The present communication deals with the development of the titanium dioxide (TiO2) thin films memristor using simple and cost effective hydrothermal route for neuromorphic application. The developed devices show pinched hysteresis loop in current-voltage (I-V) plane, which is the fingerprint characteristic of a memristor. Furthermore, current in the device continuously increases and decreases similar to synaptic weights of the biological neurons. The rectifying property similar to biological synapse is observed in the device which can be converted into the non-rectifying property by the suitable surfactant. The proper surfactant is responsible for the control of data flow in the memristor-based electronic synapse.
Journal of Solid State Electrochemistry – Springer Journals
Published: Nov 8, 2016
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