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W4382679758 abstract "We demonstrated the resistive random access memory characteristics for Cu (top contact)/BFO/PMMA (active layer)/ITO (bottom electrode)/PET sheet as a flexible substrate device configuration. The device showed non-volatile bipolar resistive switching characteristics with good repeatability and the coexistence of NDR for 100 cycles or more with 0.28/3.43 mW power consumption for 1st/100th cycles. The device retains its read state for 104 s or more and switches from LRS to HRS or vice versa for 103 cycles with a pulse width of 100 ms for a write-read-erase-read pulse without affecting the memory characteristics. The Weibull distribution suggests that a set state is more stable than the reset state with shape factor β = 25.20. The device follows Ohmic behavior for the lower applied external field and Child square and Schottky emission for the higher external fields. The Joule heating, Sorets, and Fick's forces are responsible for the formation and rupturing of ionic filament. The coexistence of resistive switching and flexible strength of the device sustains the bending curvature of infinity, 0.2 cm, 1 cm, 1.7 cm, and 2.2 cm. The memory characteristics are retained under tensile conditions for 100 cycles or more. More interestingly, the power consumption for sustaining the NDR region with bending (19 μW) is much lower than without bending (0.19 mW). Thus, this study provides the possibility of integrating BFO with flexible substrates suitable for hybrid organic/inorganic memory structures." @default.
W4382679758 created "2023-07-01" @default.
W4382679758 creator A5062295530 @default.
W4382679758 creator A5062317946 @default.
W4382679758 creator A5080170701 @default.
W4382679758 date "2023-01-01" @default.
W4382679758 modified "2023-09-27" @default.
W4382679758 title "Low Power Highly Flexible BiFeO3 based Resistive Random-Access Memory (RRAM) with Coexistence of Negative Differential Resistance (NDR)" @default.
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W4382679758 doi "https://doi.org/10.1039/d3cp02235h" @default.
W4382679758 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37455647" @default.
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