about
Adsorbate-induced lifting of substrate relaxation is a general mechanism governing titania surface chemistryChemical bath deposition of textured and compact zinc oxide thin films on vinyl-terminated polystyrene brushes.Interaction of human plasma proteins with thin gelatin-based hydrogel films: a QCM-D and ToF-SIMS studyIn deuterated water the unspecific adsorption of proteins is significantly slowed down: results of an SPR study using model organic surfaces.Electrochemically deposited Pd islands on an organic surface: the presence of Coulomb blockade in STM I(V) curves at room temperature.Triptycene-terminated thiolate and selenolate monolayers on Au(111).Site-selective growth of surface-anchored metal-organic frameworks on self-assembled monolayer patterns prepared by AFM nanografting.Two-in-One: λ-Orthogonal Photochemistry on a Radical Photoinitiating System.Atomically precise semiconductor--graphene and hBN interfaces by Ge intercalation.Tunable molecular separation by nanoporous membranes.Molecular weaving via surface-templated epitaxy of crystalline coordination networks.Surface chemistry of metal-organic frameworks at the liquid-solid interface.MOF thin films: existing and future applications.Rendering Photoreactivity to Ceria: The Role of Defects.Surface-supported metal-organic framework thin films: fabrication methods, applications, and challenges.IR spectroscopic investigations of chemical and photochemical reactions on metal oxides: bridging the materials gap.Carbon Dioxide Adsorption on CeO2 (110): An XPS and NEXAFS Study.Charge carrier mobilities in organic semiconductors: crystal engineering and the importance of molecular contacts.Electric transport properties of surface-anchored metal-organic frameworks and the effect of ferrocene loading.The biocompatibility of metal-organic framework coatings: an investigation on the stability of SURMOFs with regard to water and selected cell culture media.Ruthenium Metal-Organic Frameworks with Different Defect Types: Influence on Porosity, Sorption, and Catalytic Properties.Tuning the reactivity of oxide surfaces by charge-accepting adsorbates.Charge-transfer-induced structural rearrangements at both sides of organic/metal interfaces.cis-to-trans isomerization of azobenzene investigated by using thin films of metal-organic frameworks.Carbon nanowalls: the next step for physical manifestation of the black body coating.Probing electrons in TiO2 polaronic trap states by IR-absorption: evidence for the existence of hydrogenic states.A novel series of isoreticular metal organic frameworks: realizing metastable structures by liquid phase epitaxy.Human guanylate-binding protein 1 as a model system investigated by several surface techniques.A novel method to measure diffusion coefficients in porous metal-organic frameworks.Structural characterization of self-assembled monolayers of pyridine-terminated thiolates on gold.Self-assembled monolayers of benzylmercaptan and para-cyanobenzylmercaptan on gold: surface infrared spectroscopic characterization.Influence of OH groups on charge transport across organic-organic interfaces: a systematic approach employing an "ideal" device.Supramolecular organization and chiral resolution of p-terphenyl-m-dicarbonitrile on the Ag(111) surface.Self-assembled monolayers of aromatic omega-aminothiols on gold: surface chemistry and reactivity.Photoresponsive SAMs on gold fabricated from azobenzene-functionalised asparagusic acid derivatives.Postformation Modification of SAMs: using click chemistry to functionalize organic surfaces.Defects in MOFs: a thorough characterization.A new dual-purpose ultrahigh vacuum infrared spectroscopy apparatus optimized for grazing-incidence reflection as well as for transmission geometries.Post-synthetic modification of metal-organic framework thin films using click chemistry: the importance of strained C-C triple bonds.He atom scattering from ZnO surfaces: calculation of diffraction peak intensities using the close-coupling approach.
P50
Q28822301-0AF03070-65E7-4FF0-A997-F554D571FC48Q30390168-06107797-B776-4256-B17D-D196B66D0A07Q30408651-04E1F636-A40A-4B1A-9786-27175F119581Q31005763-583CD447-302C-4C64-A35E-C8210CDCA8D6Q33251121-04E8F088-A978-4695-8EBB-CE313EDF44AFQ33605096-5D541360-CDC2-40E9-B7C3-7B62733A5C06Q35037091-9B1CD398-ABD3-40AF-9BC8-3F30699B4CEDQ36206460-914BD785-ECDD-4502-8D8D-0E4FE8727306Q36350298-384C4E30-3BA9-4A69-B369-A6516F4C7C93Q37533302-4E3BD37D-E3D7-4148-9248-A3FA74851CD6Q37651927-21CE01FF-621A-48EF-AC7C-39EB53A566B6Q37824458-F4EFE324-3086-4FBA-9EED-508B302EEE8FQ37827707-C6CE7C64-FEAA-4367-8501-ED8FF8C90A71Q38599681-C2507821-7AE8-4863-B27B-C2CC0F02EF4FQ38662072-43DCD475-6F5F-481E-883F-AC4DF0A4828AQ38755000-16672E7C-48C1-4551-AD76-6215F26B6F19Q38803888-2928300D-B024-4F92-B355-212E945F1950Q38978488-D06A76D2-113E-43E1-8623-DD44C6F2DF8AQ39017941-61257BAE-E10D-4C10-8C08-26BF3B04EE16Q39370212-F499AD4E-0C6D-428D-964A-B692813E17D8Q39485903-A9B9D27D-B61D-4B1D-A402-D0A81A64E2FEQ39811366-C91F1EB6-A220-4A14-A424-7554EC5F6A3BQ39929943-B0D405EB-4C29-4CBE-8796-BEB035787BDEQ40644570-E2221D86-1FC7-4736-8A62-7CA98854E007Q41833380-556CA48C-E908-4BDF-8714-73B53D0B0DE5Q41883656-2E6A3618-A87A-49F7-906A-94C5E3CA7AA0Q42385513-65BB9DA6-8E67-4F8C-A3C5-0605C4E21306Q42759799-D92AB40A-40C8-49BB-BCF1-EC736F1FC715Q43040057-C63BDDB5-9EA9-4A4A-85C5-FC65542FEF8AQ43091105-33928751-3F85-4D75-A79F-91715F572170Q43091112-D707B0E7-BA31-4A5E-A50C-F4EFE87D076BQ43091127-9E3A8BA5-5F38-41C3-92A6-EBBC9AD8A81AQ43150126-B8A20D79-03FE-4007-853B-141A17A58C04Q43205037-A669DD57-3191-4831-96BF-773A488581C3Q43265943-C26D71EE-D2A1-4856-866C-4D63CED4E90EQ43269753-A42176CD-2C33-4CE8-AD11-5A229E310EF3Q43956124-2509F7E4-F6E9-46D6-AFD2-2D1A41946B35Q44006616-A1CA2707-8133-4851-AAE9-3501186E4968Q44189682-F31CAC5E-0EDD-4411-A0B7-A94CCA88B56CQ44365449-C77C5E7B-D6E4-438B-8C2C-6D1A2CC58B40
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Christof Wöll
@ast
Christof Wöll
@en
Christof Wöll
@es
Christof Wöll
@nl
Christof Wöll
@sl
type
label
Christof Wöll
@ast
Christof Wöll
@en
Christof Wöll
@es
Christof Wöll
@nl
Christof Wöll
@sl
prefLabel
Christof Wöll
@ast
Christof Wöll
@en
Christof Wöll
@es
Christof Wöll
@nl
Christof Wöll
@sl
P1053
D-5563-2011
P106
P1153
7005673565
P21
P31
P3829
P496
0000-0003-1078-3304