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Document type:
Zeitschriftenaufsatz 
Author(s):
Speckbacher, M.; Rinderle, M.; Kaiser, W.; Osman, E.A.; Chryssikos, D.; Cattani‐Scholz, A.; Gibbs, J.M.; Gagliardi, A.; Tornow, M. 
Title:
Directed Assembly of Nanoparticle Threshold‐Selector Arrays 
Abstract:
The directed assembly of ordered arrays of cubic silver nanoparticles featuring distinct electrical threshold‐switching characteristics is reported. Threshold selectors are key elements for nonvolatile resistive random‐access‐memory architectures, as they suppress sneak path currents in crosspoint arrays. Nanocubes are site‐selectively immobilized on a TiO2‐coated silicon surface via a complementary molecular surface functionalization of nanoparticles and substrate based on a Cu(I)‐catalyzed alkyne‐azide cycloaddition without any physical template. Electrical characterization of individual silver nanocubes by conductive‐probe atomic force microscopy reveals pronounced and reproducible threshold‐switching behavior, featuring ultralow OFF currents below 1 pA, steep turn‐on slopes of <50 mV dec−1 and ON‐OFF ratios in excess of 103. Numerical simulation of Ag‐ion migration dynamics in the TiO2 electrolyte using a kinetic Monte Carlo model supports a switching mechanism based on conductive filament formation from Ag nanoclusters, and their reversible rupture in the low‐voltage regime. Assembled Ag nanocube threshold selectors are proposed for applications in memristive memory architectures, in particular for future highly integrated 3D circuitry. 
Keywords:
click chemistry directed assembly metal filaments nanoparticles threshold switching 
Journal title:
Adv. Electron. Mater. 2019, 1900098 2019-05 
Year:
2019 
Year / month:
2019-05 
Quarter:
2. Quartal 
Month:
May 
Pages contribution:
1-9 
Language:
en 
Publisher:
Wiley Online Library