Effect of the burning temperature on the phase composition, photovoltaic response, and electrical properties of Ag/Pd resistive films

Silver-palladium (Ag/Pd) films were grown by thick-film technology using a resistive paste consisting of Pd, Ag2O, and glass on ceramic substrates at burning temperatures of 878, 1013, and 1113 K. The effect of the burning temperature and Pd content in the initial paste on the phase composition, res...

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Published in:Physics of the solid state 2014-11, Vol.56 (11), p.2286-2293
Main Authors: Mikheev, G. M., Saushin, A. S., Goncharov, O. Yu, Dorofeev, G. A., Gil’mutdinov, F. Z., Zonov, R. G.
Format: Article
Language:English
Subjects:
Alloys
Analysis
Electric properties
Palladium
Physics
Physics and Astronomy
Solar energy industry
Solid State Physics
Surface Physics and Thin Films
Thermodynamics
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description Silver-palladium (Ag/Pd) films were grown by thick-film technology using a resistive paste consisting of Pd, Ag2O, and glass on ceramic substrates at burning temperatures of 878, 1013, and 1113 K. The effect of the burning temperature and Pd content in the initial paste on the phase composition, resistivity, photovoltaic properties of films, free carrier concentration, and mobility was studied. It was found that the films grown at a burning temperature of 878 K have the greatest factor of conversion of the pulsed laser power to the photovoltaic signal, which depends on the direction of the incident radiation wave vector. Using X-ray diffraction, X-ray photoelectron spectroscopy, and thermodynamic modeling, it was shown that the AgPd alloy and PdO oxide are the main components of the Ag/Pd film with photovoltaic properties.
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subjects Alloys
Analysis
Electric properties
Palladium
Physics
Physics and Astronomy
Solar energy industry
Solid State Physics
Surface Physics and Thin Films
Thermodynamics
title Effect of the burning temperature on the phase composition, photovoltaic response, and electrical properties of Ag/Pd resistive films
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