Formation and Decomposition of Palladium Hydride Particles: Imaging Pictures on the Nanometre Scale Full article
Journal |
Platinum Metals Review (up to 2015)
ISSN: 0032-1400 , E-ISSN: 1471-0676 |
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Output data | Year: 1998, Volume: 42, Number: 4, Pages: 141-144 Pages count : 4 | ||||
Tags | Addition reactions; Crystal growth; Decomposition; Heating; Hydrides; Hydrogen; Low temperature operations; Microscopic examination; Nanostructured materials; Palladium; Surface structure; Vacuum applications; Absorption; Catalysis; Crystallography; Field emission microscopes; Lattice constants; Low temperature effects; Melting; Surface chemistry; Vacuum | ||||
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Abstract:
Nanoscale changes in surface structure that accompany the low temperature exposure of palladium to hydrogen are reported. Field Emission Microscopy, a method for rapid in situ imaging of surface processes, has been used to examine palladium tips of radius ∼ 200 nm, produced by a novel technique. Images are presented of the initial stages of the uptake of hydrogen. Subsurface hydrides were initially formed when palladium tips were exposed to hydrogen gas at low temperatures, starting at highly open surfaces present on the tip. Extruding PdH particles were also formed on top of the palladium tip and their growth was observed to proceed in a 'staccato'-like manner. Palladium crystallites remained on the surface after most of the hydrogen had been removed from the palladium sample by heating in vacuum. On heating the crystallites remained quite stable up to a temperature of ∼ 700 K, but then melted back into the tip.
Cite:
Cobden P.D.
, Nieuwenhuys B.E.
, Gorodetskii V.V.
, Parmon V.N.
Formation and Decomposition of Palladium Hydride Particles: Imaging Pictures on the Nanometre Scale
Platinum Metals Review (up to 2015). 1998. V.42. N4. P.141-144. Scopus РИНЦ
Formation and Decomposition of Palladium Hydride Particles: Imaging Pictures on the Nanometre Scale
Platinum Metals Review (up to 2015). 1998. V.42. N4. P.141-144. Scopus РИНЦ
Dates:
Published print: | Oct 1, 1998 |
Identifiers:
Scopus | 2-s2.0-0032181286 |
Elibrary | 13283548 |
Chemical Abstracts | 1999:2238 |
Chemical Abstracts (print) | 130:158787 |