about
Micro- and nanoscale engineering of cell signalingDirect assembling methodologies for high-throughput bioscreeningElectrolithography--A New and Versatile Process for Nano Patterning.Advanced scanning probe lithographyNano- and microstructured materials for in vitro studies of the physiology of vascular cellsRecent Advances in Biosensing With Photonic Crystal Surfaces: A ReviewIntegrated micro/nanoengineered functional biomaterials for cell mechanics and mechanobiology: a materials perspective.A biomimetic approach for the creation of two-dimensional microscale surface patterns: creation of isolated immunological synapsesBiorecognition by DNA oligonucleotides after exposure to photoresists and resist removers.Using patterned supported lipid membranes to investigate the role of receptor organization in intercellular signaling.Desktop nanofabrication with massively multiplexed beam pen lithography.Nanoscale cues regulate the structure and function of macroscopic cardiac tissue constructs.A cantilever-free approach to dot-matrix nanoprinting.Nanomanufacturing: A Perspective.DNA-nanostructure-assembly by sequential spotting.Proposed triaxial atomic force microscope contact-free tweezers for nanoassembly.Multiplexed protein arrays enabled by polymer pen lithography: addressing the inking challengeElectrostatic readout of DNA microarrays with charged microspheres.BioPen: direct writing of functional materials at the point of care.Laser-based direct-write techniques for cell printingElectrofluidic Positioning of Biofunctionalized Nanowires.Nanotopography-guided tissue engineering and regenerative medicine.Nanoparticle Probes for the Detection of Cancer Biomarkers, Cells, and Tissues by FluorescenceSelf-Limiting Robust Surface-Grafted Organic Nanofilms.Nanopatterned Extracellular Matrices Enable Cell-Based Assays with a Mass Spectrometric Readout.Photonics and plasmonics go viral: self-assembly of hierarchical metamaterialsWhispering-gallery acoustic sensing: characterization of mesoscopic films and scanning probe microscopy applications.Multiprotein microcontact printing with micrometer resolutionComplex polymer brush gradients based on nanolithography and surface-initiated polymerization.Convergence of dip-pen nanolithography and acoustic biosensors towards a rapid-analysis multi-sample microsystem.A combined microfluidic-microstencil method for patterning biomolecules and cellsScanning probe block copolymer lithography.A critical comparison of protein microarray fabrication technologies.Effective screen for amyloid β aggregation inhibitor using amyloid β-conjugated gold nanoparticles.FluidFM as a lithography tool in liquid: spatially controlled deposition of fluorescent nanoparticles.The role of viscosity on polymer ink transport in dip-pen nanolithographyIndividual Template-Stripped Conductive Gold Pyramids for Tip-Enhanced Dielectrophoresis.Combinatorial screening of mesenchymal stem cell adhesion and differentiation using polymer pen lithography.Sensitive detection of protein and miRNA cancer biomarkers using silicon-based photonic crystals and a resonance coupling laser scanning platformFluorene-based macromolecular nanostructures and nanomaterials for organic (opto)electronics.
P2860
Q26827824-7BBD4310-C103-44FD-8327-9F3B5E88119FQ27008468-E16E9B60-2D17-46B7-AA52-CD5821B1DF75Q27304439-5350BE65-CEB2-4085-BF16-8D4FF8AE15ECQ28245204-E9DCD18D-D3A4-4C55-8589-87A952AD7FC8Q28817186-D1895941-015B-4E4F-AE34-97585C355DB2Q30356283-8B01EA70-18E3-4D37-BC67-037164524553Q30356846-B0F7B1A9-E769-4074-BA43-EF29E92C9713Q30385351-EEA65594-F930-4D6D-999C-6EBD54393179Q30431069-413110FB-BC71-49BC-B416-439952E03B40Q30438988-8966B4EB-6D61-4C4C-BEF1-30845526307DQ30444279-7F3E6268-3D26-475B-ABE3-C8575624A722Q30493057-556032AD-9161-48B0-9710-7AC65DCFEE05Q30542654-3732BA38-5628-46FB-8EDF-437FB32B5FA0Q30775961-B717ABB8-10D6-4220-BEBB-35102454C667Q31041330-1625E2EF-5B23-4254-83AA-CE0DD46D0E4FQ33497707-EBF8CC27-7192-486C-8D05-D12AC8048600Q33500225-FF7146D5-4259-4EF1-9649-5BD7CB2725EDQ33557140-BC4E07F0-35A9-4139-BD69-125F0C14ABA2Q33569919-E0877ECC-5A36-4091-8436-D87153D4C777Q33683259-F7FB5DFB-596E-4EFF-B6C6-6F730A302DBCQ33726240-D09A5E68-254E-48C3-9914-BF0AB1371327Q33728767-B5FAEE9B-A005-4EA7-A323-7C822B67FD85Q33759991-5C9A1653-9A2F-4AB4-9F79-9E5AE352374DQ33824431-5E3FBF3E-8D47-42C6-92BF-12340083AA73Q33883324-EEEBB474-B791-433B-B079-E5C0E66EC7F8Q33902287-B66D5A84-06B7-4C55-BD4F-260921945E3AQ34040707-CF31754F-3D5C-46BC-9788-6EA343DFECE7Q34113086-3E41969F-E489-4FCE-84AF-2D694CA23B07Q34197579-14D133D6-FE4D-4A49-A38F-1C8DB16E5894Q34281183-637E5378-1C22-460B-8A2F-7E06C1386854Q34312913-ACCF7699-D980-411C-A2F3-40DE61DEA2E0Q34377598-9F50C6DB-81E6-4085-A536-715467DD949DQ34401036-3C5F9A69-87B9-4271-9FD2-AE1E7863CD8EQ34513941-24E39B5D-AE4F-47DD-93B8-22F2D2042A15Q34521123-5D3D69E6-A699-43A3-AB36-C6FAF7674E29Q34704194-5A0FD86E-D2F4-4572-8241-294416585928Q34732103-4006FB17-3B4C-4A49-931E-3415C8A1B628Q34789580-0981B4FB-C741-4AAA-AB7D-C7DE7A0B8492Q34959748-AF066307-0419-488A-A540-C1B6AF51A7BFQ34977503-AE7B2975-5C18-4412-9A49-E64461FB9E91
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 25 February 2007
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Applications of dip-pen nanolithography.
@en
Applications of dip-pen nanolithography.
@nl
type
label
Applications of dip-pen nanolithography.
@en
Applications of dip-pen nanolithography.
@nl
prefLabel
Applications of dip-pen nanolithography.
@en
Applications of dip-pen nanolithography.
@nl
P356
P1476
Applications of dip-pen nanolithography.
@en
P2093
Khalid Salaita
Yuhuang Wang
P2888
P304
P356
10.1038/NNANO.2007.39
P407
P50
P577
2007-02-25T00:00:00Z