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).
Short-term plasticity and long-term potentiation mimicked in single inorganic synapses. Nature materials 10, 591–595 (2011).
Sensory and short-term memory formations observed in a Ag2S gap-type atomic switch. Applied Physics Letters 99, 203108 (2011).
On-demand nanodevice with electrical and neuromorphic multifunction realized by local ion migration. ACS nano 6, 9515–9521 (2012).
Memristive operations demonstrated by gap-type atomic switches. Applied Physics A 102, 811–815 (2011).
Learning Abilities Achieved by a Single Solid-State Atomic Switch. Advanced Materials 22, 1831–1834 (2010).
Controlling the Synaptic Plasticity of a Cu2S Gap-Type Atomic Switch. Advanced Functional Materials 22, 3606–3613 (2012).
Chemical wiring and soldering toward all-molecule electronic circuitry. Journal of the American Chemical Society 133, 8227–8233 (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).