about
Protonation-Induced Microphase Separation in Thin Films of a Polyelectrolyte-Hydrophilic Diblock Copolymer.Kinetically controlled nanostructure formation in self-assembled globular protein-polymer diblock copolymersGellan gum microgel-reinforced cell-laden gelatin hydrogelsShear-thinning nanocomposite hydrogels for the treatment of hemorrhage.Yielding Behavior in Injectable Hydrogels from Telechelic ProteinsExperimental measurement of coil-rod-coil block copolymer tracer diffusion through entangled coil homopolymers.Structure and Mechanical Response of Protein Hydrogels Reinforced by Block Copolymer Self-Assembly.Artificially Engineered Protein Hydrogels Adapted from the Nucleoporin Nsp1 for Selective Biomolecular TransportThe mechanical properties and cytotoxicity of cell-laden double-network hydrogels based on photocrosslinkable gelatin and gellan gum biomacromolecules.A Highly Elastic and Rapidly Crosslinkable Elastin-Like Polypeptide-Based Hydrogel for Biomedical Applications.Counting primary loops in polymer gelsThermoresponsive and Mechanical Properties of Poly(L-proline) Gels.Toughening of Thermoresponsive Arrested Networks of Elastin-Like Polypeptides To Engineer Cytocompatible Tissue Scaffolds.Oxidatively Responsive Chain Extension to Entangle Engineered Protein Hydrogels.Nanopatterned Protein Films Directed by Ionic Complexation with Water-Soluble Diblock Copolymers.Arrested Phase Separation of Elastin-like Polypeptide Solutions Yields Stiff, Thermoresponsive Gels.Enhanced activity and stability of organophosphorus hydrolase via interaction with an amphiphilic polymer.Site-specific conjugation of RAFT polymers to proteins via expressed protein ligationSolid-state nanostructured materials from self-assembly of a globular protein-polymer diblock copolymer.Anomalous self-diffusion and sticky Rouse dynamics in associative protein hydrogels.Reinforcement of Shear Thinning Protein Hydrogels by Responsive Block Copolymer Self-Assembly.Reply to Stadler: Combining network disassembly spectrometry with rheology/spectroscopy.Efficient synthesis of narrowly dispersed brush copolymers and study of their assemblies: the importance of side chain arrangement.Making thin polymeric materials, including fabrics, microbicidal and also water-repellent.Hierarchical nanostructure control in rod-coil block copolymers with magnetic fields.Effect of small molecule osmolytes on the self-assembly and functionality of globular protein-polymer diblock copolymers.Engineering Elastin-Like Polypeptide-Poly(ethylene glycol) Multiblock Physical Networks.Mechanical response of transient telechelic networks with many-part stickers.Structure and rheology of dual-associative protein hydrogels under nonlinear shear flow.Celebrating Soft Matter's 10th Anniversary: chain configuration and rate-dependent mechanical properties in transient networks.Three-Dimensional Ordered Antibody Arrays Through Self-Assembly of Antibody-Polymer Conjugates.Complex Coacervate Core Micelles for the Dispersion and Stabilization of Organophosphate Hydrolase in Organic Solvents.Crossover between activated reptation and arm retraction mechanisms in entangled rod-coil block copolymers.The nature of protein interactions governing globular protein-polymer block copolymer self-assembly.Coil fraction-dependent phase behaviour of a model globular protein-polymer diblock copolymer.Peptide attachment to vapor deposited polymeric thin films.Biosynthesis of poly(glycolate-co-lactate-co-3-hydroxybutyrate) from glucose by metabolically engineered Escherichia coli.Highly Active Biocatalytic Coatings from Protein-Polymer Diblock Copolymers.Responsive block copolymer photonics triggered by protein-polyelectrolyte coacervation.Kinetics of magnetic field-induced orientational ordering in block copolymer/superparamagnetic nanoparticle composites.
P50
Q33710501-41F7F517-E878-43B5-A9BD-518A8A736E3EQ33763982-FCC73203-DAAF-42FF-8A55-9CCBCB8129C0Q34314603-12638607-2BFF-4BB7-8684-78D20CC2A276Q34419933-68A02114-8DED-4854-9673-A63BBF7FE95DQ34473411-AEAC5426-1071-4ED2-93F6-D46A79AA5E1FQ34633021-905758F1-BAEB-4C1D-A6D9-D05F0BE042AAQ35064594-DDC2377D-37F8-4721-91BB-3BDD55567C03Q35669774-34F9E11A-8569-4D4A-B50E-44CD1BCEA2D5Q35764650-F8C320F4-8C2D-49DB-B336-D195950159EFQ36216640-44B4C9AB-8E34-4E34-A57C-FCB16ED67EB2Q36437020-4B39F916-7173-49C0-A4C1-0BB5A09F1552Q36563797-AF68FB31-F1FB-4A9B-9CE9-1D242E1B6E96Q36575561-32842223-EFA9-4CB2-8949-94D2EB3462E9Q40231513-AE8B7ED3-381D-4E20-852F-F63AE6DDB71EQ40232331-3DB3171C-702C-4391-9E94-C84C86F2D684Q40348050-75BD281A-3AB0-4132-B7D8-7041FCD6F60FQ40775411-D68827C2-BE70-437E-A338-1B0DC073B690Q40775445-D2B51AE2-1D93-45D5-8C4D-440CB42F2B2BQ40775508-F5D6E5EC-1CD9-44B3-9B5D-33B5BC3D86CAQ41238018-085BB55E-ACE9-41EE-817A-3A8AE24EDB5DQ41610022-056C8068-0189-4AD9-B400-10A6B80B8FAFQ43143452-F947267E-6E07-4B3F-A858-6394F5B7B2A6Q44005516-177719EE-5150-4383-957F-49FD2C21445DQ44636366-D93651A9-E44D-4F91-8B75-05C8A70B3C23Q45937021-A2D183DC-832B-4C1A-BB48-B6C2074986C2Q46182748-4A953F62-1E89-400C-9786-6FA5870D1794Q47239276-61899E22-FFDA-4CB3-8D49-D57117DB8387Q47323146-58E505FA-30B1-46E6-80ED-D3B65740AE95Q47392333-0DDD3EBE-D6EC-4A95-8EA2-D8061D77219FQ48052537-CF52A8C2-EC65-45C2-B0DA-55C0DB06E64AQ48112568-F14E7B09-27BB-4203-B6E8-A94EE7936FC7Q48138340-08AF6094-B7D7-4EF5-BC80-737824FAF6A5Q48642190-C4D8554A-EFC5-4EC1-BF5B-43C487610488Q50459090-53270702-2497-421D-AAA8-2DA6299FB10FQ50474987-84574600-38C2-4A03-9363-E99B6A5D8C6DQ51428057-6C74AAD3-A74F-453B-8559-2AFB25D0B4F4Q51557721-9377BE5B-2CBE-4719-8368-4EAF8357035DQ53193391-59F1D94E-3CBF-4654-B67B-B1E4CBD42B0AQ53392845-9AE613A2-D9BD-4605-8C19-906817188072Q53416574-B1C4EBF0-43B5-4552-BBB6-7DAE3740163A
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Bradley D Olsen
@ast
Bradley D Olsen
@en
Bradley D Olsen
@es
Bradley D Olsen
@nl
type
label
Bradley D Olsen
@ast
Bradley D Olsen
@en
Bradley D Olsen
@es
Bradley D Olsen
@nl
prefLabel
Bradley D Olsen
@ast
Bradley D Olsen
@en
Bradley D Olsen
@es
Bradley D Olsen
@nl
P106
P1153
16310882200
P21
P31
P496
0000-0002-7272-7140