Structural Studies of Nanocrystalline Thin Pd Films Electrochemically Doped with Hydrogen

Jakub Čížek; Marián Vlček; František Lukáč; Martin Vlach; I. Procházka; Gerhard Brauer; Wolfgang Anwand; A. Mücklich; Stefan Wagner; Helmut Uchida; Astrid Pundt

doi:10.4028/www.scientific.net/DDF.331.137

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HomeDefect and Diffusion ForumDefect and Diffusion Forum Vol. 331Structural Studies of Nanocrystalline Thin Pd...

Structural Studies of Nanocrystalline Thin Pd Films Electrochemically Doped with Hydrogen

Abstract:

Hydrogen absorption in Pd causes a significant volume expansion. In free-standing bulk Pd, the hydrogen-induced volume expansion is isotropic. However, the situation becomes more complicated in thin Pd films. Contrary to bulk samples, thin films are clamped to an elastically stiff substrate, which prevents in-plane expansion. Hence, the volume expansion of a thin film is strongly anisotropic because it expands in the out-of-plane direction only. Internal stresses introduced by absorbed hydrogen may become so high that detachment of a film from the substrate is energetically favorable and buckles of various morphologies are formed. In the present work, we studied hydrogen-induced buckling in a nanocrystalline thin Pd film deposited on a sapphire substrate. Slow positron implantation spectroscopy (SPIS) was employed as a principal tool for the characterization of defects and investigation of defect interactions with hydrogen. SPIS studies were combined with X-ray diffraction and direct observations of buckling by light microscopy. It was found that buckling of thin Pd film occurs at hydrogen concentrations x_H > 0.1 and is accompanied by a strong increase of dislocation density.

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Periodical:

Defect and Diffusion Forum (Volume 331)

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137-147

DOI:

https://doi.org/10.4028/www.scientific.net/DDF.331.137

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Online since:

September 2012

Authors:

Jakub Čížek, Marián Vlček, František Lukáč, Martin Vlach, I. Procházka, Gerhard Brauer, Wolfgang Anwand, A. Mücklich, Stefan Wagner, Helmut Uchida, Astrid Pundt

Keywords:

Hydrogen, Palladium, Positron Annihilation, Thin Film

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