INIS
kinetics
100%
mirrors
100%
sorption
100%
metals
100%
hydrogen
100%
interactions
100%
thickness
50%
uptake
33%
oxides
33%
electronic structure
33%
peaks
33%
yttrium
33%
scanning tunneling microscopy
33%
increasing
16%
surfaces
16%
triple point
16%
encapsulation
16%
morphology
16%
spectra
16%
films
16%
absorption
16%
photoelectron spectroscopy
16%
layers
16%
photoemission
16%
ultraviolet radiation
16%
hydrogenation
16%
fuel cells
16%
yttrium oxides
16%
catalysts
16%
size
16%
gases
16%
Material Science
Metal
100%
Yttrium
50%
Scanning Tunneling Microscopy
50%
Oxide Compound
50%
Electronic Structure
50%
Film
25%
Yttrium Oxide
25%
Catalyst
25%
Surface
25%
Ultra Violet Photoemission Spectroscopy
25%
Gas
25%
Hydrogenation
25%
Chemical Engineering
Strong Metal-Support Interaction
100%
Sorption
100%
Hydrogen
100%
Oxide
33%
Yttrium
33%
Fuel Cell
16%
Yttrium Oxide
16%
Engineering
Supports
100%
Electronics
50%
Hydrogen Absorption
25%
Oxide Layer
25%
Fuel Cell Technology
25%
Mechanisms
25%
Critical Thickness
25%
Triple Point
25%
Interaction Effect
25%