Poly(ethylene glycol) adlayers immobilized to metal oxide substrates through catechol derivatives: influence of assembly conditions on formation and stability.
about
Design of surface modifications for nanoscale sensor applications.Effect of nitro-functionalization on the cross-linking and bioadhesion of biomimetic adhesive moiety.High sensitivity molecule detection by plasmonic nanoantennas with selective binding at electromagnetic hotspots.Polymer composition and substrate influences on the adhesive bonding of a biomimetic, cross-linking polymer.Nonfouling poly(ethylene oxide) layers end-tethered to polydopamine.Ambivalent Adhesives: Combining Biomimetic Cross-Linking With Antiadhesive Oligo(ethylene glycol)Nitro-Group Functionalization of Dopamine and its Contribution to the Viscoelastic Properties of Catechol-Containing Nanocomposite HydrogelsLong-lasting antifouling coating from multi-armed polymer.Bioinspired catecholic chemistry for surface modification.Stabilization and functionalization of iron oxide nanoparticles for biomedical applications.Natural Underwater Adhesives.Covalent surface modification of oxide surfaces.A survey of state-of-the-art surface chemistries to minimize fouling from human and animal biofluids.Comparison between protein repulsions by diblock PLA-PEO and albumin nanocoatings using OWLS.Quantitative Determination and Comparison of the Surface Binding of Phosphonic Acid, Carboxylic Acid, and Catechol Ligands on TiO2 Nanoparticles.Synthesis of tripodal catecholates and their immobilization on zinc oxide nanoparticles.Catechol-based layer-by-layer assembly of composite coatings: a versatile platform to hierarchical nano-materials.Bioinspired, releasable quorum sensing modulators.Imparting Nonfouling Properties to Chemically Distinct Surfaces with a Single Adsorbing Polymer: A Multimodal Binding Approach.Topological Polymer Chemistry Enters Surface Science: Linear versus Cyclic Polymer Brushes.Versatile nanostructured materials via direct reaction of functionalized catechols.Patterning of supported lipid bilayers and proteins using material selective nitrodopamine-mPEG.Neuritogenic surfaces using natural product analogs.Adsorption of core-shell nanoparticles at liquid–liquid interfacesA poly(vinylidene fluoride)-graft-poly(dopamine acrylamide) copolymer for surface functionalizable membranesThe third orthogonal dynamic covalent bondLayer-by-Layer Assemblies of Catechol-Functionalized TiO2Nanoparticles and Porphyrins through Electrostatic InteractionsAntibacterial and photochemical properties of cellulose nanofiber–titania nanocomposites loaded with two different types of antibiotic medicinesPhototriggered Production of Reactive Oxygen Species by TIO2Nanospheres and Rods
P2860
Q30418270-6B43007B-B2ED-48D2-960A-0C833B49EB7AQ34959790-BE6D0D3D-91D1-4D57-936E-BA742999824EQ35059966-9913500C-D488-40EB-BF9E-314C4A0484E6Q36152976-EEC99D8B-44AC-4B7C-80A2-4517F59FF847Q36373847-AB6116EB-A032-45AA-8DE2-1FD49B695A3CQ36501826-DD317D48-E0BA-4952-9A69-1F192E556A02Q36623234-6D1B90B8-1468-4F4B-B0F4-991F7F9AFE25Q37179047-66BFECE2-57E0-4CFD-ACA8-529311BAC95BQ37878351-DBD9FC02-5D48-45A7-A3E2-449088A8AA8AQ37883126-0E1041F9-59F5-4A9F-96A5-84DB376A793AQ37885188-16F4853B-8F77-4BFA-AF2E-87ECF6263AC6Q38213564-5375DA96-F501-4625-AB28-D20C5985321BQ38555389-A714DF01-6A4F-4CA0-84D6-3901D9EA172AQ39162827-48CF3758-D03D-4D82-9D0F-0ED59515AFDFQ39579334-5A6C60B0-418B-4030-91DC-00A4C2D864EAQ42527465-785D8674-2308-4C0D-AA12-2F3F9411B95AQ46247535-389DEBF0-390D-40CA-85B4-F3A64205B5DCQ46710559-E04480B3-FF1D-4A48-BD9F-AAF08F25C385Q50882258-37761C1C-4BC4-4C1D-97BF-BE18B700F49AQ51126107-EBE70046-511F-45BC-BE06-4082FF166E1AQ51830586-B2677B3A-5931-46FE-867F-5E956FD28D4DQ53604746-59025692-5B3C-496B-9530-994FA99A5A77Q53605924-CC1B126F-475E-4D0D-B8DD-E150A77A4F05Q57351130-37F3C67D-8397-40D0-9573-8EC26FD5DFC0Q57364901-956E06AD-7D56-49F2-B257-ED9C8FEE703BQ57902950-07CC0937-EFC3-4529-B01F-968FD1DBE07EQ58231853-F9BAA8ED-FA8E-4C34-A25D-2CEAAE28DE98Q58333662-0E9FF55F-5FB1-4C98-B1E8-E084C5BAFA97Q58910508-1C40470C-EAE9-48DA-9BAD-70F7EEB2B8DB
P2860
Poly(ethylene glycol) adlayers immobilized to metal oxide substrates through catechol derivatives: influence of assembly conditions on formation and stability.
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
2010年學術文章
@zh-hant
name
Poly(ethylene glycol) adlayers ...... ns on formation and stability.
@en
type
label
Poly(ethylene glycol) adlayers ...... ns on formation and stability.
@en
prefLabel
Poly(ethylene glycol) adlayers ...... ns on formation and stability.
@en
P2093
P356
P1433
P1476
Poly(ethylene glycol) adlayers ...... ns on formation and stability.
@en
P2093
Barbora Malisova
Marcus Textor
Samuele Tosatti
Stefan Zürcher
P304
P356
10.1021/LA903486Z
P407
P577
2010-03-01T00:00:00Z