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Proteins, platelets, and blood coagulation at biomaterial interfacesEnantiopure chiral poly(glycerol methacrylate) self-assembled monolayers knock down protein adsorption and cell adhesion.Bioinspired tilt-angle fabricated structure gradient fibers: micro-drops fast transport in a long-distance.A simple MALDI plate functionalization by Vmh2 hydrophobin for serial multi-enzymatic protein digestions.Femtosecond laser induced hierarchical ZnO superhydrophobic surfaces with switchable wettability.Investigation into the effect of varied functional biointerfaces on silicon nanowire MOSFETs.Chiral biointerface materials.Orchestrating cell/material interactions for tissue engineering of surgical implants.Patterning of controllable surface wettability for printing techniques.Adhesion behaviors on superhydrophobic surfaces.Dynamic biointerfaces: from recognition to function.Electrochemical characterization of globotriose-containing self-assembled monolayers on nanoporous gold and their binding of soybean agglutininProtein/Peptide Aggregation and Amyloidosis on Biointerfaces.Biomimetic and Bioinspired Synthesis of Nanomaterials/Nanostructures.Superoleophobic surfaces.Smart Polymers with Special Wettability.Dynamic configuration of reduced graphene oxide in aqueous dispersion and its effect on thin film properties.Biocatalytic polymer thin films: optimization of the multilayered architecture towards in situ synthesis of anti-proliferative drugs.Cell adhesion behavior in 3D hydrogel scaffolds functionalized with D- or L-aminoacids.New Opportunities and Challenges of Smart Polymers in Post-Translational Modification Proteomics.Hydrothermal core-shell carbon nanoparticle films: thinning the shell leads to dramatic pH response.Inhibition of bacterial adhesion and biofilm formation by dual functional textured and nitric oxide releasing surfaces.Protein adsorption, platelet adhesion, and bacterial adhesion to polyethylene-glycol-textured polyurethane biomaterial surfaces.Nanoscale amphiphilic macromolecules with variable lipophilicity and stereochemistry modulate inhibition of oxidized low-density lipoprotein uptake.Multifunctional superamphiphobic TiO2 nanostructure surfaces with facile wettability and adhesion engineering.Dual-responsive gold nanoparticles for colorimetric recognition and testing of carbohydrates with a dispersion-dominated chromogenic process.Bio-inspired photonic-crystal microchip for fluorescent ultratrace detection.Design Principles of Peptide Based Self-Assembled Nanomaterials.Controlled wettability based on reversible micro-cracking on a shape memory polymer surface.Multifaceted and route-controlled "click" reactions based on vapor-deposited coatings.Electrically charged selectivity of poly-para-xylylene deposition.Superhydrophobic magnetic poly(DOPAm-co-PFOEA)/Fe3O4/cellulose microspheres for stable liquid marbles.Tunable coverage of immobilized biomolecules for biofunctional interface design.Bioinspired polyethylene terephthalate nanocone arrays with underwater superoleophobicity and anti-bioadhesion properties.Tuning the underwater oleophobicity of graphene oxide coatings via UV irradiation.Control of three-dimensional cell adhesion by the chirality of nanofibers in hydrogels.Micro-Capillary Coatings Based on Spiropyran Polymeric Brushes for Metal Ion Binding, Detection, and Release in Continuous Flow.Polymeric Schiff Base Metal Complexes Based on Thermo-Responsive PNIPAM: Synthesis, Characterization and Catalytic ActivityNear-infrared (NIR) controlled reversible cell adhesion on a responsive nano-biointerfaceInkjet printed colloidal photonic crystal microdot with fast response induced by hydrophobic transition of poly(N-isopropyl acrylamide)
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Q28828698-B6ABA433-702F-4D87-9226-D4C4D3FC6ED3Q30317858-2D23B696-C041-4E04-8552-888876F21AB2Q30550036-6520F1AA-548F-4301-A34B-46980AA12CD4Q35419713-A1BE5BA2-E00D-488A-9385-8416604EF979Q35634781-9862E811-7F93-497D-8A5A-9A76E975A084Q36608244-E7D0520A-16BC-42EE-A593-2D92A17FD5D3Q37964457-9467A883-61F9-4A86-B22F-FBD0B0837070Q38025039-68891955-F71E-4BA4-AF85-6E465D8A467EQ38091276-08229009-70EA-471A-BB7A-EAABBD863D00Q38191629-36236481-A1A4-4821-B7B2-DAE7A1E32642Q38263665-C5B4F040-E780-4639-AB04-F68A9CC925F9Q38316621-E75FFE91-0C02-4458-9358-9E58AB6D9734Q38647304-F7259F66-6C0F-41A0-9AFE-CA130AF78333Q38686537-1733E0C2-77D3-4D67-ACFE-31E55DE93032Q38688709-67C2D9F4-4CCC-4643-B4E5-DF57124B6301Q38786419-B8D07019-985A-4256-84F6-3F06FCC0803FQ38950164-CAE1D430-1E1F-40BB-BCA4-C7099A616D31Q39017881-1A1618BA-4D8B-4953-880C-BB9B36AA6F67Q39025147-2846F473-5138-4131-B8FB-484A26CA624CQ39098842-482A2D76-BEFC-4B9F-BD74-2A5AEAB15A93Q39531566-D724213D-B583-4C6D-A2FE-89A47F1D8F72Q40372225-6FB1E919-D697-4A3D-8932-1474239EA9EFQ40870552-11E5B6ED-2FD3-4632-8E56-E9787A333C4EQ41909717-F8604326-1DEA-4DD2-84FF-4D10AF8A95FBQ42798752-1438ADB8-D2FC-4E1F-9BB3-295F37D4C0DDQ45326904-5E6F9C54-A8E9-46EF-A288-23F1B9A5E220Q46912204-C42CA803-5191-4008-803D-CA484155C6E4Q47400913-0DA88385-8AF2-4B0E-9A12-BE33569AB6A3Q50671149-069293E7-9A6A-48A9-BB05-AB2907EC0439Q50904067-375D356E-9D40-4689-A8A2-9185B7F00521Q51554006-C1288CE8-66C6-4C08-9535-A9B11FCF411FQ51603681-49EB80B5-6B75-4A8C-A947-CEA23BF8818DQ51814278-21CE03E3-70F5-433B-B0DC-BC04B1C088E7Q53418225-0C7C0AAD-F32A-444B-B102-6C7C20DAE3A3Q53501530-52B8A49D-D8CD-47FC-BDC8-7D92FBBF5DBBQ53528533-03542AA4-87BC-48AB-BA3C-BC274CF16213Q54970069-D184DDD3-0469-40FD-BA86-6D711E443C2DQ57345432-A5606E80-BC2B-4332-AEDE-F32D65D012A3Q57348626-796EC209-4F1C-448A-A17D-941D03E1F80EQ57364225-A50BB929-30D0-4256-A910-5813FE03A39B
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 24 February 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Functional biointerface materials inspired from nature.
@en
Functional biointerface materials inspired from nature.
@nl
type
label
Functional biointerface materials inspired from nature.
@en
Functional biointerface materials inspired from nature.
@nl
prefLabel
Functional biointerface materials inspired from nature.
@en
Functional biointerface materials inspired from nature.
@nl
P2093
P2860
P356
P1476
Functional biointerface materials inspired from nature
@en
P2093
P2860
P304
P356
10.1039/C0CS00124D
P577
2011-02-24T00:00:00Z