Memristive behavior in a junctionless flash memory cell
Date
2015Author
Orak, Ikram and Urel, Mustafa and Bakan, Gokhan and Dana, Aykutlu
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Show full item recordAbstract
We report charge storage based memristive operation of a junctionless
thin film flash memory cell when it is operated as a two terminal device
by grounding the gate. Unlike memristors based on nanoionics, the
presented device mode, which we refer to as the flashristor mode,
potentially allows greater control over the memristive properties,
allowing rational design. The mode is demonstrated using a depletion
type n-channel ZnO transistor grown by atomic layer deposition (ALD),
with HfO2 as the tunnel dielectric, Al2O3 as the control dielectric, and
non-stoichiometric silicon nitride as the charge storage layer. The
device exhibits the pinched hysteresis of a memristor and in the
unoptimized device, R-off/R-on ratios of about 3 are presented with low
operating voltages below 5 V. A simplified model predicts R-off/R-on
ratios can be improved significantly by adjusting the native threshold
voltage of the devices. The repeatability of the resistive switching is
excellent and devices exhibit 10(6) s retention time, which can, in
principle, be improved by engineering the gate stack and storage layer
properties. The flashristor mode can find use in analog information
processing applications, such as neuromorphic computing, where
well-behaving and highly repeatable memristive properties are desirable.
(C) 2015 AIP Publishing LLC.
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