about
Structural basis of the signalling through a bacterial membrane receptor HasR deciphered by an integrative approachAb initio and all-atom modeling of detergent organization around Aquaporin-0 based on SAXS data.Memprot: a program to model the detergent corona around a membrane protein based on SEC-SAXS data.Multifunctional supramolecular polymer networks as next-generation consolidants for archaeological wood conservation.Combined Coarse-Grained Molecular Dynamics and Neutron Reflectivity Characterization of Supported Lipid Membranes.Influence of ibuprofen on phospholipid membranes.A peptide corresponding to the C-terminal region of pleiotrophin inhibits angiogenesis in vivo and in vitro.Low-Resolution Structure of Detergent-Solubilized Membrane Proteins from Small-Angle Scattering Data.Effect of benzocaine and propranolol on phospholipid-based bilayers.Ionophores at work: Exploring the interaction of guanosine-based amphiphiles with phospholipid membranes.Time-Resolved Neutron Reflectivity during Supported Membrane Formation by Vesicle Fusion.On the formation of dendrimer/nucleolipids surface films for directed self-assemblyHighly Active Metastable Ruthenium Nanoparticles for Hydrogen Production through the Catalytic Hydrolysis of Ammonia BoraneA comprehensive mechanism of fibrin network formation involving early branching and delayed single- to double-strand transition from coupled time-resolved X-ray/light-scattering detectionPolymer brushes on periodically nanopatterned surfacesPink noise of ionic conductance through single artificial nanopores revisitedInvestigation of confined ionic liquid in nanostructured materials by a combination of SANS, contrast-matching SANS, and nitrogen adsorptionFormation of polymer brushes inside cylindrical pores: a computer simulation studyCrowding effect on helix-coil transition: beyond entropic stabilizationPeptide pores in lipid bilayers: voltage facilitation pleads for a revised modelSelf-Diffusion in Amorphous SiliconActivation energies control the macroscopic properties of physically cross-linked materialsMechanically strong, fluorescent hydrogels from zwitterionic, fully π-conjugated polymersA versatile UHV transport and measurement chamber for neutron reflectometry under UHV conditionsProbing the Interface Structure of Adhering Cells by Contrast Variation Neutron Reflectometry
P50
Q30152783-112E1141-50B7-4AD8-BE2B-06322772DDD7Q30681359-97E60F6F-B363-4B75-B909-BDA05BBE63BBQ30885747-8A28F873-F7ED-4294-BDEF-90B260444C3EQ34752857-565123BE-7C09-4FA6-9FDA-FA4AC6317B62Q39283884-4279FF5C-B442-4446-B84A-4D2AED94DF13Q42155186-71AC3829-C817-483C-99C5-712EA1EE863EQ44381486-24A4B023-8CD5-4A59-A56E-B10927A301F8Q47323549-26ABE076-F9F7-43CD-904F-5E4B93A1FE24Q47357660-C48C3F89-546E-4F20-AE21-3C619B5C5CDFQ47692857-4A1AE5CC-79C1-4881-9AF4-87E91E8647F4Q48128318-1F2613D8-9CA1-4FC1-8548-C0AEBD53EDA0Q58046762-9462B6EA-DCE6-4B94-AF41-F68C2FC44933Q62233143-4A22F7B7-B614-4B67-8602-025056170FABQ64390361-FBD0C01D-4C6C-4218-BD04-E6CAC44940AEQ79808655-370D8C2A-1F04-4341-8B6F-36019C58DED8Q83194894-784C7C90-62F5-476E-AF43-212685985CC3Q84296695-184579CF-4951-4825-B387-EA3FF6BC2246Q84351506-45FB31DD-9B34-4EEE-8F15-51F54144446DQ84375949-AABD8AD3-2549-4C3A-B144-F072EDD02C26Q87152605-5F4C85AB-0566-4FCC-BB72-FC10BC8A090FQ87182914-F6EC3B88-D157-4C6F-8E39-5C025A385BF5Q87434469-05C257C5-A051-4206-93C9-8DDCAB25D03CQ88177142-35D6CF81-FD09-473C-8967-2B8A27FFE65EQ89424461-BF0F37A6-CE26-4698-AADE-314C5934FFDCQ90284391-941FE615-EE24-47FD-98C7-5505AD55357E
P50
description
researcher, ORCID id # 0000-0001-9417-5108
@en
wetenschapper
@nl
name
Alexandros Koutsioubas
@ast
Alexandros Koutsioubas
@en
Alexandros Koutsioubas
@es
Alexandros Koutsioubas
@nl
type
label
Alexandros Koutsioubas
@ast
Alexandros Koutsioubas
@en
Alexandros Koutsioubas
@es
Alexandros Koutsioubas
@nl
prefLabel
Alexandros Koutsioubas
@ast
Alexandros Koutsioubas
@en
Alexandros Koutsioubas
@es
Alexandros Koutsioubas
@nl
P106
P21
P31
P496
0000-0001-9417-5108