Abstract
In this work, the simultaneous detection of threshold switching and bipolar memory switching in Ag/SiNx/p++-Si devices is investigated. In the DC sweep mode, threshold switching is observed with low compliance current limit (CCL) of 1 μA while memory switching is dominant when high CCL (1 mA) is applied. It is found that in the pulse switching mode, pulse amplitude is an important factor in determining the nature of switching. It has been proven that the strength of the Ag filament formed in the SiNx determines the nonvolatile property of the switching. The undirectional threshold switching behavior in low currents of Ag/SiNx/p++-Si devices could be used as a selector for a low-power unipolar memory. Moreover, operating in two modes in one device will provide more flexibility in device design.
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More From: Journal of Vacuum Science & Technology B, Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena
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