Metallic conduction in the nanoporous silicon layers on the PZT-ceramics surface | Izvestiya vuzov. Fizika. 2022. № 9. DOI: 10.17223/00213411/65/9/122

Metallic conduction in the nanoporous silicon layers on the PZT-ceramics surface

Nanoporous silicon and ceramics based on lead zirconate titanate (PZT-ceramics) have unique properties in themselves. It is shown that their mechanochemical interaction makes it possible to create compositions with a metallic type of conductivity. The formation of conductive paths occurs when silicon particles wedged into microcracks, creating unique highly sensitive layers of piezoceramic compounds, incl. intercalates. Silicon atoms embedded deform the elementary cells of crystals and redistribute charges in them. The connection with the lattice is formed due to the transition of electrons to the boundary layers or the space between them. In the transition layers at T < 260 K, chains with electrical conductivity of the metallic type appear, shunting the piezodielectric.

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Keywords

piezoelectric effect, piezoelectric element, mechanochemistry, microcracks, perovskite, intercalates

Authors

Name	Organization	E-mail
Shalimov V.V.	Silicium Company	vladimir057@yandex.ru
Yakushev P.N.	Ioffe Institute	yak@pav.ioffe.ru

Всего: 2

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