Strategies for patterning biomolecules with dip-pen nanolithography. - Wikidata - wikimedia - TriplyDB

Strategies for patterning biomolecules with dip-pen nanolithography.

Strategies for patterning biomolecules with dip-pen nanolithography.

http://www.wikidata.org/entity/Q37852659

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Design of surface modifications for nanoscale sensor applications.Biorecognition by DNA oligonucleotides after exposure to photoresists and resist removers.Multiplexed biomimetic lipid membranes on graphene by dip-pen nanolithography Nanomanufacturing: A Perspective.A critical comparison of protein microarray fabrication technologies.Hierarchically ordered nanopatterns for spatial control of biomolecules.On-chip microlasers for biomolecular detection via highly localized deposition of a multifunctional phospholipid ink.Ink-on-probe hydrodynamics in atomic force microscope deposition of liquid inks.Atomic force microscopy in biomaterials surface science.Orthogonal patterning of multiple biomolecules using an organic fluorinated resist and imprint lithography.Lighting the path: photopatternable substrates for biological applications.Micro-nanopatterning as tool to study the role of physicochemical properties on cell-surface interactions.Reagents in microfluidics: an 'in' and 'out' challenge.Planar bioadhesive microdevices: a new technology for oral drug delivery.Classic, liquid, and matrix-assisted dip-pen nanolithography for materials research.Nanotechnologies in protein microarrays.Nanopatterned polymer brushes: conformation, fabrication and applications.Reactions in ultra-small droplets by tip-assisted chemistry.Bottom-Up Synthesis and Sensor Applications of Biomimetic Nanostructures Biochips for cell biology by combined dip-pen nanolithography and DNA-directed protein immobilization.Vertical nanowire arrays as a versatile platform for protein detection and analysis.Patterning of supported lipid bilayers and proteins using material selective nitrodopamine-mPEG.Recent advances in hybrid measurement methods based on atomic force microscopy and surface sensitive measurement techniques Mesopattern of immobilised bone morphogenetic protein-2 created by microcontact printing and dip-pen nanolithography influence C2C12 cell fate

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Strategies for patterning biomolecules with dip-pen nanolithography.

http://www.wikidata.org/entity/Q37852659

description

article científic

@ca

article scientifique

@fr

articolo scientifico

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artigo científico

@pt

bilimsel makale

@tr

scientific article published on 14 March 2011

@en

vedecký článok

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vetenskaplig artikel

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videnskabelig artikel

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vědecký článek

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name

Strategies for patterning biomolecules with dip-pen nanolithography.

@en

Strategies for patterning biomolecules with dip-pen nanolithography.

@nl

type

label

Strategies for patterning biomolecules with dip-pen nanolithography.

@en

Strategies for patterning biomolecules with dip-pen nanolithography.

@nl

prefLabel

Strategies for patterning biomolecules with dip-pen nanolithography.

@en

Strategies for patterning biomolecules with dip-pen nanolithography.

@nl

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Strategies for patterning biomolecules with dip-pen nanolithography.

@en

P2093

Cees Otto

http://www.w3.org/2001/XMLSchema#string

Chien-Ching Wu

http://www.w3.org/2001/XMLSchema#string

David N Reinhoudt

http://www.w3.org/2001/XMLSchema#string

Vinod Subramaniam

http://www.w3.org/2001/XMLSchema#string

P2860

"Dip-Pen" nanolithography

The Evolution of Dip-Pen Nanolithography

Dip-pen nanolithography in tapping mode.

Electro pen nanolithography.

Selective recruitment of membrane protein complexes onto gold substrates patterned by dip-pen nanolithography.

Fabrication and visualization of metal-ion patterns on glass by dip-pen nanolithography.

Protein-protein interactions in reversibly assembled nanopatterns.

Surface organization and nanopatterning of collagen by dip-pen nanolithography.

Directed assembly of functional light harvesting antenna complexes onto chemically patterned surfaces.

Atomic force microscope nanolithography: dip-pen, nanoshaving, nanografting, tapping mode, electrochemical and thermal nanolithography.

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989-1002

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scholarly article

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10.1002/SMLL.201001749

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8

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7

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Aldrik H. Velders

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2011-03-14T00:00:00Z

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21400657

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