H concentrations and stresses in Pd nanoparticles

Hang Ren; Tong Yi Zhang

doi:10.1016/j.matlet.2014.05.104

H concentrations and stresses in Pd nanoparticles

Hang Ren
, Tong Yi Zhang^*

^*Corresponding author for this work

Department of Mechanical and Aerospace Engineering

Research output: Contribution to journal › Journal Article › peer-review

8 Citations (Scopus)

Abstract

Using the Gibbs-approach based adsorption isotherm and the experimental data of nominal H concentration in Pd nanoparticles with a mean diameter of 3.6 nm versus H₂ partial pressure, we determined the H-trap depth of Pd surface, the H concentrations and stresses in both core and surface shell of the nanoparticles. The results indicate that in addition to the surface segregation of H atoms, the tensile hydrostatic stress induced by the difference in concentration between the core and the surface shell greatly enhances the H concentration in the crystalline core in comparison with that in the bulk Pd counterpart under the same H₂ partial pressure.

Original language	English
Pages (from-to)	176-179
Number of pages	4
Journal	Materials Letters
Volume	130
DOIs	https://doi.org/10.1016/j.matlet.2014.05.104
Publication status	Published - 1 Sept 2014

Keywords

Concentration
Nanoparticle
Palladium-hydrogen
Stress

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10.1016/j.matlet.2014.05.104

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title = "H concentrations and stresses in Pd nanoparticles",

abstract = "Using the Gibbs-approach based adsorption isotherm and the experimental data of nominal H concentration in Pd nanoparticles with a mean diameter of 3.6 nm versus H2 partial pressure, we determined the H-trap depth of Pd surface, the H concentrations and stresses in both core and surface shell of the nanoparticles. The results indicate that in addition to the surface segregation of H atoms, the tensile hydrostatic stress induced by the difference in concentration between the core and the surface shell greatly enhances the H concentration in the crystalline core in comparison with that in the bulk Pd counterpart under the same H2 partial pressure.",

keywords = "Concentration, Nanoparticle, Palladium-hydrogen, Stress",

author = "Hang Ren and Zhang, \{Tong Yi\}",

year = "2014",

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doi = "10.1016/j.matlet.2014.05.104",

language = "English",

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journal = "Materials Letters",

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T1 - H concentrations and stresses in Pd nanoparticles

AU - Ren, Hang

AU - Zhang, Tong Yi

PY - 2014/9/1

Y1 - 2014/9/1

N2 - Using the Gibbs-approach based adsorption isotherm and the experimental data of nominal H concentration in Pd nanoparticles with a mean diameter of 3.6 nm versus H2 partial pressure, we determined the H-trap depth of Pd surface, the H concentrations and stresses in both core and surface shell of the nanoparticles. The results indicate that in addition to the surface segregation of H atoms, the tensile hydrostatic stress induced by the difference in concentration between the core and the surface shell greatly enhances the H concentration in the crystalline core in comparison with that in the bulk Pd counterpart under the same H2 partial pressure.

AB - Using the Gibbs-approach based adsorption isotherm and the experimental data of nominal H concentration in Pd nanoparticles with a mean diameter of 3.6 nm versus H2 partial pressure, we determined the H-trap depth of Pd surface, the H concentrations and stresses in both core and surface shell of the nanoparticles. The results indicate that in addition to the surface segregation of H atoms, the tensile hydrostatic stress induced by the difference in concentration between the core and the surface shell greatly enhances the H concentration in the crystalline core in comparison with that in the bulk Pd counterpart under the same H2 partial pressure.

KW - Concentration

KW - Nanoparticle

KW - Palladium-hydrogen

KW - Stress

UR - https://www.webofscience.com/wos/woscc/full-record/WOS:000338804300048

UR - https://openalex.org/W1985175957

U2 - 10.1016/j.matlet.2014.05.104

DO - 10.1016/j.matlet.2014.05.104

M3 - Journal Article

SN - 0167-577X

VL - 130

SP - 176

EP - 179

JO - Materials Letters

JF - Materials Letters

ER -

H concentrations and stresses in Pd nanoparticles

Abstract

Keywords

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