Fast diffusion of silver in TiO<sub>2</sub> nanotube arrays

Zhang, Wanggang; Liu, Yiming; Zhou, Diaoyu; Wang, Hui; Liang, Wei; Yang, Fuqian

doi:10.3762/bjnano.7.105

Cited by 9 publications

(3 citation statements)

References 40 publications

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“…In addition to the local potential difference between two neighboring lattice sites, the ions must overcome the activation energy E a to perform a hopping process. This energy is set to E a = 0.61 eV corresponding to experimentally observed diffusion coefficients . The diffusion coefficient in a 3D structure is defined as

D = \frac{(⟨⟩, x^{2})}{6 t}

with 〈 x 2 〉 being the square of the average hopping distance and t the time elapsed for the transition.…”

Section: Resultsmentioning

confidence: 99%

Directed Assembly of Nanoparticle Threshold‐Selector Arrays

Speckbacher

Rinderle

Kaiser

et al. 2019

Adv Elect Materials

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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.

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D = \frac{(⟨⟩, x^{2})}{6 t}

with 〈 x 2 〉 being the square of the average hopping distance and t the time elapsed for the transition.…”

Section: Resultsmentioning

confidence: 99%

Directed Assembly of Nanoparticle Threshold‐Selector Arrays

Speckbacher

Rinderle

Kaiser

et al. 2019

Adv Elect Materials

View full text Add to dashboard Cite

show abstract

“…Since the repassivation on crack walls can happen rapidly, Ag is expected to diffuse along the top surface of the oxide film and form islands according to STEM-EDX mapping results in Figure 7(b). The rate of diffusion of Ag on smooth and uniform TiO 2 surfaces has been found to be 10 −18 -10 −21 m 2 /s at 400 °C, based on measurements in previous work [25,51]. However, vapor transport of HCl and Cl 2 to the crack tip is thought to be faster than the solid-state diffusion of Ag, and the presence of Cl has be found to enhance SCC susceptibility.…”

Section: Crack Propagationmentioning

confidence: 88%

AgCl-induced hot salt stress corrosion cracking in a titanium alloy

Shi

Joseph

Saunders

et al. 2020

Preprint

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The mechanism of AgCl-induced stress corrosion cracking of Ti-6246 was examined at 500 MPa and 380 °C for 24 h exposures. SEM and STEM-EDX examination of a FIB-sectioned blister and crack showed that metallic Ag was formed and migrated along the crack. TEM analysis also revealed the presence of SnO 2 and Al 2 O 3 corrosion products mixed into TiO 2 . The fracture surface has a transgranular and brittle appearance with cleavage-like cracking of the α phase. Long, straight and non-interacting dislocations were observed in a cleavage-fractured primary α grain, with basal and pyramidal traces. This is consistent with a dislocation emission view of the the cracking mechanism.

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“…These data implied that surface diffusion facilitated the migration of Ag ions through a 1D path rather than the bulk diffusion. In other words, the diffusivity of Ag along with the pores was enhanced compared to the bulk diffusivity (25,41,42). After the electroforming step, 90 dc sweeps were executed to compare the temporal variations of the devices.…”

Section: Performance Of Memristive Anodic Np-dbl Devicementioning

confidence: 99%

Reliable multilevel memristive neuromorphic devices based on amorphous matrix via quasi-1D filament confinement and buffer layer

et al. 2022

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Conductive-bridging random access memory (CBRAM) has garnered attention as a building block of non–von Neumann architectures because of scalability and parallel processing on the crossbar array. To integrate CBRAM into the back-end-of-line (BEOL) process, amorphous switching materials have been investigated for practical usage. However, both the inherent randomness of filaments and disorders of amorphous material lead to poor reliability. In this study, a highly reliable nanoporous–defective bottom layer (NP–DBL) structure based on amorphous TiO 2 is demonstrated (Ag/a-TiO 2 /a-TiO x /p-Si). The stoichiometries of DBL and the pore size can be manipulated to achieve the analog conductance updates and multilevel conductance by 300 states with 1.3% variation, and 10 levels, respectively. Compared with nonporous TiO 2 CBRAM, endurance, retention, and uniformity can be improved by 10 6 pulses, 28 days at 85°C, and 6.7 times, respectively. These results suggest even amorphous-based systems, elaborately tuned structural variables, can help design more reliable CBRAMs.

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Fast diffusion of silver in TiO₂ nanotube arrays

Cited by 9 publications

References 40 publications

Directed Assembly of Nanoparticle Threshold‐Selector Arrays

Directed Assembly of Nanoparticle Threshold‐Selector Arrays

AgCl-induced hot salt stress corrosion cracking in a titanium alloy

Reliable multilevel memristive neuromorphic devices based on amorphous matrix via quasi-1D filament confinement and buffer layer

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Fast diffusion of silver in TiO2 nanotube arrays

Cited by 9 publications

References 40 publications

Directed Assembly of Nanoparticle Threshold‐Selector Arrays

Directed Assembly of Nanoparticle Threshold‐Selector Arrays

AgCl-induced hot salt stress corrosion cracking in a titanium alloy

Reliable multilevel memristive neuromorphic devices based on amorphous matrix via quasi-1D filament confinement and buffer layer

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Fast diffusion of silver in TiO₂ nanotube arrays