Bifunctional nanoparticulated nickel ferrite thin films : Resistive memory and aqueous battery applications

• Herein, excellent non-volatile memory and aqueous battery properties of solution-processable nickel ferrite (NFO) nanomaterial were demonstrated. In the case of non-volatile memory property, the device operates on ±2 V resistive switching voltage and shows double valued charge-magnetic flux characteristics. Excellent endurance (103) and retention (104 s) non-volatile memory properties with a good memory window (103) were observed for NFO memristive device. The conduction and resistive switching mechanisms based on experimental data are provided. Furthermore, the present work investigates the electrochemical performance of the NFO thin film electrode in the different electrolytes (viz. Na2SO4, Li2SO4, and Na2SO4: Li2SO4). It was revealed that the NFO thin film shows improved electrochemical performance in Na2SO4 electrolyte with a high specific capacity of 18.56 mAh/g at 1 mA/cm2 current density. The electrochemical impedance spectroscopic results reveal that the NFO thin film electrode shows low series and charge transfer resistance values for Na2SO4 electrolyte than other electrolytes. The diffusion coefficient of different ions (DNa+, DLi+ and DNa+:Li+) were found to be 9.975 × 10−10 cm2 s−1, 3.292 × 10−11 cm2 s−1, 2 × 10−10 cm2 s−1, respectively. A high diffusion coefficient was found for Na+ ions, indicating rapid Na+ transport with NFO thin-film electrodes © 2021 The Authors

Nyckelord

Aqueous battery

Data storage materials

Energy storage materials

Memristive device

Nickel ferrite

Resistive switching

Charge transfer

Diffusion

Electric batteries

Electrochemical electrodes

Electrolytes

Ferrite

Lithium compounds

Memristors

Nonvolatile storage

Sodium sulfate

Charge transfer resistance

Electrochemical impedance

Electrochemical performance

Flux characteristics

High specific capacity

Non-volatile memory

Resistive switching mechanisms

Thin-film electrode

Thin films

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