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Hauptverfasser: Vdovin, Vladimir A., Pyataikin, Ivan I.
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2512.24180
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author Vdovin, Vladimir A.
Pyataikin, Ivan I.
author_facet Vdovin, Vladimir A.
Pyataikin, Ivan I.
contents To examine the process of native corrosion of ultrathin (about 10 nm) copper films deposited on quartz glass substrates $(SiO_2)$ with and without a germanium sublayer, the time dependences of the microwave reflection coefficient $R$ and direct current electrical resistivity $ρ$ of such samples exposed to air at room temperature have been studied. Under these conditions, the thickness of the oxide layer $d$ on $Cu/SiO_2$ films was found to increase over time $t$ according to a parabolic law, which is in contradiction with the predictions of existing theories of copper oxidation. A model is proposed that explains this behavior of $d(t)$ by the diffusion of atomic oxygen along the boundaries of oxide grains towards the copper film with its subsequent oxidation. The $R$ and $ρ$ of $Cu/Ge/SiO_2$ films were found to degrade much more slowly than similar characteristics of $Cu/SiO_2$ films of the same thickness. The high corrosion resistance of $Cu/Ge/SiO_2$ films is explained by the peculiarities of $Ge$ redistribution during the growth of the copper film on a germanium sublayer. The long-term retention by $Cu/Ge/SiO_2$ films of their characteristics allows them to be recommended as a cheap replacement for gold coating in electromagnetic interference protection devices.
format Preprint
id arxiv_https___arxiv_org_abs_2512_24180
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The effect of germanium sublayer on the native corrosion of ultrathin copper films
Vdovin, Vladimir A.
Pyataikin, Ivan I.
Materials Science
To examine the process of native corrosion of ultrathin (about 10 nm) copper films deposited on quartz glass substrates $(SiO_2)$ with and without a germanium sublayer, the time dependences of the microwave reflection coefficient $R$ and direct current electrical resistivity $ρ$ of such samples exposed to air at room temperature have been studied. Under these conditions, the thickness of the oxide layer $d$ on $Cu/SiO_2$ films was found to increase over time $t$ according to a parabolic law, which is in contradiction with the predictions of existing theories of copper oxidation. A model is proposed that explains this behavior of $d(t)$ by the diffusion of atomic oxygen along the boundaries of oxide grains towards the copper film with its subsequent oxidation. The $R$ and $ρ$ of $Cu/Ge/SiO_2$ films were found to degrade much more slowly than similar characteristics of $Cu/SiO_2$ films of the same thickness. The high corrosion resistance of $Cu/Ge/SiO_2$ films is explained by the peculiarities of $Ge$ redistribution during the growth of the copper film on a germanium sublayer. The long-term retention by $Cu/Ge/SiO_2$ films of their characteristics allows them to be recommended as a cheap replacement for gold coating in electromagnetic interference protection devices.
title The effect of germanium sublayer on the native corrosion of ultrathin copper films
topic Materials Science
url https://arxiv.org/abs/2512.24180