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Mathilde Guiltat
Mathilde Guiltat
PhD student, LAAS-CNRS
Email confirmado em laas.fr
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Ambient Humidity Influence on CO Detection with SnO2 Gas Sensing Materials. A Combined DRIFTS/DFT Investigation
S Wicker, M Guiltat, U Weimar, A Hémeryck, N Barsan
The Journal of Physical Chemistry C 121 (45), 25064-25073, 2017
692017
Elementary surface chemistry during CuO/Al nanolaminate-thermite synthesis: copper and oxygen deposition on aluminum (111) surfaces
C Lanthony, M Guiltat, JM Ducéré, A Verdier, A Hémeryck, ...
ACS applied materials & interfaces 6 (17), 15086-15097, 2014
492014
Dioxygen molecule adsorption and oxygen atom diffusion on clean and defective aluminum (111) surface using first principles calculations
M Guiltat, M Brut, S Vizzini, A Hémeryck
Surface Science 657, 79-89, 2017
162017
Modeling of the interface formation during CuO deposition on Al (111) substrate: linking material design and elaboration process parameters through multi-levels approach
M Guiltat, N Salles, M Brut, G Landa, N Richard, S Vizzini, A Hémeryck
Modelling and Simulation in Materials Science and Engineering 25 (6), 064005, 2017
22017
A perfect wetting of Mg monolayer on Ag (111) under atomic scale investigation: First principles calculations, scanning tunneling microscopy, and Auger spectroscopy
A Migaou, B Sarpi, M Guiltat, K Payen, R Daineche, G Landa, S Vizzini, ...
The Journal of chemical physics 144 (19), 194708, 2016
22016
Développement d’une plateforme de simulation atomistique pour les procédés en phase vapeur par une approche multi-niveaux: Application au dépôt de CuO sur Al (111)
M Guiltat
Université de Toulouse III-Paul Sabatier, 2016
12016
Linking design of materials and technological process parameters for tailored integration in Microelectronics field: climbing the scales
A Hémeryck, M Guiltat, N Salles, N Richard
8th Multiscale Materials Modeling international conference (MMM), 2016
2016
Atomic scale modeling to understand how matter organizes during growth of ultrathin materials in close relation with elaboration process parameters: climbing the scales
A Hémeryck, M Guiltat, N Salles, N Richard
2016 IEEE Nanotechnology Materials and Devices Conference (NMDC), 1-2, 2016
2016
An atomistic insight into interface formation in directly integrated materials: a modeling study of CuO deposition on Al (111) through DFT-kMC approach
M Guiltat, A Hémeryck
Materials for Advanced Metalization (MAM 2016), 2p., 2016
2016
An Atomic Scale Insight into Interface Layers Formation in Al/CuO Nanolaminated Thin Films: a Kinetic Monte Carlo Simulation of Deposition Process
M Guiltat, A Estève, C Rossi, M Djafari-Rouhani, YJ Chabal, A Hémeryck
42nd International Conference On Metallurgical Coatings & Thin Films (ICMCTF …, 2015
2015
CONTROLLING THE INTERFACIAL LAYER FORMATION DURING DEPOSITION OF CUO ON AL (111) USING A MULTI-LEVELS MODELING APPROACH
M GUILTAT, A HEMERYCK
Développement d’une plateforme de simulation pour les procédés en phase vapeur des nanotechnologies: application au dépôt de CuO sur Al (111)
M GUILTAT, A HEMERYCK
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