Abstract
We demonstrated the coexistence of memresistance, memcapacitance, and meminductance non-volatile bipolar analog resistive switching in Cu (top electrode)/CuO (active layer)/SS (bottom electrode) memory devices with and without presence of the light. The onset of memcapacitance and meminductance is noticed from the pinched-shaped characteristics in the first and third quadrants. The variation in the scan rate also impacts the coexistence characteristics by shifting the intercept point for low resistance (LRS) and high resistance (HRS) states in positive and negative biasing voltages. The durability and retention are measured over a period of 150 cycles and 1500 s with and without light illumination. The slopes for the Weibull cumulative distribution plot for set/reset state with and without light are 106.80/114.23 and 70.21/102.25, respectively, suggesting that the stability of the device increases with light illumination. Interestingly, the memcapacitance disappears after 600 cycles and after 60 . The double logarithmic I-V characteristics suggest the trap-assisted conduction (higher slope >2) in the higher external electric field, and Ohmic behavior in the lower applied field region. Thus, the present study provides a way for low-power electronics and photoresistors together with memresistance, memcapacitance, and meminductance, simultaneously, i. e., MEMRIC in a single device.
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More From: Chemphyschem : a European journal of chemical physics and physical chemistry
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