fig7
![Optimizing the energy storage performance of NaNbO<sub>3</sub> ceramics by rare-earth-based composite perovskite Sm(Mg<sub>0.5</sub>Zr<sub>0.5</sub>)O<sub>3</sub> modification](https://image.oaes.cc/4b623cc5-91f8-4cb6-a3ed-f2492c1344ef/microstructures3019.fig.7.jpg)
Figure 7. Unipolar P-E hysteresis loops (A and D), the corresponding energy storage properties (B and E), and Pmax, ΔP, and Pr (C and F) for 0.08 SMZ ceramics at different frequencies and temperatures under different electric fields.
Figure 7. Unipolar P-E hysteresis loops (A and D), the corresponding energy storage properties (B and E), and Pmax, ΔP, and Pr (C and F) for 0.08 SMZ ceramics at different frequencies and temperatures under different electric fields.
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