Maite Alducin - publications

Maite Alducin

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Dynamics and reactivity of gas-phase molecules at surfaces

Brief overview

In general terms, understanding and mastering the physics and chemistry of adsorption processes at nanostructures and surfaces is a basic requirement for the full development of nanoscience and nano-technology. Metal surfaces are effective chemical agents capable of adsorbing and/or dissociating molecules impinging from the gas phase. Industrial processes of enormous economical impact, such as corrosion and heterogeneous catalysis, greatly benefit from recent developments in basic research on this matter. Over the last years, the combination of experimental molecular-beam techniques and refined theoretical calculations based on ab-initio methods have led research on the field to a new stage, in which detailed investigations of the kinetics and dynamics of molecular reactivity at surfaces are possible.

gas/surface dynamics

We are mainly interested in the elementary reactive processes of diatomic molecules at metal surfaces. When the molecules approach the surface, intramolecular chemical bonds can break down and new ones be formed with the surface. We use first-principles electronic structure calculations to describe the details of the interaction between the molecule and the surface through a multidimensional potential energy surface (PES). Once the PES of the system is known, we simulate the dynamics of several processes by solving the classical equations of motion of the nuclei.

Highlights

TITLE Surface Strain Improves Molecular Adsorption but Hampers Dissociation for N₂ on the Fe/W(110) Surface
AUTHORS I. Goikoetxea, J.I. Juaristi, R. Díez Muiño, and M. Alducin
JOURNAL Physical Review Letters 113, 066103 (2014)

TITLE Role of Physisorption States in Molecular Scattering: A Semilocal Density-Functional Theory Study on O₂/Ag(111)
AUTHORS I. Goikoetxea, J. Meyer, J.I. Juaristi, M. Alducin, and K. Reuter
JOURNAL Physical Review Letters 112, 156101 (2014)

TITLE Electronic Friction Dominates Hydrogen Hot-Atom Relaxation on Pd(100)
AUTHORS M. Blanco-Rey, J.I. Juaristi , R. Díez Muiño, H. F. Busnengo, G.-J. Kroes , and M. Alducin
JOURNAL Physical Review Letters 112, 103203 (2014)

TITLE Competition between Electron and Phonon Excitations in the Scattering of Nitrogen Atoms and Molecules off Tungsten and Silver Metal Surfaces
AUTHORS L. Martin-Gondre, M. Alducin , G. A. Bocan, R. Díez Muiño , and J.I. Juaristi
JOURNAL Physical Review Letters 108, 096101 (2012)

TITLE Role of electron-hole pair excitations in the dissociative adsorption of diatomic molecules on metal surfaces
AUTHORS J. I. Juaristi, M. Alducin, R. Díez Muiño, H. F. Busnengo, and A. Salin
JOURNAL Physical Review Letters 100, 116102 (2008)

TITLE Why N₂ molecules with thermal energy abundantly dissociate on W(100) and not on W(110)
AUTHORS M. Alducin, R. Díez Muiño, H. F. Busnengo, and A. Salin
JOURNALPhysical Review Letters 97, 056102 (2006).