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Optimizing iron alloy catalyst materials for photoelectrochemical water splitting: Passivation of FeCr alloy surface by water vapour using near-ambient-pressure photoelectron spectroscopy

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Bibtex - Download

@book{a7949745aeda49079a6585eb6e433ac1,
title = "Optimizing iron alloy catalyst materials for photoelectrochemical water splitting: Passivation of FeCr alloy surface by water vapour using near-ambient-pressure photoelectron spectroscopy",
keywords = "Synchrotron, Steel, photoelectrochemical water splitting, Passivation, near-ambient-pressure photoelectron spectroscopy, APXPS",
author = "K. Lahtonen and M. Hannula and H. Ali-L{\"o}ytty and M. Hirsim{\"a}ki and S. Urpelainen and M. Valden",
year = "2016",
language = "English",
publisher = "Lund University, MAX IV Laboratory",

}

RIS (suitable for import to EndNote) - Download

TY - BOOK

T1 - Optimizing iron alloy catalyst materials for photoelectrochemical water splitting

T2 - Passivation of FeCr alloy surface by water vapour using near-ambient-pressure photoelectron spectroscopy

AU - Lahtonen, K.

AU - Hannula, M.

AU - Ali-Löytty, H.

AU - Hirsimäki, M.

AU - Urpelainen, S.

AU - Valden, M.

PY - 2016

Y1 - 2016

KW - Synchrotron

KW - Steel

KW - photoelectrochemical water splitting

KW - Passivation

KW - near-ambient-pressure photoelectron spectroscopy

KW - APXPS

UR - https://www.maxlab.lu.se/node/2032

M3 - Commissioned report

BT - Optimizing iron alloy catalyst materials for photoelectrochemical water splitting

PB - Lund University, MAX IV Laboratory

CY - Lund, Sweden

ER -