SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4306804828> ?p ?o ?g. }

Showing items 1 to 100 of ±127 with 100 items per page.

W4306804828 endingPage "155353" @default.
W4306804828 startingPage "155353" @default.
W4306804828 abstract "Amorphous Ta2O5 (ATa2O5) films were grown on Sr2Nb3O10/TiN/SiO2/Si (SN-TSS) at room temperature. Sr2Nb3O10 (SN) metal-oxide nanosheets were used as a tunneling barrier to induce self-rectifying properties in ATa2O5 memristors. An ATa2O5 thin film grown on one SN monolayer exhibited a typical bipolar switching curve without any self-rectifying property, indicating that one SN monolayer cannot function as a tunneling barrier. This ATa2O5 thin film showed switching behavior owing to the formation and breakage of oxygen vacancy (OV) filaments. Self-rectifying characteristics were observed in an ATa2O5 thin film grown on two SN monolayers, which behaved as a tunneling barrier in the Pt/ATa2O5/SN-TSS memristor. The current conduction of this ATa2O5 thin film in the high-resistance state (HRS) is explained by Schottky emission, direct tunneling, and Fowler–Nordheim (FN) tunneling. In the low-resistance state (LRS), this ATa2O5 thin film shows insulating behavior, indicating that OV filaments were not formed. The current conduction of this ATa2O5 thin film in the LRS was attributed to direct tunneling and FN tunneling. Moreover, ATa2O5 thin films grown on two SN monolayers exhibited artificial synaptic properties. Therefore, the ATa2O5 thin film can be used as an artificial synapse with a cross-sectional array structure." @default.
W4306804828 created "2022-10-20" @default.
W4306804828 creator A5010898994 @default.
W4306804828 creator A5010989220 @default.
W4306804828 creator A5039636318 @default.
W4306804828 creator A5050379962 @default.
W4306804828 creator A5076387634 @default.
W4306804828 creator A5080140772 @default.
W4306804828 date "2023-01-01" @default.
W4306804828 modified "2023-10-11" @default.
W4306804828 title "Self-rectifying and artificial synaptic characteristics of amorphous Ta2O5 thin film grown on two-dimensional metal-oxide nanosheet" @default.
W4306804828 cites W1983254208 @default.
W4306804828 cites W1984426835 @default.
W4306804828 cites W1987449940 @default.
W4306804828 cites W1997475601 @default.
W4306804828 cites W1998177673 @default.
W4306804828 cites W2013028205 @default.
W4306804828 cites W2020647206 @default.
W4306804828 cites W2036899386 @default.
W4306804828 cites W2038172069 @default.
W4306804828 cites W2045614943 @default.
W4306804828 cites W2066091405 @default.
W4306804828 cites W2068657067 @default.
W4306804828 cites W2072462334 @default.
W4306804828 cites W2092268242 @default.
W4306804828 cites W2095053155 @default.
W4306804828 cites W2117422822 @default.
W4306804828 cites W2117489143 @default.
W4306804828 cites W2143483829 @default.
W4306804828 cites W2149380925 @default.
W4306804828 cites W2163630896 @default.
W4306804828 cites W2319475254 @default.
W4306804828 cites W2325982840 @default.
W4306804828 cites W2336860599 @default.
W4306804828 cites W2518320872 @default.
W4306804828 cites W2526646482 @default.
W4306804828 cites W2532123035 @default.
W4306804828 cites W2537486972 @default.
W4306804828 cites W2564302978 @default.
W4306804828 cites W2805018715 @default.
W4306804828 cites W2813484453 @default.
W4306804828 cites W2886363786 @default.
W4306804828 cites W2888961626 @default.
W4306804828 cites W2910128286 @default.
W4306804828 cites W2964474519 @default.
W4306804828 cites W2965403037 @default.
W4306804828 cites W2970585112 @default.
W4306804828 cites W2972825382 @default.
W4306804828 cites W2990793844 @default.
W4306804828 cites W2993227197 @default.
W4306804828 cites W2993598462 @default.
W4306804828 cites W2996407068 @default.
W4306804828 cites W3002434563 @default.
W4306804828 cites W3008303403 @default.
W4306804828 cites W3012045830 @default.
W4306804828 cites W3023911885 @default.
W4306804828 cites W3028216008 @default.
W4306804828 cites W3066482494 @default.
W4306804828 cites W3087441103 @default.
W4306804828 cites W3091827636 @default.
W4306804828 cites W3161849961 @default.
W4306804828 cites W3189517393 @default.
W4306804828 cites W3205933512 @default.
W4306804828 cites W3212206356 @default.
W4306804828 cites W4205843713 @default.
W4306804828 cites W4214925164 @default.
W4306804828 cites W4220783490 @default.
W4306804828 cites W4224291879 @default.
W4306804828 doi "https://doi.org/10.1016/j.apsusc.2022.155353" @default.
W4306804828 hasPublicationYear "2023" @default.
W4306804828 type Work @default.
W4306804828 citedByCount "2" @default.
W4306804828 countsByYear W43068048282023 @default.
W4306804828 crossrefType "journal-article" @default.
W4306804828 hasAuthorship W4306804828A5010898994 @default.
W4306804828 hasAuthorship W4306804828A5010989220 @default.
W4306804828 hasAuthorship W4306804828A5039636318 @default.
W4306804828 hasAuthorship W4306804828A5050379962 @default.
W4306804828 hasAuthorship W4306804828A5076387634 @default.
W4306804828 hasAuthorship W4306804828A5080140772 @default.
W4306804828 hasConcept C120398109 @default.
W4306804828 hasConcept C16115445 @default.
W4306804828 hasConcept C171250308 @default.
W4306804828 hasConcept C185592680 @default.
W4306804828 hasConcept C19067145 @default.
W4306804828 hasConcept C191897082 @default.
W4306804828 hasConcept C192562407 @default.
W4306804828 hasConcept C2779851234 @default.
W4306804828 hasConcept C49040817 @default.
W4306804828 hasConcept C51967427 @default.
W4306804828 hasConcept C56052488 @default.
W4306804828 hasConcept C7070889 @default.
W4306804828 hasConcept C78434282 @default.
W4306804828 hasConcept C8010536 @default.
W4306804828 hasConceptScore W4306804828C120398109 @default.
W4306804828 hasConceptScore W4306804828C16115445 @default.
W4306804828 hasConceptScore W4306804828C171250308 @default.
W4306804828 hasConceptScore W4306804828C185592680 @default.