Energy Storage and Harvesting Potential of Eco-Friendly Ca-Substituted Ba<sub>0.8</sub>Sr<sub>0.2</sub>TiO<sub>3</sub>/PVDF Ferro-Flexible Composite Films
Lalit Kumar Jena, Sumit Chahal, Supriya Sahoo, Ramamoorthy Boomishankar, Saket Asthana
Abstract
The eco-friendly lead-free Ba 0.8 Sr 0.2 TiO 3 ferroelectrics were synthesized by substituting Ca 2+ on the A site via the conventional solid-state sintering method. Ba 0.8 Sr 0.2– x Ca x TiO 3 ( x = 0, 0.06, 0.08) ceramics exhibit tetragonal phase formation, as determined from the X-ray diffraction (XRD) pattern. However, partial incorporation of Ca 2+ at the Ti 4+ site in BSCT08 was confirmed from XRD and supported by scanning electron microscopy (SEM) analysis. The optimum relaxor nature was observed in BSCT06 with a slimmer P–E loop ( P r = 5.25 μC/cm 2 ). The recoverable energy storage density ( W rec ) and electrostrictive coefficient ( Q 33 ) of BSCT06 were found to be 0.41 J/cm 3 and 0.0223 m 4 /C 2, respectively. The composition BSCT06 was combined with the PVDF polymer via solution casting to fabricate composite thin films for energy harvesting. Characteristic peaks of γ-PVDF with reflections corresponding to the BSCT06 phase were observed from XRD patterns. The composite films demonstrated improved mechanical flexibility through bending and twisting movements; also, the relative permittivity (ε) increased with the addition of the ceramic filler phase in the PVDF matrix. Enhanced breakdown strength ( E b ) of 698 kV/cm was found in 10 wt % BSCT/PVDF as compared to BSCT06 ceramic. W rec of 0.31 J/cm 3 with efficiency of 48% was estimated, which strengthened its potential in energy storage applications. Moreover, ceramic-infused PVDF ferro-flexible film was used to fabricate a prototype piezoelectric energy harvester. The highest peak-to-peak voltage of ∼9.3 V and power density of ∼2.86 μW/cm 2 were obtained for a device using 20 wt % BSCT/PVDF composite film by application of impact force of known value to show its potential in different energy harvesters and sensor applications.