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Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy

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Zeitschriftentitel: Materials
Personen und Körperschaften: Losiewicz, Bozena, Kubisztal, Julian, Osak, Patrycja, Starczewska, Oliwia
In: Materials, 13, 2020, 1, S. 162
Format: E-Article
Sprache: Englisch
veröffentlicht:
MDPI AG
Schlagwörter:
General Materials Science
author_facet Losiewicz, Bozena
Kubisztal, Julian
Osak, Patrycja
Starczewska, Oliwia
Losiewicz, Bozena
Kubisztal, Julian
Osak, Patrycja
Starczewska, Oliwia
author Losiewicz, Bozena
Kubisztal, Julian
Osak, Patrycja
Starczewska, Oliwia
spellingShingle Losiewicz, Bozena
Kubisztal, Julian
Osak, Patrycja
Starczewska, Oliwia
Materials
Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy
General Materials Science
author_sort losiewicz, bozena
spelling Losiewicz, Bozena Kubisztal, Julian Osak, Patrycja Starczewska, Oliwia 1996-1944 MDPI AG General Materials Science http://dx.doi.org/10.3390/ma13010162 <jats:p>The interaction of hydrogen with Pt-group metals and alloys is at the center of research in the fields of electrochemistry, electrocatalysis, hydrogen technologies and fuel cells developed under the Hydrogen Economy. In this work, the material under study was Pd80Rh20 alloy (50 μm foil) subjected to hydrogen electrosorption at potentials corresponding to formation of α, α-β and β phase in 0.1 M H2SO4 at 25 °C. The total amount of hydrogen adsorbed at the surface and absorbed in octahedral interstitial positions of fcc Pd80Rh20 alloy, was determined from the oxidation charges. The H/(Pd+Rh) was 0.002, 0.4 and 0.8 for α, α-β, and β Pd80Rh20H, respectively. Microindentation hardness testing and nanoindentation showed weakening of mechanical properties of the Pd80Rh20 alloy after hydrogen electrosorption due to internal stresses. Decrease of work function with increasing amount of hydrogen absorbed occurred due to the surface roughness changes and the presence of electropositive hydrogen atoms absorbed in the crystal lattice responsible for the dipole interaction. The detailed mechanism of hydrogen absorption/diffusion in the Pd80Rh20 alloy structure is discussed. The obtained results give a new insight into the relationship between the amount of absorbed hydrogen and mechanical and electronic properties of the Pd80Rh20 alloy at the micro- and nanoscale.</jats:p> Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy Materials
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title Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy
title_unstemmed Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy
title_full Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy
title_fullStr Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy
title_full_unstemmed Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy
title_short Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy
title_sort effect of hydrogen electrosorption on mechanical and electronic properties of pd80rh20 alloy
topic General Materials Science
url http://dx.doi.org/10.3390/ma13010162
publishDate 2020
physical 162
description <jats:p>The interaction of hydrogen with Pt-group metals and alloys is at the center of research in the fields of electrochemistry, electrocatalysis, hydrogen technologies and fuel cells developed under the Hydrogen Economy. In this work, the material under study was Pd80Rh20 alloy (50 μm foil) subjected to hydrogen electrosorption at potentials corresponding to formation of α, α-β and β phase in 0.1 M H2SO4 at 25 °C. The total amount of hydrogen adsorbed at the surface and absorbed in octahedral interstitial positions of fcc Pd80Rh20 alloy, was determined from the oxidation charges. The H/(Pd+Rh) was 0.002, 0.4 and 0.8 for α, α-β, and β Pd80Rh20H, respectively. Microindentation hardness testing and nanoindentation showed weakening of mechanical properties of the Pd80Rh20 alloy after hydrogen electrosorption due to internal stresses. Decrease of work function with increasing amount of hydrogen absorbed occurred due to the surface roughness changes and the presence of electropositive hydrogen atoms absorbed in the crystal lattice responsible for the dipole interaction. The detailed mechanism of hydrogen absorption/diffusion in the Pd80Rh20 alloy structure is discussed. The obtained results give a new insight into the relationship between the amount of absorbed hydrogen and mechanical and electronic properties of the Pd80Rh20 alloy at the micro- and nanoscale.</jats:p>
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author Losiewicz, Bozena, Kubisztal, Julian, Osak, Patrycja, Starczewska, Oliwia
author_facet Losiewicz, Bozena, Kubisztal, Julian, Osak, Patrycja, Starczewska, Oliwia, Losiewicz, Bozena, Kubisztal, Julian, Osak, Patrycja, Starczewska, Oliwia
author_sort losiewicz, bozena
container_issue 1
container_start_page 0
container_title Materials
container_volume 13
description <jats:p>The interaction of hydrogen with Pt-group metals and alloys is at the center of research in the fields of electrochemistry, electrocatalysis, hydrogen technologies and fuel cells developed under the Hydrogen Economy. In this work, the material under study was Pd80Rh20 alloy (50 μm foil) subjected to hydrogen electrosorption at potentials corresponding to formation of α, α-β and β phase in 0.1 M H2SO4 at 25 °C. The total amount of hydrogen adsorbed at the surface and absorbed in octahedral interstitial positions of fcc Pd80Rh20 alloy, was determined from the oxidation charges. The H/(Pd+Rh) was 0.002, 0.4 and 0.8 for α, α-β, and β Pd80Rh20H, respectively. Microindentation hardness testing and nanoindentation showed weakening of mechanical properties of the Pd80Rh20 alloy after hydrogen electrosorption due to internal stresses. Decrease of work function with increasing amount of hydrogen absorbed occurred due to the surface roughness changes and the presence of electropositive hydrogen atoms absorbed in the crystal lattice responsible for the dipole interaction. The detailed mechanism of hydrogen absorption/diffusion in the Pd80Rh20 alloy structure is discussed. The obtained results give a new insight into the relationship between the amount of absorbed hydrogen and mechanical and electronic properties of the Pd80Rh20 alloy at the micro- and nanoscale.</jats:p>
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imprint MDPI AG, 2020
imprint_str_mv MDPI AG, 2020
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physical 162
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publisher MDPI AG
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source_id 49
spelling Losiewicz, Bozena Kubisztal, Julian Osak, Patrycja Starczewska, Oliwia 1996-1944 MDPI AG General Materials Science http://dx.doi.org/10.3390/ma13010162 <jats:p>The interaction of hydrogen with Pt-group metals and alloys is at the center of research in the fields of electrochemistry, electrocatalysis, hydrogen technologies and fuel cells developed under the Hydrogen Economy. In this work, the material under study was Pd80Rh20 alloy (50 μm foil) subjected to hydrogen electrosorption at potentials corresponding to formation of α, α-β and β phase in 0.1 M H2SO4 at 25 °C. The total amount of hydrogen adsorbed at the surface and absorbed in octahedral interstitial positions of fcc Pd80Rh20 alloy, was determined from the oxidation charges. The H/(Pd+Rh) was 0.002, 0.4 and 0.8 for α, α-β, and β Pd80Rh20H, respectively. Microindentation hardness testing and nanoindentation showed weakening of mechanical properties of the Pd80Rh20 alloy after hydrogen electrosorption due to internal stresses. Decrease of work function with increasing amount of hydrogen absorbed occurred due to the surface roughness changes and the presence of electropositive hydrogen atoms absorbed in the crystal lattice responsible for the dipole interaction. The detailed mechanism of hydrogen absorption/diffusion in the Pd80Rh20 alloy structure is discussed. The obtained results give a new insight into the relationship between the amount of absorbed hydrogen and mechanical and electronic properties of the Pd80Rh20 alloy at the micro- and nanoscale.</jats:p> Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy Materials
spellingShingle Losiewicz, Bozena, Kubisztal, Julian, Osak, Patrycja, Starczewska, Oliwia, Materials, Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy, General Materials Science
title Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy
title_full Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy
title_fullStr Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy
title_full_unstemmed Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy
title_short Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy
title_sort effect of hydrogen electrosorption on mechanical and electronic properties of pd80rh20 alloy
title_unstemmed Effect of Hydrogen Electrosorption on Mechanical and Electronic Properties of Pd80Rh20 Alloy
topic General Materials Science
url http://dx.doi.org/10.3390/ma13010162