about
In situ study of electrochemical activation and surface segregation of the SOFC electrode material La0.75Sr0.25Cr0.5Mn0.5O(3±δ).Fabrication of Ti substrate grain dependent C/TiO2 composites through carbothermal treatment of anodic TiO2.In-situ photoelectron microspectroscopy and imaging of electrochemical processes at the electrodes of a self-driven cell.Chemical waves in the O2 + H2 reaction on a Rh(111) surface alloyed with nickel. II. Photoelectron spectroscopy and microscopy.Reversible Compositional Control of Oxide Surfaces by Electrochemical PotentialsSelective decoration of isolated carbon nanotubes by potassium evaporation: scanning photoemission microscopy and density functional theoryPlasma Fluorination of Vertically Aligned Carbon NanotubesElectronic structure of cluster assembled nanostructured TiO2 by resonant photoemission at the Ti L2,3 edgeNanocrystalline Metal/Carbon Composites Produced by Supersonic Cluster Beam Depositionsp hybridization in free carbon nanoparticles—presence and stability observed by near edge X-ray absorption fine structure spectroscopyTemperature Dependent Phenomena in Liquid LBE AlloyElemental Clustering and Structure of Liquid LBEA surface-chemistry study of barium ferrite nanoplates with DBSa-modified surfacesFluorination of suspended grapheneTuning electronic properties of carbon nanotubes by nitrogen grafting: Chemistry and chemical stabilityTubular Sn-filled carbon nanostructures on ITO: Nanocomposite material for multiple applicationsOxidation of nanostructured Ti films produced by low energy cluster beam deposition: An X-ray Photoelectron Spectroscopy characterizationIn situ study of activation and de-activation of LSM fuel cell cathodes – Electrochemistry and surface analysis of thin-film electrodesIn situ X-ray spectromicroscopy investigation of the material stability of SOFC metal interconnects in operating electrochemical cellsSoft X-ray imaging and spectromicroscopy: new insights in chemical state and morphology of the key components in operating fuel-cellsGraphene oxide windows for in situ environmental cell photoelectron spectroscopyPhotoelectron spectroscopy of wet and gaseous samples through graphene membranesQuasi-in-situ single-grain photoelectron microspectroscopy of Co/PPy nanocomposites under oxygen reduction reactionSurface Effects on the Mott-Hubbard Transition in Archetypal V{2}O{3}
P50
Q34083445-881C3197-6D71-4800-B39F-6988DC117658Q39921691-845EC36C-672C-4498-883C-EF8402B41B0CQ41879888-1C480710-20C9-46BB-A134-D9588D3546A9Q53072349-F7A64489-9875-445E-997D-B2716C45E6D4Q57958564-E01E6F6C-1BE1-4E1D-99F3-586D44D0A7E2Q58588730-916CCFAB-B613-4B67-9F0A-848813E84570Q58588803-969F47A0-C2F1-49F4-A147-F3F52FB393C1Q59298118-6CA11518-2D6A-4D49-9F00-8CFCDA97D73FQ59298155-B47C7DF3-2BC4-4724-8F37-BF99CA195921Q59355078-7687DDBA-E85A-4248-B2CF-08B4F0FE5EF3Q60299509-944F90B0-7EAB-467E-91C8-7C902B5A4D2DQ60299541-F6581D11-3270-4D19-895E-3F12B68FF5D9Q60465005-111976CB-2430-417B-9208-F12F7FDC7634Q62080399-F31DA710-1823-43C8-8BE7-7B4461A5641BQ62080635-BC4D0526-F5CD-4E05-92E0-43E4DB386185Q63790432-EB919D73-D4D7-4162-9665-15592FC15896Q63790435-48F9C761-8A39-4918-BC00-50EFB4497D0AQ64218109-9D9ADC04-B223-47A6-A23A-2824990DC760Q84418351-CA5D240E-E78D-42ED-9F8E-36F5486FD770Q84631028-C3A7DCA6-E4D1-4EE3-92EC-F78A19B54958Q84846803-F2E28EFA-F62B-4EA6-8B44-5591FD632CF7Q85836392-59DEFCBD-7569-4EA1-9B7C-1111787A2950Q85906968-15FD6728-618B-4B63-8891-4DD823DBAE80Q86939304-B354CB2D-1192-4415-AA72-B53480AA16B8
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Matteo Amati
@ast
Matteo Amati
@en
Matteo Amati
@es
Matteo Amati
@nl
type
label
Matteo Amati
@ast
Matteo Amati
@en
Matteo Amati
@es
Matteo Amati
@nl
prefLabel
Matteo Amati
@ast
Matteo Amati
@en
Matteo Amati
@es
Matteo Amati
@nl
P106
P1153
56266420400
P31
P496
0000-0002-3809-2145