Dashan Shang scite author profile

Electronic synaptic devices are important building blocks for neuromorphic computational systems that could go beyond the constraints of von Neumann architecture. Although two-terminal memristive devices have been demonstrated to be possible candidates, they suffer from several shortcoming related to the filament formation mechanism including non-linear switching, write noise, and high device conductance, all of which limit the accuracy and energy efficiency. Electrochemical three-terminal transistors, in which the channel conductance can be tuned without filament formation provide an alternative platform for synaptic electronics. Here, we demonstrate an all-solid-state electrochemical transistor made with Li-ion-based solid dielectric and two-dimensional α-phase molybdenum oxide (α-MoO 3 ) nanosheets as the channel. These devices achieve nonvolatile conductance modulation in an ultralow conductance regime (<75 nS) by reversible intercalation of Li-ions into the α-MoO 3 lattice. Based on this operating mechanism, the essential functionalities of synapses, such as short-and longterm synaptic plasticity and bidirectional near-linear analog weight update have been demonstrated. Simulations using the handwritten digits data sets demonstrate high recognition accuracy (94.1%) of the synaptic transistor arrays. These results provide an insight into the application of two-dimensional oxides for large-scale, energy-efficient neuromorphic computing networks.Received: ((will be filled in by the editorial staff))Revised: ((will be filled in by the editorial staff))

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A Synaptic Transistor based on Quasi‐2D Molybdenum Oxide

Yang

et al. 2017

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Biological synapses store and process information simultaneously by tuning the connection between two neighboring neurons. Such functionality inspires the task of hardware implementation of neuromorphic computing systems. Ionic/electronic hybrid three-terminal memristive devices, in which the channel conductance can be modulated according to the history of applied voltage and current, provide a more promising way of emulating synapses by a substantial reduction in complexity and energy consumption. 2D van der Waals materials with single or few layers of crystal unit cells have been a widespread innovation in three-terminal electronic devices. However, less attention has been paid to 2D transition-metal oxides, which have good stability and technique compatibility. Here, nanoscale three-terminal memristive transistors based on quasi-2D α-phase molybdenum oxide (α-MoO ) to emulate biological synapses are presented. The essential synaptic behaviors, such as excitatory postsynaptic current, depression and potentiation of synaptic weight, and paired-pulse facilitation, as well as the transition of short-term plasticity to long-term potentiation, are demonstrated in the three-terminal devices. These results provide an insight into the potential application of 2D transition-metal oxides for synaptic devices with high scaling ability, low energy consumption, and high processing efficiency.

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Effect of carrier trapping on the hysteretic current-voltage characteristics inAg∕La0.7Ca0.3MnO3∕Ptheterostructures

et al. 2006

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Dashan Shang

All‐Solid‐State Synaptic Transistor with Ultralow Conductance for Neuromorphic Computing

A Synaptic Transistor based on Quasi‐2D Molybdenum Oxide

Effect of carrier trapping on the hysteretic current-voltage characteristics inAg∕La0.7Ca0.3MnO3∕Ptheterostructures

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