Structural-phase and Electrophysical Properties of Nanocomposits Based on the “Glass-Ni3B” System, Received by the Cathode Beam Annealing

Authors Ya.I. Lepikh , T.I. Lavrenova, N.M. Sadovaja
Affiliations

Interdepartmental Scientific-Educational Physicotechnical Centre of MES and NAS of Ukraine at the Odessa I.I. Mechnikov National University, 2, Dvoryanskaya str., 06582 Odesa, Ukraine

Е-mail ndl_lepikh@onu.edu.ua
Issue Volume 9, Year 2017, Number 5
Dates Received 24 August 2017; published online 16 October 2017
Citation Ya.I. Lepikh, T.I. Lavrenova, N.M. Sadovaja, J. Nano- Electron. Phys. 9 No 5, 05005 (2017)
DOI 10.21272/jnep.9(5).05005
PACS Number(s) 60.61
Keywords Materials for film elements of hybrid integrated circuits, Structural-phase and physical properties.
Annotation In this work the opportunity of replacement of conductors based on the precious ruthenium, silver - palladium and gold materials in thick-film elements of hybrid integrated circuits (HIS) by conductors based on nickel boride has been investigated. The structural-phase and electro-physical properties of the film conducting elements based on Ni3B, received at annealing with the help of the cathode beam (CB) and in the furnace has been investigated. It has been established, that the functional materials based on Ni3B are stable enough at radiative-thermal influence and can be used at conducting pastes manufacturing. Conducting elements based on nickel, annealed with the help of CB, on the electrophysical parameters do not concede to conductors based on the ruthenium, silver – palladium compounds, withstand a repeated burning out without the property deterioration.

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