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CMOS-compatible synaptic transistor gated by chitosan electrolyte-Ta2O5 hybrid electric double layer.


ABSTRACT: This study proposes a hybrid electric double layer (EDL) with complementary metal-oxide semiconductor (CMOS) process compatibility by stacking a chitosan electrolyte and a Ta2O5 high-k dielectric thin film. Bio-inspired synaptic transistors with excellent electrical stability were fabricated using the proposed hybrid EDL for the gate dielectric layer. The Ta2O5 high-k dielectric layer with high chemical resistance, thermal stability, and mechanical strength enables CMOS-compatible patterning processes on biocompatible organic polymer chitosan electrolytes. This technique achieved ion-conduction from the chitosan electrolyte to the In-Ga-Zn oxide (IGZO) channel layer. The on/off current ratio, subthreshold voltage swing, and the field-effect mobility of the fabricated IGZO EDL transistors (EDLTs) exhibited excellent electrical properties of 1.80?×?107, 96 mV/dec, and 3.73 cm2/V·s, respectively. A resistor-loaded inverter was constructed by connecting an IGZO EDLT with a load resistor (400 M?) in series. This demonstrated good inverter action and responded to the square-wave input signals. Synaptic behaviours such as the hysteresis window and excitatory post-synaptic current (EPSC) variations were evaluated for different DC gate voltage sweep ranges and different AC gate spike stimuli, respectively. Therefore, the proposed organic-inorganic hybrid EDL is expected to be useful for implementing an extremely compact neural architecture system.

SUBMITTER: Min SY 

PROVIDER: S-EPMC7511302 | biostudies-literature | 2020 Sep

REPOSITORIES: biostudies-literature

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CMOS-compatible synaptic transistor gated by chitosan electrolyte-Ta<sub>2</sub>O<sub>5</sub> hybrid electric double layer.

Min Shin-Yi SY   Cho Won-Ju WJ  

Scientific reports 20200923 1


This study proposes a hybrid electric double layer (EDL) with complementary metal-oxide semiconductor (CMOS) process compatibility by stacking a chitosan electrolyte and a Ta<sub>2</sub>O<sub>5</sub> high-k dielectric thin film. Bio-inspired synaptic transistors with excellent electrical stability were fabricated using the proposed hybrid EDL for the gate dielectric layer. The Ta<sub>2</sub>O<sub>5</sub> high-k dielectric layer with high chemical resistance, thermal stability, and mechanical str  ...[more]

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