about
The exchange coupling in Cr3On (n = 0-3) clusters.Probing the atomic structure of metallic nanoclusters with the tip of a scanning tunneling microscope.Thermal radiation of laser heated niobium clusters Nb(+)(N), 8 ⩽ N ⩽ 22.Lateral manipulation of atomic vacancies in ultrathin insulating films.Nonlinear effects in infrared action spectroscopy of silicon and vanadium oxide clusters: experiment and kinetic modeling.Thermal radiation and fragmentation pathways of photo-excited silicon clusters.UV crosslinked mRNA-binding proteins captured from leaf mesophyll protoplasts.Statistics of localized phase slips in tunable width planar point contacts.Carbon monoxide adsorption on neutral and cationic vanadium doped gold clusters.Structures of silicon cluster cations in the gas phase.The structures of neutral transition metal doped silicon clusters, Si(n)X (n = 6-9; X = V, Mn).Influence of Cr doping on the stability and structure of small cobalt oxide clusters.Vibrational spectra of small silicon monoxide cluster cations measured by infrared multiple photon dissociation spectroscopy.Decorating graphene with size-selected few-atom clusters: a novel approach to investigate graphene-adparticle interactions.Size-Dependent Penetration of Gold Nanoclusters through a Defect-Free, Nonporous NaCl Membrane.Structural assignment of small cationic silver clusters by far-infrared spectroscopy and DFT calculations.Controlling the Adsorption of Carbon Monoxide on Platinum Clusters by Dopant-Induced Electronic Structure Modification.Hydrogen Chemisorption on Singly Vanadium-Doped Aluminum Clusters.Effects of Charge Transfer on the Adsorption of CO on Small Molybdenum-Doped Platinum Clusters.Extremely stable metal-encapsulated AlPb10+ and AlPb12+ clusters: mass-spectrometric discovery and density functional theory study.Identification of conical structures in small aluminum oxide clusters: infrared spectroscopy of (Al2O3)1-4(AlO)+.Structural determination of niobium-doped silicon clusters by far-infrared spectroscopy and theory.Tuning the geometric structure by doping silicon clusters.Unexpected structures of aluminum oxide clusters in the gas phase.Isomorphous substitution in bimetallic oxide clusters.Spontaneous doping of two-dimensional NaCl films with Cr atoms: aggregation and electronic structureSelf-Doping of Ultrathin Insulating Films by Transition Metal AtomsCombined experimental and theoretical study of small aluminum oxygen clustersTo Achieve Stable Spherical Clusters: General Principles and Experimental ConfirmationsStructures and magnetic properties of small [Formula: see text] and Co Cr (n = 3-5) clustersCarbon Monoxide Adsorption on Silver Doped Gold ClustersSigma aromaticity of the bimetallic Au5Zn+ clusterThe Cu7Sc cluster is a stable sigma-aromatic seven-membered ringStability and dissociation pathways of doped Au(n)X+ clusters (X = Y, Er, Nb)Argon physisorption as structural probe for endohedrally doped silicon clustersQuenching of the magnetic moment of a transition metal dopant in silver clustersStructural identification of caged vanadium doped silicon clustersCopper doping of small gold cluster cations: influence on geometric and electronic structureSingly and doubly lithium doped silicon clusters: geometrical and electronic structures and ionization energiesThe geometric, electronic, and magnetic properties of Ag5X+ (X = Sc, Ti, V, Cr, Mn, Fe, Co, and Ni) clusters
P50
Q33283438-2A893C92-09DB-463D-8016-C8D03FC5D9BCQ35074961-6C79125B-3218-4A84-B739-A9945B4E9590Q35207388-950C12A6-8D44-4E4F-9EEB-27EAF3C3F951Q35577019-375F61D8-1648-4939-8278-795534DB9F96Q35711941-0F9291B1-D361-46A7-AD74-966FF9EE9460Q35869739-300A7B6E-4CEB-4905-9225-3778F7BCF5F9Q37390727-F841B963-A360-4900-81E7-AD08A1F7C1B1Q41973605-3C6D4152-73A7-4589-B283-C4AA347EF79BQ44803407-AE89FF1F-9A51-4CF8-8B89-5D4E62FA97E9Q45819604-26466670-2706-4BC4-812C-0AEBE83E6BA9Q46793683-E8F76D0E-8954-4C7A-A534-A72D714FAAF3Q46857483-4929DFB6-9BAB-4A73-B315-D76437DE5871Q46915793-937DC9C4-7BBA-4027-AEA4-32F04F6A2922Q47200534-CB91E512-6820-4B96-B9EE-565927FB93E6Q47311367-F68A179B-A296-44E7-A3D5-47CF747EA8E1Q48057744-48B99BBF-0D56-490E-AA8D-BA9231580E48Q48140250-C19EE831-493B-4D03-A2FF-C35D8783D9C5Q48304713-350CB84B-3C49-46BD-B7B8-35A64D5455AFQ48325654-9FB3D3AF-F881-4582-B44D-2396CE39932BQ49249679-9EABDAFE-4AF1-47E8-83B6-0FD073010F2CQ50456697-E3C3D9F3-5FD7-45C9-8A02-B4BBCB7251C5Q50717885-2CA48B00-3DA4-40F1-8B53-791B3B6CB56AQ52919718-B1C2D571-37BA-484B-8717-C2E6E3066159Q52926808-30C378AD-97F1-44AB-9AEF-8DD03BC5CBEEQ52932086-A02C7C8F-EF20-4855-9F11-617010B38198Q57783473-6A11DC92-19BE-40AF-B134-C9793802C6C3Q57783516-8C605621-5946-4F5D-86D2-78F8FAE4B4B2Q58485347-B980F361-4E05-41EF-9E2E-8598931BC1A7Q58485357-EE53C523-8A4E-4830-ABA9-D97043B304EEQ58552874-1DB52125-68C0-4FA9-9D6A-79E8A21D816CQ62162251-BE0457CF-C553-4730-AB81-24697BA87930Q73080259-6E82BB69-C1B1-457F-B599-C486B9ABE086Q81009401-6E33EFCE-2430-49F3-AF4E-EC082020B35CQ81187435-56C5DEDB-D507-4B0A-8C9F-E691BA6F37AFQ81428664-F4731E40-C899-4F75-9269-7C2E25D9CB55Q81763329-E491DA1A-53C7-45AE-BD7B-E8521E6A8226Q82631184-51839638-C621-4F89-8556-32975C092D53Q82950941-B04E4633-C57C-497A-A45E-32C506B39F18Q83284405-7E04AC31-337F-478D-B8EC-CB826AC6F338Q83366580-B10AE6A1-CB46-46C0-974F-257EE41BBE3D
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Ewald Janssens
@ast
Ewald Janssens
@en
Ewald Janssens
@es
Ewald Janssens
@nl
Ewald Janssens
@sl
type
label
Ewald Janssens
@ast
Ewald Janssens
@en
Ewald Janssens
@es
Ewald Janssens
@nl
Ewald Janssens
@sl
prefLabel
Ewald Janssens
@ast
Ewald Janssens
@en
Ewald Janssens
@es
Ewald Janssens
@nl
Ewald Janssens
@sl
P106
P1153
7003318506
P21
P31
P496
0000-0002-5945-1194