Biorecognition layer engineering: overcoming screening limitations of nanowire-based FET devices. - Wikidata - wikimedia - TriplyDB

Biorecognition layer engineering: overcoming screening limitations of nanowire-based FET devices.

Biorecognition layer engineering: overcoming screening limitations of nanowire-based FET devices.

http://www.wikidata.org/entity/Q34298706

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Droplet-based Biosensing for Lab-on-a-Chip, Open Microfluidics Platforms Easy-to-Fabricate and High-Sensitivity LSPR Type Specific Protein Detection Sensor Using AAO Nano-Pore Size Control.General strategy for biodetection in high ionic strength solutions using transistor-based nanoelectronic sensors Nano-Bioelectronics.Fabrication of carbon nanotube high-frequency nanoelectronic biosensor for sensing in high ionic strength solutions.Specific detection of biomolecules in physiological solutions using graphene transistor biosensors.Morphological and chemical stability of silicon nanostructures and their molecular overlayers under physiological conditions: towards long-term implantable nanoelectronic biosensors Electrical biosensors and the label free detection of protein disease biomarkers.Performance limitations for nanowire/nanoribbon biosensors.Advances in the application of nanotechnology in the diagnosis and treatment of gastrointestinal tumors.Electrical detection of dengue biomarker using egg yolk immunoglobulin as the biological recognition element.Detection of Avian Influenza Virus from Cloacal Swabs Using a Disposable Well Gate FET Sensor.Monolithic integration of a silicon nanowire field-effect transistors array on a complementary metal-oxide semiconductor chip for biochemical sensor applications.Field Effect Transistor Biosensor Using Antigen Binding Fragment for Detecting Tumor Marker in Human Serum.A strategy to minimize the sensing voltage drift error in a transistor biosensor with a nanoscale sensing gate.Enhanced Electrostatic Discrimination of Proteins on Nanoparticle-Coated Surfaces.Electrical graphene aptasensor for ultra-sensitive detection of anthrax toxin with amplified signal transduction.Electrochemical processes and mechanistic aspects of field-effect sensors for biomolecules.Enabling electrical biomolecular detection in high ionic concentrations and enhancement of the detection limit thereof by coupling a nanofluidic crystal with reconfigurable ion concentration polarization.Current Technologies of Electrochemical Immunosensors: Perspective on Signal Amplification.Unwrapping core-shell nanowires into nanoribbon-based superstructures.Quantifying the effect of ionic screening with protein-decorated graphene transistors.Complementary metal oxide semiconductor-compatible silicon nanowire biofield-effect transistors as affinity biosensors.CMOS-Compatible Silicon Nanowire Field-Effect Transistor Biosensor: Technology Development toward Commercialization.Miniaturized Biomedical Sensors for Enumeration of Extracellular Vesicles

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Biorecognition layer engineering: overcoming screening limitations of nanowire-based FET devices.

http://www.wikidata.org/entity/Q34298706

description

2012 nî lūn-bûn

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2012 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած

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2012 թվականի սեպտեմբերին հրատարակված գիտական հոդված

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2012年の論文

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2012年学术文章

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2012年学术文章

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2012年学术文章

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2012年学术文章

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2012年学术文章

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2012年學術文章

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name

Biorecognition layer engineeri ...... of nanowire-based FET devices.

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Biorecognition layer engineeri ...... of nanowire-based FET devices.

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Biorecognition layer engineeri ...... of nanowire-based FET devices.

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Biorecognition layer engineeri ...... of nanowire-based FET devices.

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Biorecognition layer engineeri ...... of nanowire-based FET devices.

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prefLabel

Biorecognition layer engineeri ...... of nanowire-based FET devices.

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Biorecognition layer engineeri ...... of nanowire-based FET devices.

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Biorecognition layer engineeri ...... of nanowire-based FET devices.

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Biorecognition layer engineeri ...... of nanowire-based FET devices

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Alexander Pevzner

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Amir Lichtenstein

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Artium Khatchtourints

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Fernando Patolsky

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Larisa Burstein

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Moria Kwiat

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Raisa Kantaev

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Yoni Engel

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5245-5254

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scholarly article

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10.1021/NL302434W

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10

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