-volatile with good data retention, programming cycling endurance and large current modulation ratio. The switching is attributed to electroforming of silver oxide clusters.

AB - Resistive switching is investigated in thin-film planar diodes using silver oxide nanoparticles capped in a polymer. The conduction channel is directly exposed to the ambient atmosphere. Two types of switching are observed. In air, the hysteresis loop in the current–voltage characteristics is S-shaped. The high conductance state is volatile and unreliable. The switching is mediated by moisture and electrochemistry. In vacuum, the hysteresis loops are symmetric, N-shaped and exhibit a negative differential resistance region. The conductance states are non-volatile with good data retention, programming cycling endurance and large current modulation ratio. The switching is attributed to electroforming of silver oxide clusters.

U2 - 10.1016/j.tsf.2012.08.041

DO - 10.1016/j.tsf.2012.08.041

M3 - Article

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VL - 522

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EP - 411

JO - Thin Solid Films

JF - Thin Solid Films

ER -

Intrinsic and extrinsic resistive switching in a planar diode based on silver oxide nanoparticles

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