Which mica thickness is best for energy storage?

As shown in Figure S1, compared with other thicknesses, mica with a thickness of 10 µm has the most excellent energy storage performance at high temperature. On the one hand, mica stripped to 10 µm can show good flexibility and work stably for a long time at 1100°C.

Can mica be used as energy storage dielectrics?

In recent years, mica has a tendency to be used as energy storage dielectrics. As shown in Figure S1, compared with other thicknesses, mica with a thickness of 10 µm has the most excellent energy storage performance at high temperature.

Are mica films magnetron sputtered by different insulating layers good for energy storage?

However, conduction losses rise sharply at elevated temperature, limiting the application of energy storage capacitors. Here, the mica films magnetron sputtered by different insulating layers are specifically investigated, which exhibit the excellent high-temperature energy storage performance.

What is the difference between mica and polymer films?

On the other hand, mica has a larger dielectric constant and breakdown strength than polymer films. 13 Compared with polymer films and inorganic ceramic films, mica exhibits better energy storage performance under high-temperature conditions.

What are the characteristics of mica films?

The mica, PMP, PAMAP, and PAPMPAP films exhibit excellent frequency (10 0 ‒10 7 Hz) and temperature (25°C‒150°C) stability. The mica films exhibit the ultrahigh εr (8‒9), which is two to three times than common high-temperature energy storage polymer, such as PEI, PI, Polyethylene terephthalate (PET), Polyetheretherketone (PEEK), PC, etc.

Can flexible thick-film structures be used for energy storage?

(1) Currently, there is a lack of scientific reports dealing with the integration of flexible thick-film structures (film thickness of at least several μm) for energy storage. To date, there is only one report on the fabrication of thick films for energy storage.