LAUSR

Abstract In this study, we reported the presence of robust, reversible unipolar electric pulse-induced resistance switching effects in copper iodide and La0.7Sr0.3MnO3 nanocomposites. The properties of the resistive switching and change in the I–V pattern was analyzed over 100 cycles by hysteretic pulse current–voltage measurement (pulse width = 0.01 s and pulse period = 0.02 s). The charge transport analysis of various regions of the 1st cycle pointed towards Schottky emission and Poole–Frenkel effect to be the dominant mechanisms in lower bias region and higher bias region respectively. On the other hand, resistive switching turned out to be stable over 1000 cycles of square electrical pulse train measurement where frequency of 125 Hz (pulse period 2 ms and pulse width 100 μ s ) and 250 Hz (pulse period 1 ms and pulse width 50 μ s ) were used.