Intrinsic breakdown strength: theoretical derivation and first-principles calculations

Abstract

Intrinsic breakdown strength (Fbd), as the theoretical upper limit of electric field strength that a material can sustain, plays important roles in determining dielectric and safety performance. The well accepted concept is that a larger band gap (Eg) often leads to a larger intrinsic breakdown strength. In this work, we analytically derive a simplified model of Fbd, showing a linear relationship between Fbd and the maximum electron density of states (DOSmax) within the energy range spanning from the conduction band minimum (CBM) to CBM+Eg. Using the Wannier interpolation technique to reduce the cost of calculating the Fbd for various three- and two-dimensional materials, we find that the calculated Fbd did not show any simple relationship with band gap, but it behaves linearly with the DOSmax, consistent with our theoretical derivation. Our work shows that the DOSmax is more fundamental than the band gap value in determining the Fbd, thus providing useful physical insights into the intrinsic dielectric breakdown strength and opening directions for improving high-power devices. The dimensional effects on Fbd has also been revealed that monolayers tend to have larger Fbd due to reduced screening effects.

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