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RESEARCH PRODUCT
Oxide/water interfaces: how the surface chemistry modifies interfacial water properties
Michiel SprikMarie-pierre GaigeotMarie-pierre GaigeotMarialore Sulpizisubject
ChemistryHydrogen bondInorganic chemistryOxideCharge densityCondensed Matter PhysicsSpectral lineMolecular dynamicschemistry.chemical_compoundChemical physicsMoleculeGeneral Materials ScienceDensity functional theoryPhysics::Chemical PhysicsSum frequency generation spectroscopydescription
The organization of water at the interface with silica and alumina oxides is analysed using density functional theory-based molecular dynamics simulation (DFT-MD). The interfacial hydrogen bonding is investigated in detail and related to the chemistry of the oxide surfaces by computing the surface charge density and acidity. We find that water molecules hydrogen-bonded to the surface have different orientations depending on the strength of the hydrogen bonds and use this observation to explain the features in the surface vibrational spectra measured by sum frequency generation spectroscopy. In particular, 'ice-like' and 'liquid-like' features in these spectra are interpreted as the result of hydrogen bonds of different strengths between surface silanols/aluminols and water.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2012-03-08 | Journal of Physics: Condensed Matter |