F
Fabrice Bournel
Researcher at University of Paris
Publications - 93
Citations - 1517
Fabrice Bournel is an academic researcher from University of Paris. The author has contributed to research in topics: X-ray photoelectron spectroscopy & Silicon. The author has an hindex of 20, co-authored 78 publications receiving 1213 citations. Previous affiliations of Fabrice Bournel include Soleil Synchrotron & Centre national de la recherche scientifique.
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Structure of the water ice surface studied by x-ray absorption spectroscopy at the O K-edge
TL;DR: In this paper, Wang et al. used near-edge x-ray absorption fine structure (NEXAFS) spectroscopy at the oxygen K-edge, in conventional mode, and using the photon-stimulated desorption mode, which is surface sensitive.
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Highly active nano-sized iridium catalysts: synthesis and operando spectroscopy in a proton exchange membrane electrolyzer
Philipp Lettenmeier,Jan Majchel,Li Wang,Viktoriia A. Saveleva,Spyridon Zafeiratos,Elena R. Savinova,Jean-Jacques Gallet,Fabrice Bournel,Aldo Gago,Kaspar Andreas Friedrich,Kaspar Andreas Friedrich +10 more
TL;DR: Ultra-high purity nano-sized iridium enclosed in a monolayer of IrIII/IrIV oxides/hydroxides leads to an enhancement in OER activity.
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Radiation effects in water ice: a near-edge x-ray absorption fine structure study.
TL;DR: The changes in the structure and composition of vapor-deposited ice films irradiated at 20 K with soft x-ray photons and their subsequent evolution with temperatures between 20 and 150 K have been investigated by near-edge x-rays absorption fine structure spectroscopy (NEXAFS) at the oxygen K edge.
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Ethylene on si(001)-2 1 and si(111)-7 7 : x-ray photoemission spectroscopy with synchrotron radiation
François Rochet,Florence Jolly,Fabrice Bournel,Georges Dufour,Fausto Sirotti,Jean-Louis Cantin +5 more
TL;DR: In this paper, an alternative model is proposed, in which molecules are bonded directly to the rest plane, and the thermal stability of both surfaces covered by ethylene is also studied.
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Adsorbate-driven reactive interfacial Pt-NiO1−x nanostructure formation on the Pt3Ni(111) alloy surface
Jeongjin Kim,Woong Hyeon Park,Won Hui Doh,Si Woo Lee,Myung Cheol Noh,Jean Jacques Gallet,Fabrice Bournel,Hiroshi Kondoh,Kazuhiko Mase,Yousung Jung,Bongjin Simon Mun,Jeong Young Park +11 more
TL;DR: It is shown that the inherent lattice mismatch of bimetallic materials selectively creates surface segregation of subsurface metal atoms, which is responsible for a highly efficient step in the CO oxidation reaction.