We describe the memristive properties of cluster-assembled gold films. We show that resistive switching is observed in pure metallic nanostructured films at room temperature and atmospheric pressure, in response to applied voltage inputs. In particular, we observe resistance changes up to 400% and archetypal switching events that have remarkable symmetry with the applied voltage. We associated this symmetry with 'potentiation' and 'anti-potentiation' processes involving the activation of synapses and of pathways comprising multiple synapses. The stability and reproducibility of the resistance switching, which lasted over many hours, make these devices ideal test-beds for exploration of the basic mechanisms of the switching processes, and al...
Memristors have shown an extraordinary potential to emulate the plastic and dynamic electrical behav...
[eng] Electronic machines and computers have experienced a huge development during the last four de...
Memristive devices are attracting a great attention for memory, logic, neural networks, and sensing ...
We describe the memristive properties of cluster-assembled gold films. We show that resistive switch...
Networks based on nanoscale resistive switching junctions are considered promising for the fabricati...
We report a detailed study of neuromorphic switching behaviour in inherently complex percolating net...
Memristive devices are considered one of the most promising candidates to overcome technological l...
Films produced by assembling bare gold clusters well beyond the electrical percolation threshold sho...
Nanowire networks act as self?healing smart materials, whose sheet resistance can be tuned via an ex...
The use of Au clusters produced in the gas phase and deposited at low kinetic energy on a substrate ...
IEEE Nature-inspired neuromorphic architectures are being explored as an alternative to imminent lim...
An optical memristor where the electrical resistance memory depends on the history of both the curre...
Memristive and resistive switching devices are considered promising building blocks for the realizat...
Nanometer-scale resistive switching devices operated in the metallic conductance regime offer ultima...
Memristive and resistive switching devices are considered promising building blocks for the realizat...
Memristors have shown an extraordinary potential to emulate the plastic and dynamic electrical behav...
[eng] Electronic machines and computers have experienced a huge development during the last four de...
Memristive devices are attracting a great attention for memory, logic, neural networks, and sensing ...
We describe the memristive properties of cluster-assembled gold films. We show that resistive switch...
Networks based on nanoscale resistive switching junctions are considered promising for the fabricati...
We report a detailed study of neuromorphic switching behaviour in inherently complex percolating net...
Memristive devices are considered one of the most promising candidates to overcome technological l...
Films produced by assembling bare gold clusters well beyond the electrical percolation threshold sho...
Nanowire networks act as self?healing smart materials, whose sheet resistance can be tuned via an ex...
The use of Au clusters produced in the gas phase and deposited at low kinetic energy on a substrate ...
IEEE Nature-inspired neuromorphic architectures are being explored as an alternative to imminent lim...
An optical memristor where the electrical resistance memory depends on the history of both the curre...
Memristive and resistive switching devices are considered promising building blocks for the realizat...
Nanometer-scale resistive switching devices operated in the metallic conductance regime offer ultima...
Memristive and resistive switching devices are considered promising building blocks for the realizat...
Memristors have shown an extraordinary potential to emulate the plastic and dynamic electrical behav...
[eng] Electronic machines and computers have experienced a huge development during the last four de...
Memristive devices are attracting a great attention for memory, logic, neural networks, and sensing ...