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Mesenchymal Stem Cell Fate: Applying Biomaterials for Control of Stem Cell BehaviorSoluble IF-ReS2 nanoparticles by surface functionalization with terpyridine ligands.Hydrogen peroxide sensors for cellular imaging based on horse radish peroxidase reconstituted on polymer-functionalized TiO₂ nanorods.Analysis of enzyme-responsive peptide surfaces by Raman spectroscopyDynamic Surfaces for the Study of Mesenchymal Stem Cell Growth through Adhesion Regulation.Biocatalytic Self-Assembly Cascades.Biocatalytic Self-Assembly on Magnetic Nanoparticles.Pathway-dependent gold nanoparticle formation by biocatalytic self-assembly.From Single Molecules to Nanoscopically Structured Materials: Self-Assembly of Metal Chalcogenide/Metal Oxide Nanostructures Based on the Degree of Pearson HardnessReversible Self-Assembly of Metal Chalcogenide/Metal Oxide Nanostructures Based on Pearson HardnessAromatic identity, electronic substitution, and sequence in amphiphilic tripeptide self-assemblyHigh-Affinity Detection and Capture of Heavy Metal Contaminants using Block Polymer Composite MembranesAmine functionalized ZrO2 nanoparticles as biocompatible and luminescent probes for ligand specific cellular imagingRational assembly and dual functionalization of Au@MnO heteroparticles on TiO2nanowiresCooperative, ion-sensitive co-assembly of tripeptide hydrogelsSurface Defects as a Tool to Solubilize and Functionalize WS2 NanotubesMolecular Camouflage: Making Use of Protecting Groups To Control the Self-Assembly of Inorganic Janus Particles onto Metal-Chalcogenide Nanotubes by Pearson HardnessIF-ReS2 with Covalently Linked Porphyrin AntennaeMetal Ion Affinity-based Biomolecular Recognition and Conjugation inside Synthetic Polymer Nanopores Modified with Iron–Terpyridine ComplexesSynthesis and functionalization of chalcogenide nanotubesElectrostatic-driven self-sorting and nanostructure speciation in self-assembling tetrapeptides
P50
Q26744493-5ED63CA4-80FE-4B8A-B163-A12033475618Q33761627-F58BC7F7-7280-450A-9FFC-38028C698ECFQ33993775-2F83FC9D-9264-409A-8A21-E0DA00476ED6Q36762359-F65B2271-F74B-47D3-9656-175C435BE20FQ42398292-AFB15F9D-0F41-40F7-A04F-7EAC65DDA421Q48166699-EB477720-9A2F-414A-A334-FC66520CB0D1Q48338601-4DAB5266-E183-4D95-BD3B-72C7ADFB59F1Q53103066-0729EA65-336D-4613-8129-74A004DFB852Q57867723-0ACB20FD-657A-4BC5-A0A2-FEA99CF5B5A4Q57867768-14B9E2F4-9960-43C0-B316-37094F395A1CQ58608951-A740DC51-2329-43DD-9A98-2D71F557821DQ60912025-C513E369-68FA-4FC1-8D3C-B3BA5E6B3A3CQ62116838-A9A43A7F-0122-4F66-91C5-A580B7EF1E72Q62343579-B8DFD41F-E915-4FC6-B240-4C22C9C1856EQ62553195-323CB68A-5200-4880-BCFE-DF2D22D5D35AQ62644262-E7C5FA30-7C69-40CD-A02B-D3241239C055Q62644316-E44FF837-BAE6-4A99-AF7C-92521FC066F6Q62644333-C58664A2-5492-4546-913C-8E95EA3DD811Q62644961-E069FEB1-0F33-45C1-9D58-DB73E0F10745Q62644997-FD1B623E-0DC3-4D8C-A862-A43183710598Q92914953-CC480438-6855-4E1E-9601-E8A50D421D49
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Jugal Kishore Sahoo
@ast
Jugal Kishore Sahoo
@en
Jugal Kishore Sahoo
@es
Jugal Kishore Sahoo
@nl
Jugal Kishore Sahoo
@sl
type
label
Jugal Kishore Sahoo
@ast
Jugal Kishore Sahoo
@en
Jugal Kishore Sahoo
@es
Jugal Kishore Sahoo
@nl
Jugal Kishore Sahoo
@sl
prefLabel
Jugal Kishore Sahoo
@ast
Jugal Kishore Sahoo
@en
Jugal Kishore Sahoo
@es
Jugal Kishore Sahoo
@nl
Jugal Kishore Sahoo
@sl
P1053
B-7073-2011
P106
P31
P3829
P496
0000-0003-2503-9115