Found 18 resultsAuthor Title Type [ Year]
Filters: Author is Aono, Masakazu [Clear All Filters]
Scanning tunneling microscope study of a local electronic state surrounding Mn nanoclusters on graphite. Japanese journal of applied physics 45, L469 (2006).
Learning Abilities Achieved by a Single Solid-State Atomic Switch. Advanced Materials 22, 1831–1834 (2010).
Chemical wiring and soldering toward all-molecule electronic circuitry. Journal of the American Chemical Society 133, 8227–8233 (2011).
Memristive operations demonstrated by gap-type atomic switches. Applied Physics A 102, 811–815 (2011).
Sensory and short-term memory formations observed in a Ag2S gap-type atomic switch. Applied Physics Letters 99, 203108 (2011).
Short-term plasticity and long-term potentiation mimicked in single inorganic synapses. Nature materials 10, 591–595 (2011).
Biomimetics: Controlling the Synaptic Plasticity of a Cu2S Gap-Type Atomic Switch (Adv. Funct. Mater. 17/2012). Advanced Functional Materials 22, 3605–3605 (2012).
Controlling the Synaptic Plasticity of a Cu2S Gap-Type Atomic Switch. Advanced Functional Materials 22, 3606–3613 (2012).
Emergent Criticality in Complex Turing B-Type Atomic Switch Networks. Advanced Materials 24, 286–293 (2012).
Neuromorphic atomic switch networks. PloS one 7, e42772 (2012).
On-demand nanodevice with electrical and neuromorphic multifunction realized by local ion migration. ACS nano 6, 9515–9521 (2012).
Unorganized Machines: Emergent Criticality in Complex Turing B-Type Atomic Switch Networks (Adv. Mater. 2/2012). Advanced Materials 24, 142–142 (2012).
Morphological transitions from dendrites to nanowires in the electroless deposition of silver. Crystal Growth & Design 13, 465–469 (2013).
Synaptic plasticity and memory functions achieved in a WO3- x-based nanoionics device by using the principle of atomic switch operation. Nanotechnology 24, 384003 (2013).
A theoretical and experimental study of neuromorphic atomic switch networks for reservoir computing. Nanotechnology 24, 384004 (2013).
Benchtop fabrication of memristive atomic switch networks. Journal of nanoscience and nanotechnology 14, 2792–2798 (2014).
Memristor Networks 173–209 (Springer International Publishing, 2014).
Self-organized atomic switch networks. Japanese Journal of Applied Physics 53, 01AA02 (2014).