Water molecules adsorbed on the CeO 2 (111) surface are investigated by non-contact
atomic force microscopy (NC-AFM) at several tip–sample temperatures ranging between 10 …

The adsorption of water molecules on a stoichiometric CeO 2 (111) surface at room
temperature is studied with dynamic scanning force microscopy. Atomic resolution imaging …

The atomic structure of the CeO 2 (111) surface in different states of cleanliness and
reduction is studied in an ultra-high vacuum with high resolution dynamic scanning force …

The formation of atomic contrast on the stoichiometric CeO2 (111) surface imaged by
dynamic scanning force microscopy (SFM) operated in the noncontact mode (NC-AFM) is …

Hexagonally arranged surface oxygen atoms, oxygen point defects, and multiple oxygen
defects at oxygen-terminated CeO2 (111) surfaces in different oxidation states were …

Advances in atomic force microscopy (AFM) in water have enabled the study of hydration
layer structures on crystal surfaces, and in a recent study on dolomite (CaMg (CO3) 2) …

Massive all-atom molecular dynamics simulations were employed to study hydration forces
near α-Al2O3 (0001) surfaces as sampled during a hypothetical AFM force spectroscopy …

Different points along hydrophobic surfaces like air bubble interfaces in water when probed
by atomic force microscope tips reveal distinct behaviors. At some points along the interface …

Cerium dioxide is an insulating material that is important in various fields of catalysis and
often used as an oxygen reservoir. The (111) surface of CeO 2 is catalytically active and we …

Local defects in water layers growing on metal surfaces have a key influence on the wetting
process at the surfaces; however, such minor structures are undetectable by macroscopic …