about
Magnetic field alignable domains in phospholipid vesicle membranes containing lanthanides.Rapid Acquisition of X-Ray Scattering Data from Droplet-Encapsulated Protein Systems.Controlling water evaporation through self-assembly.Interfibrillar packing of bovine cornea by table-top and synchrotron scanning SAXS microscopy.Sequential conformational transitions and α-helical supercoiling regulate a sensor histidine kinaseCholesterol-diethylenetriaminepentaacetate complexed with thulium ions integrated into bicelles to increase their magnetic alignability.Cholesterol increases the magnetic aligning of bicellar disks from an aqueous mixture of DMPC and DMPE-DTPA with complexed thulium ions.Novel type of bicellar disks from a mixture of DMPC and DMPE-DTPA with complexed lanthanides.Alignment of bicelles studied with high-field magnetic birefringence and small-angle neutron scattering measurements.Small-angle X-ray scattering tensor tomography: model of the three-dimensional reciprocal-space map, reconstruction algorithm and angular sampling requirements.Ionic micelles and aromatic additives: a closer look at the molecular packing parameter.Intermicellar Interactions and the Viscoelasticity of Surfactant Solutions: Complementary Use of SANS and SAXS.Fabrication Procedures and Birefringence Measurements for Designing Magnetically Responsive Lanthanide Ion Chelating Phospholipid Assemblies.High-acceptance versatile microfocus module based on elliptical Fresnel zone plates for small-angle X-ray scattering.Time-Resolved X-Ray Solution Scattering Reveals the Structural Photoactivation of a Light-Oxygen-Voltage Photoreceptor.Mastering the magnetic susceptibility of magnetically responsive bicelles with 3β-amino-5-cholestene and complexed lanthanide ions.Scanning-SAXS of microfluidic flows: nanostructural mapping of soft matter.Tailoring Bicelle Morphology and Thermal Stability with Lanthanide-Chelating Cholesterol Conjugates.Viscoelasticity Enhancement of Surfactant Solutions Depends on Molecular Conformation: Influence of Surfactant Headgroup Structure and Its Counterion.Nanostructure surveys of macroscopic specimens by small-angle scattering tensor tomography.Controlling Orientational and Translational Order of Iron Oxide Nanocubes by Assembly in Nanofluidic Containers.Six-dimensional real and reciprocal space small-angle X-ray scattering tomography.Multiscale Description of Shale Pore Systems by Scanning SAXS and WAXS MicroscopyMagnetically Enhanced Bicelles Delivering Switchable Anisotropy in Optical GelsHigh-speed tensor tomography: iterative reconstruction tensor tomography (IRTT) algorithmBioinspired Structural Hierarchy within Macroscopic Volumes of Synthetic CompositesTough Ordered Mesoporous Elastomeric Biomaterials Formed at Ambient ConditionsAssessing lesion malignancy by scanning small-angle x-ray scattering of breast tissue with microcalcificationsValidation study of small-angle X-ray scattering tensor tomography
P50
Q33519134-42F3C1AE-2E82-46BD-8414-61B762363019Q36308676-8A3427F2-8AEA-4BAD-8371-A620B0680277Q37264108-DCEACF9B-81F0-4608-8B90-3ED144638CA5Q39509304-FD3C5A12-82A5-4927-B965-99564B6BF81AQ41448381-8F3D0AFE-3DD1-4350-ABBA-B4F20BCD6D5EQ41609896-E31F479B-5FCD-4419-9B45-1EE57C640C26Q41613155-715EA244-7887-4F05-AFD2-4D123FC6DEF8Q41619050-8DF5E10B-EAA9-465D-A02C-B593934FC231Q43510647-78439065-99A3-4A72-8DC7-4C9613061CCFQ47112331-49169C86-BA69-4510-A502-CB5069BFB1A2Q47820208-19612471-3FA3-4F03-A7D3-D6113DF92EACQ48212978-94583A5C-471B-4D7D-BAEC-B960CC5FFA73Q49827103-E772CCAD-8783-42EC-BE7F-3A2151D48492Q50083700-0FED13F6-D728-4A62-AB69-64DBA58B6917Q50174842-F165D852-516A-49D6-9C6F-087973B5A90DQ50920133-6DF2A75E-00E0-48F2-83A5-1CD13B78EC1DQ51143172-AB0A030D-7032-46A4-B29D-8A19D965DB10Q51197948-B01F81AF-340E-4263-BB19-66924927A9F2Q51370400-ED3446EE-26C2-4F89-BE93-13B98381E389Q51639778-500786D3-A769-4EFE-BA90-59C4869042D4Q51669461-E77DC709-3364-48A5-BC8B-D5EB3863184FQ52146721-5A75E857-7B97-4BEB-8EFD-5BDA586F0025Q62030246-88559D57-F218-4C31-B696-824027ABB791Q62030249-236DB882-DD4F-48D2-A82D-AD731EE9BDD0Q62582791-24CDC7EB-A2B2-4522-9038-EF6C96942B0DQ62603513-EB7B9822-0830-4F0B-A1D3-E8DE0B835AC4Q92042063-87E53625-5D92-47E3-A335-52CBDC994D3FQ92988183-EA8B6897-135E-49C5-B90B-ECA8C9B4DAD1Q94549049-77D9C049-BA02-445E-A079-4CD3A520BF4F
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Marianne Liebi
@ast
Marianne Liebi
@en
Marianne Liebi
@es
Marianne Liebi
@nl
Marianne Liebi
@sl
type
label
Marianne Liebi
@ast
Marianne Liebi
@en
Marianne Liebi
@es
Marianne Liebi
@nl
Marianne Liebi
@sl
prefLabel
Marianne Liebi
@ast
Marianne Liebi
@en
Marianne Liebi
@es
Marianne Liebi
@nl
Marianne Liebi
@sl
P1053
A-3821-2015
P106
P21
P31
P3829
P496
0000-0002-5403-0593