about
Relating energy level alignment and amine-linked single molecule junction conductance.Zwitterionic self-assembly of L-methionine nanogratings on the Ag(111) surface.Electronic properties of the boroxine-gold interface: evidence of ultra-fast charge delocalization.Substrate influence for the Zn-tetraphenyl-porphyrin adsorption geometry and the interface-induced electron transfer.L-tyrosine on Ag(111): universality of the amino acid 2D zwitterionic bonding scheme?X-ray diffraction and computation yield the structure of alkanethiols on gold(111).Pentacene nanorails on Au(110).Phase diagram of pentacene growth on Au(110).A Ru-Ru pair housed in ruthenium phthalocyanine: the role of a "cage" architecture in the molecule coupling with the Ag(111) surface.Length-Independent Charge Transport in Chimeric Molecular Wires.Ultrafast electron injection into photo-excited organic molecules.Ultrafast Charge Transfer Pathways Through A Prototype Amino-Carboxylic Molecular Junction.Ultrafast Bidirectional Charge Transport and Electron Decoherence at Molecule/Surface Interfaces: A Comparison of Gold, Graphene, and Graphene Nanoribbon Surfaces.Electronic and geometric characterization of the L-cysteine paired-row phase on Au(110).Ultrahigh vacuum deposition of L-cysteine on Au(110) studied by high-resolution X-ray photoemission: from early stages of adsorption to molecular organization.Quantifying through-space charge transfer dynamics in π-coupled molecular systems.Morphological modulation of graphene-mediated hybridization in plasmonic systems.Customized Electronic Coupling in Self-Assembled Donorâ Acceptor NanostructuresComputational Study of Amino Mediated Molecular Interaction Evidenced in N 1s NEXAFS: 1,4-Diaminobenzene on Au (111)XPS and STM study of Mn incorporation on the GaAs(001) surfaceTime resolved resonant photoemission study of energy level alignment at donor/acceptor interfacesSurface and bulk contributions in magnetic linear dichroism in the angular dependence from ferromagnetic transition metalsSurface to bulk charge transfer at an alkali metal/metal oxide interfaceMolecular orientation of CN adsorbed on Pd(110)Electronic states of CuPc chains on the Au(110) surfaceRippling of graphitic surfaces: a comparison between few-layer graphene and HOPGMaking angle-resolved photoemission measurements on corrugated monolayer crystals: Suspended exfoliated single-crystal grapheneCorrugation in Exfoliated Graphene: An Electron Microscopy and Diffraction StudySpectromicroscopy of single and multilayer graphene supported by a weakly interacting substrateMesoscopic Donor−Acceptor Multilayer by Ultrahigh-Vacuum Codeposition of Zn-Tetraphenyl-Porphyrin and C70Electronic structure and molecular orientation of a Zn-tetra-phenyl porphyrin multilayer on Si(111)Molecular orientations, electronic properties and charge transfer timescale in a Zn-porphyrin/C70 donor–acceptor complex for solar cellsElectronic properties of a pure and sodium-doped C70 single layer adsorbed on Al polycrystalline surfaceMetallic phases of a C70 single layer adsorbed on Cu(111) doped with sodiumMolecular orientation of C60 on Pt(111) determined by X-ray photoelectron diffractionC70 adsorbed on Cu(111): Metallic character and molecular orientationPhotoelectron–Auger electron coincidence study for condensed matterNonadiabatic surface reaction: Mechanism of electron emission in the Cs+O2 systemStructure of a CH3S monolayer on Au(111) solved by the interplay between molecular dynamics calculations and diffraction measurementsTemperature driven reversible breakdown of pseudomorphism in ultrathin Fe/Cu3Au films
P50
Q33616590-20CBEB23-0C40-43E4-B724-C157DB0DBAA5Q35720162-0625FBE8-CC28-4736-91FC-B3DE84E45C2BQ41826216-4694CDCD-376D-436D-A756-F210A6897E7EQ43029994-138F5F75-FA19-44BF-8AF1-77A4A0604A23Q43187151-06198F35-5676-432D-82B5-D05F5892DC43Q46429045-6AE4417B-1582-47E4-A8A2-8A850EC63825Q46831093-F0D790D9-E820-4EE1-8869-59D2231FC863Q46982626-B8218F1F-F15D-47F8-8BAA-BFB1318D1D20Q48146371-5B4F6D48-EA6D-479A-B2FC-9849F09B6743Q50554201-4D5D49AB-6999-4DC9-9593-F0BDCFAE2DE3Q50606353-2D285BB3-DD79-499F-932A-B9E742844E61Q50721747-013693B0-AB5D-4C93-92A5-BEDE411203FBQ50772112-FD8C8A5A-57F7-472F-969F-21886F6858A5Q51095981-7A1DB830-38AF-4486-B7FD-0C6617F16E28Q51159825-0E3007A2-4B6A-4D4E-AE2E-1F77E80FEF29Q51317751-6589245B-7EC5-4A01-AD7A-5B8A9F177B05Q53014593-ECB59E2B-C004-43B6-9441-5534D0147AADQ57394945-93E96AE3-63B3-45F6-A0F0-CC152A762E05Q57526205-AD845BB8-CF1B-4930-ABB1-EC43FA433C3FQ57963121-2B6833DB-AD14-4F82-85C2-84BB4CE04654Q59657296-9BAA200D-EE5E-40B2-B3EB-7535118166E9Q59657405-FFFE2F11-5C5C-4F2D-A102-92C920F020DEQ59696607-A027587D-C5AA-4F5C-888E-2C1AFBDA0D2BQ60119448-639AE3D4-E068-46F5-B825-306E5EF1CBC0Q60503555-1BC7AFA7-0E56-47FB-B144-FAEA46CD2059Q61655671-B78D02F8-450D-4943-8ADE-B189EAD88483Q62646536-32DD58C9-8906-4FB9-BA7A-8F2848E6C047Q62646549-FC911F11-D007-4040-8993-F13D21AAC917Q62646586-07FB1C91-6E96-42AE-99CB-11902B0C8738Q63790441-E5D513E9-7F11-41B7-A01E-E0782C5A0F72Q63790443-6A4A33DA-D79E-40B3-AC59-1C6DB9AD9DBBQ63790445-3A3CB021-9CF6-42A7-BFFB-494D782EE9CDQ63790449-1A2629B6-4A5A-4914-A251-0AD7DA6F44DDQ63790454-4CAE5257-DE83-48EF-BC53-41EAD6BF590AQ63790455-83C3CE27-0CDB-453C-A42B-27740074345AQ63790458-B5839B5F-D9EA-4BB8-B329-1365E84DABDCQ65557467-7E65A6AC-B7CE-44DA-897D-D267C1C2E4B9Q74503762-FB77B2EE-5FD1-4CA0-AC8F-2273FBA46BDBQ79940992-E4E9498B-8D57-49F1-9E70-3CE852FC0D2BQ80786358-A3D108F0-6AC1-450C-9627-7C8F9F1B8639
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Alberto Morgante
@ast
Alberto Morgante
@en
Alberto Morgante
@es
Alberto Morgante
@nl
Alberto Morgante
@sl
type
label
Alberto Morgante
@ast
Alberto Morgante
@en
Alberto Morgante
@es
Alberto Morgante
@nl
Alberto Morgante
@sl
prefLabel
Alberto Morgante
@ast
Alberto Morgante
@en
Alberto Morgante
@es
Alberto Morgante
@nl
Alberto Morgante
@sl
P1053
C-5199-2010
P106
P21
P31
P3829
P496
0000-0001-9021-2944