Hydrogen Uptake in Mo/V Multi Layered Single-Crystal Superlattices – the Role of Charge Transfer At Interfaces

B. Hjörvarsson; S. Ólafsson; F. Stillesjö; E. Karlsson; J. Birch; J. E. Sundgren

doi:10.1524/zpch.1993.181.Part_1_2.343

Hydrogen Uptake in Mo/V Multi Layered Single-Crystal Superlattices – the Role of Charge Transfer At Interfaces

B. Hjörvarsson, S. Ólafsson, F. Stillesjö, E. Karlsson, J. Birch, J. E. Sundgren

Science Institute

University of Iceland

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

Abstract

Results from measurements of the hydrogen uptake in Mo/V Multi Layered single crystal Super Lattices (MLSL), with modulation wavelengths (˄) from 0.6 to 5 nm, are presented. The concept of MLSL was applied to enable a thermodynamic equilibrium within series of different ˄. The hydrogen concentration is shown to depend onthe modulation wavelength (˄), which is related to the charge transfer at the interfaces.The extension of the charge transfer is shown to exceed three monolayers (0.46 nm) in vanadium.

Original language	English
Pages (from-to)	343-351
Number of pages	9
Journal	Zeitschrift fur Physikalische Chemie
Volume	181
DOIs	https://doi.org/10.1524/zpch.1993.181.Part_1_2.343
Publication status	Published - 1993

Other keywords

Charge transfer
H uptake
Lattice strain
Mo/V superlattice
Modulation wavelength

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10.1524/zpch.1993.181.Part_1_2.343

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title = "Hydrogen Uptake in Mo/V Multi Layered Single-Crystal Superlattices – the Role of Charge Transfer At Interfaces",

abstract = "Results from measurements of the hydrogen uptake in Mo/V Multi Layered single crystal Super Lattices (MLSL), with modulation wavelengths (˄) from 0.6 to 5 nm, are presented. The concept of MLSL was applied to enable a thermodynamic equilibrium within series of different ˄. The hydrogen concentration is shown to depend onthe modulation wavelength (˄), which is related to the charge transfer at the interfaces.The extension of the charge transfer is shown to exceed three monolayers (0.46 nm) in vanadium.",

keywords = "Charge transfer, H uptake, Lattice strain, Mo/V superlattice, Modulation wavelength",

author = "B. Hj{\"o}rvarsson and S. {\'O}lafsson and F. Stillesj{\"o} and E. Karlsson and J. Birch and Sundgren, \{J. E.\}",

year = "1993",

doi = "10.1524/zpch.1993.181.Part\_1\_2.343",

language = "English",

volume = "181",

pages = "343--351",

journal = "Zeitschrift fur Physikalische Chemie",

issn = "0942-9352",

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TY - JOUR

T1 - Hydrogen Uptake in Mo/V Multi Layered Single-Crystal Superlattices – the Role of Charge Transfer At Interfaces

AU - Hjörvarsson, B.

AU - Ólafsson, S.

AU - Stillesjö, F.

AU - Karlsson, E.

AU - Birch, J.

AU - Sundgren, J. E.

PY - 1993

Y1 - 1993

N2 - Results from measurements of the hydrogen uptake in Mo/V Multi Layered single crystal Super Lattices (MLSL), with modulation wavelengths (˄) from 0.6 to 5 nm, are presented. The concept of MLSL was applied to enable a thermodynamic equilibrium within series of different ˄. The hydrogen concentration is shown to depend onthe modulation wavelength (˄), which is related to the charge transfer at the interfaces.The extension of the charge transfer is shown to exceed three monolayers (0.46 nm) in vanadium.

AB - Results from measurements of the hydrogen uptake in Mo/V Multi Layered single crystal Super Lattices (MLSL), with modulation wavelengths (˄) from 0.6 to 5 nm, are presented. The concept of MLSL was applied to enable a thermodynamic equilibrium within series of different ˄. The hydrogen concentration is shown to depend onthe modulation wavelength (˄), which is related to the charge transfer at the interfaces.The extension of the charge transfer is shown to exceed three monolayers (0.46 nm) in vanadium.

KW - Charge transfer

KW - H uptake

KW - Lattice strain

KW - Mo/V superlattice

KW - Modulation wavelength

UR - https://www.scopus.com/pages/publications/0012086070

U2 - 10.1524/zpch.1993.181.Part_1_2.343

DO - 10.1524/zpch.1993.181.Part_1_2.343

M3 - Article

SN - 0942-9352

VL - 181

SP - 343

EP - 351

JO - Zeitschrift fur Physikalische Chemie

JF - Zeitschrift fur Physikalische Chemie

ER -

Hydrogen Uptake in Mo/V Multi Layered Single-Crystal Superlattices – the Role of Charge Transfer At Interfaces

Abstract

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