Electrografting: a powerful method for surface modification.
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Adhesive curing through low-voltage activation.Exploitation of desilylation chemistry in tailor-made functionalization on diverse surfaces.Confined polydiacetylene polymerization reactions for programmed length control.Self-Assembly under Confinement: Nanocorrals for Understanding Fundamentals of 2D Crystallization.Enhanced PEDOT adhesion on solid substrates with electrografted P(EDOT-NH2).Functionalization and post-functionalization: a step towards polyoxometalate-based materials.Hybrid materials science: a promised land for the integrative design of multifunctional materials.Durable defense: robust and varied attachment of non-leaching poly"-onium" bactericidal coatings to reactive and inert surfaces.Probing electron-phonon excitations in molecular junctions by quantum interference.Electronic transport properties of transition metal dichalcogenide field-effect devices: surface and interface effects.Large area graphene nanomesh: an artificial platform for edge-electrochemical biosensing at the sub-attomolar level.Amplified electron transfer at poly-ethylene-glycol (PEG) grafted electrodes.Electronic control of DNA-based nanoswitches and nanodevices.Evidence of monolayer formation via diazonium grafting with a radical scavenger: electrochemical, AFM and XPS monitoring.Tactical tuning of the surface and interfacial properties of graphene: A Versatile and rational electrochemical approach.Single-step electrochemical functionalization of double-walled carbon nanotube (DWCNT) membranes and the demonstration of ionic rectification.Application of visible-light photosensitization to form alkyl-radical-derived thin films on goldScanning droplet cell for chemoselective patterning through local electroactivation of protected quinone monolayers.Wireless electrografting of molecular layers for Janus particle synthesis.One-pot in situ mixed film formation by azo coupling and diazonium salt electrografting.Photocatalytic surface patterning of cellulose using diazonium salts and visible light.Surface patterning using two-phase laminar flow and in situ formation of aryldiazonium salts.Electrochemically modified carbon and chromium surfaces for AFM imaging of double-strand DNA interaction with transposase protein.Electrooxidative grafting of amine-terminated dendrimers encapsulating nanoparticles for spatially controlled surface functionalization of indium tin oxide.Work function maps and surface topography characterization of nitroaromatic-ended dendron films on graphite.Competing Mechanisms in the Acetaldehyde Functionalization of Positively Charged Hydrogenated Silicene.Redox-active electrolyte for supercapacitor application.Covalent attachment of porphyrins and ferrocenes to electrode surfaces through direct anodic oxidation of terminal ethynyl groups.Mapping fluxes of radicals from the combination of electrochemical activation and optical microscopy.Foot of the Wave Analysis for Mechanistic Elucidation and Benchmarking Applications in Molecular Water Oxidation Catalysis.Toward the Control of the Creation of Mixed Monolayers on Glassy Carbon Surfaces by Amine Oxidation.Non-destructive Patterning of Carbon Electrodes by Using the Direct Mode of Scanning Electrochemical Microscopy.Label-Free Aptasensor for Lysozyme Detection Using Electrochemical Impedance Spectroscopy.Surface immobilized azomethine for multiple component exchange.Nanoporous membranes with electrochemically switchable, chemically stabilized ionic selectivity.Protein resistance of surfaces modified with oligo(ethylene glycol) aryl diazonium derivatives.Versatile functionalization of carbon electrodes with a polypyridine ligand: metallation and electrocatalytic H(+) and CO2 reduction.Integrated Affinity Biosensing Platforms on Screen-Printed Electrodes Electrografted with Diazonium Salts.Sensors Based on Bio and Biomimetic Receptors in Medical Diagnostic, Environment, and Food Analysis.Electrochemistry as an attractive and effective tool for the synthesis and immobilization of porphyrins on an electrode surface.
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P2860
Electrografting: a powerful method for surface modification.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 18 April 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
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vědecký článek
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name
Electrografting: a powerful method for surface modification.
@en
Electrografting: a powerful method for surface modification.
@nl
type
label
Electrografting: a powerful method for surface modification.
@en
Electrografting: a powerful method for surface modification.
@nl
prefLabel
Electrografting: a powerful method for surface modification.
@en
Electrografting: a powerful method for surface modification.
@nl
P2860
P356
P1476
Electrografting: a powerful method for surface modification.
@en
P2093
Daniel Bélanger
Jean Pinson
P2860
P304
P356
10.1039/C0CS00149J
P577
2011-04-18T00:00:00Z