2022
DOI: 10.1021/acsami.2c13478
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Improved Performance of the Al2O3-Protected HfO2–TiO2 Base Layer with a Self-Assembled CH3NH3PbI3 Heterostructure for Extremely Low Operating Voltage and Stable Filament Formation in Nonvolatile Resistive Switching Memory

Abstract: Herein, we report intriguing observations of an extremely stable nonvolatile bipolar resistive switching (NVBRS) memory device fabricated using HfO 2 −TiO 2 topologically protected by Al 2 O 3 as a stacked base layer for a CH 3 NH 3 PbI 3 (MAPI) electrolyte layer sandwiched between Ag and fluorine-doped tin oxide (FTO) electrodes. MAPI has been successfully synthesized by a rapid microwave−solvothermal (MW-ST) method within 10 min at 120 °C without requiring any inert gas atmosphere using lowcost precursors an… Show more

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Cited by 14 publications
(15 citation statements)
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“…However, upon illumination, V I vacancies move randomly, thus creating a high built-in electric field thus requiring an increased V RESET to dissociate the CFs. 23 Thus, the variation in the operating voltage upon illumination attributed to the randomness of the halide vacancies migration, further confirms the presence of the V I -based CF formation for the resistive switching performance. 55,56 izes the complete device performance of the fabricated Ag/APbI 3 /FTO (A = MA + , FA + , MAFA + , CsMA + , and CsMAFA + ) non-volatile bipolar resistive switching memory devices.…”
Section: Nanoscale Papersupporting
confidence: 55%
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“…However, upon illumination, V I vacancies move randomly, thus creating a high built-in electric field thus requiring an increased V RESET to dissociate the CFs. 23 Thus, the variation in the operating voltage upon illumination attributed to the randomness of the halide vacancies migration, further confirms the presence of the V I -based CF formation for the resistive switching performance. 55,56 izes the complete device performance of the fabricated Ag/APbI 3 /FTO (A = MA + , FA + , MAFA + , CsMA + , and CsMAFA + ) non-volatile bipolar resistive switching memory devices.…”
Section: Nanoscale Papersupporting
confidence: 55%
“…20 For more than a decade, our research group has effectively adopted the microwave-assisted hydrothermal/solvothermal (MW-HT/ST) technique to prepare various advanced functional materials within a few minutes. [20][21][22][23] In the present study, we successfully demonstrate the effective doping of various inorganic and organic cations in the A-site of APbI 3 (A = MA + , FA + , MAFA + , CsMA + , and CsMAFA + ) perovskite structure to form methylammonium lead iodide (MAPI), formamidinium lead iodide (FAPI), methyl ammonium formamidinium lead iodide (MAFAPI), cesium methylammonium lead iodide (CsMAPI) and cesium methylammonium formamidinium lead iodide (CsMAFAPI) powders using an energy-efficient and ultra-fast MW-ST method within 10 minutes at 120 °C without requiring any inert-gas atmosphere. The as-synthesized MHP powders were dissolved in aprotic solvents, DMF : DMSO (8 : 2) and subsequently, were allowed to recrystallize via the solution-based nanoscale selfassembled process into a thin film using the facile and costeffective spin-coating technique, upon annealing at 120 °C.…”
Section: Introductionmentioning
confidence: 99%
“…At constant ramp time of 10 min, an increase in temperature of precursors from 313 to 394 K is observed, which supplies enough standard total free energy of activation (ΔG ╪ ) ( Figure 1 b, B‐1) calculated by Eyring equation. [ 23–25 ] Consequently, it enhances the activation energy ( E a ) of the reactants, leading to the diffusion in crystallites of tz ‐BiVO 4 phase (B‐1). The reaction rate is calculated by Equation (1)k=TknormalBheΔG/RTwhere T stands for absolute temperature in Kelvin, k is rate constant, k B is Boltzmann constant, h is the Planck's constant, R denotes universal gas constant, and Δ G ╪ denotes the standard total Gibbs free energy of activation difference between the reactants and transition state, i.e., energy available to do useful work.…”
Section: Resultsmentioning
confidence: 99%
“…At constant ramp time of 10 min, an increase in temperature of precursors from 313 to 394 K is observed, which supplies enough standard total free energy of activation (ΔG ǂ ) (Figure 1b, B-1) calculated by Eyring equation. [23][24][25] Consequently, it enhances the activation energy (E a ) of the reactants, leading to the diffusion in crystallites of tz-BiVO 4 phase (B-1). The reaction rate is calculated by Equation ( 1)…”
Section: Thermodynamics Of Mw-ht Synthesize Crystalline Phase Change ...mentioning
confidence: 99%
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