Group leader : Low Dimensional Oxides
Tel : +33 (0)1 44 27 46 28
Fax : +33 (0)1 43 54 28 78
Research experiences
2013-Present
Institut des NanoSciences de Paris, Team : « Low dimensional oxides »
Topics : atomic and electronic structures ; oxide nanoobjects ; hydroxylation ; growth, wetting and adhesion ; catalysis
2002-2013
Institut des NanoSciences de Paris, Team : « Low dimensional oxides » directed by J. Jupille
Interests : Ultra-thin oxide films, growth of oxide-supported metal nanoparticles, metal/oxide wetting, plasmonics
Techniques : Photoemission, HREELS, surface differential reflectivity, near-field microscopy, and synchrotron X-ray scattering
2000-2002
Topics : GISAXS simulation, self-organized and metal/oxide growths
Techniques : surface diffraction (GIXS), grazing incidence scattering of X-rays at small angles (GISAXS)
1997-2000
Laboratoire Mixte CNRS/Saint-Gobain, Aubervilliers, France
Title : Towards the control of thin film growth : a study by optical and electrons spectroscopies
Techniques : ultra-high vacuum, metal-oxide interfaces, surface differential reflectivity spectroscopy, optical spectra modeling, X-ray photoemission, LEED, HREELS
1996-1997
Theoretical and Applied Physics Department, Condensed Matter Physics Unit
Topics : modeling of IR-Raman phonons spectra of boron carbide
Techniques : ab initio calculation by density functional theory
Education
June 2012
Title : Watching nanoparticle growth : from nanoplasmonics to reciprocal space
March 2001
1997-2000
Laboratoire Mixte CNRS/Saint-Gobain, Aubervilliers, France
Title : Towards the control of thin film growth : a study by optical and electrons spectroscopies
1995-1996
Master course in Solid State Physics
Main courses : Phases transitions in solids : electrons, magnetism, and superconductivity, Electrons and phonons, Statistical physics in transport phenomena, Crystallography, Semiconductors properties
Publications and conferences
Scientific Softwares
- IsGISAXS : Simulation of grazing incidence small-angle X-ray scattering from nanostructures
- GranFilm : Optical response of supported particle