Abstract

Recent focus of the research community is on identifying multifunctional materials for the realization of high density energy storage capacitors. Present work focuses on the growth of multifunctional BiFeO3 (BFO) thin films using Pulsed Laser Deposition technique for the energy storage application. Influence of Laser fluence (150 mJ to 250 mJ) on the energy storage density of BFO thin films has been identified. The enhanced energy storage density of 191 mJ/cm3 has been accomplished for the BFO thin film deposited at 200 mJ incident laser energy, which is higher compared to the earlier available reports. Results indicate that the proper tuning of laser fluence while deposition of BFO thin films is crucial for the realization of optimum energy storage density capacitors.

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