Direct detection of antibody-antigen binding using an on-chip artificial pore
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Conductivity-based detection techniques in nanofluidic devicesNanophotonic detection of freely interacting molecules on a single influenza virus.Amino acid alphabet size in protein evolution experiments: better to search a small library thoroughly or a large library sparsely?A new drug-sensing paradigm based on ion-current rectification in a conically shaped nanopore.Biosensing with nanofluidic diodes.A Microfluidic Platform for Characterization of Protein-Protein InteractionsElectrical Detection of Proteins and DNA using Bioactivated Microfluidic Channels: Theoretical and Experimental Considerations.Residue ionization and ion transport through OmpF channels.Capturing single molecules of immunoglobulin and ricin with an aptamer-encoded glass nanopore.Single molecule sensing by nanopores and nanopore devicesAdvances in Resistive Pulse Sensors: Devices bridging the void between molecular and microscopic detectionEnhanced discrimination of DNA molecules in nanofluidic channels through multiple measurements.Carbohydrate-carbohydrate interaction provides adhesion force and specificity for cellular recognition.Nanotechnology for cancer diagnostics: promises and challenges.Unzipping of A-Form DNA-RNA, A-Form DNA-PNA, and B-Form DNA-DNA in the α-Hemolysin Nanopore.Single Nanoparticle Translocation Through Chemically Modified Solid NanoporeSorting single satellite cells from individual myofibers reveals heterogeneity in cell-surface markers and myogenic capacity.Computational study on the interactions and orientation of monoclonal human immunoglobulin G on a polystyrene surface.A Microfluidic Passive Pumping Coulter Counter.Label-free biosensing with functionalized nanopipette probes.Portable Cytometry Using Microscale Electronic Sensing.Targeted cell detection based on microchannel gating.Electrical detection of protein biomarkers using bioactivated microfluidic channels.Aptamer-encoded nanopore for ultrasensitive detection of bioterrorist agent ricin at single-molecule resolution.Applications of tunable resistive pulse sensing.Top-down fabrication meets bottom-up synthesis for nanoelectronic barcoding of microparticles.Microfluidic CODES: a scalable multiplexed electronic sensor for orthogonal detection of particles in microfluidic channels.Coincidence detection of heterogeneous cell populations from whole blood with coplanar electrodes in a microfluidic impedance cytometer.Selective single molecule nanopore sensing of proteins using DNA aptamer-functionalised gold nanoparticles.Node-pore sensing: a robust, high-dynamic range method for detecting biological species.Micro-impedance cytometry for detection and analysis of micron-sized particles and bacteria.Nanomedicine Faces Barriers.Resistive-pulse detection of short dsDNAs using a chemically functionalized conical nanopore sensor.Picomolar Fingerprinting of Nucleic Acid Nanoparticles Using Solid-State Nanopores.Low aspect ratio micropores for single-particle and single-cell analysis.Electrical cell counting process characterization in a microfluidic impedance cytometer.Entropically induced asymmetric passage times of charged tracers across corrugated channels.Electrical fingerprinting, 3D profiling and detection of tumor cells with solid-state micropores.Electrical detection of proteins and DNA using bioactivated microfluidic channels: Theoretical and experimental considerations.Nanostructures for Medical Diagnostics
P2860
Q28088669-35201410-1443-4EF6-912F-CA4D1834D4E2Q30657399-CC87A869-AE8C-49A8-A0BC-CAE83BAA459FQ33326227-9D2911F3-067F-40DE-9221-ED9BE0804B63Q33327145-1989B887-33DC-45AB-9A6A-612F47CD42B2Q33641004-1AAAE6C9-25C9-4846-845B-28DAACD88174Q33844070-F67AC46D-C55A-411B-B015-6E836568B6D8Q33844101-73EAFAF0-CC3C-4FF6-B077-0E2627652FE2Q34183932-FB29283D-507F-4EA1-A49E-26CA9324FD62Q34436743-4F4857D5-093D-43FA-B136-9E5A8B9F8608Q34436749-ED371D23-03EF-46AA-A367-DD6F31287F41Q35424882-84FB0D4F-C126-4532-9CCD-FE41787B3187Q35925105-60F495C5-F737-49A5-80EC-0C1A2C72285CQ36322408-5193E786-E60D-4093-B840-EBC067D848F0Q36481101-2804DEF7-7821-41C1-B990-993AFDD9F302Q36495381-B395FE93-F246-4478-99E3-FE20E12EE2A8Q36526435-233B8570-CE37-4696-83D8-509E2042A558Q36715665-0F972388-78E1-400F-A5E8-9EF3B1EF686BQ37020764-DD728759-1787-436D-A96C-08D4C8562A99Q37074792-01AB1472-CDE1-472B-BA15-1369C17E9849Q37118884-2AD46AD5-D085-4C92-AD80-41F7FE40D054Q37262147-EDF67598-F5B3-455F-B316-EF8BAA756C23Q37280648-ABBEFA9B-65D8-43BF-94FA-08E0BC7E9F1FQ37423868-6EDA9A70-EBEB-4066-8900-2B707DDE3B89Q37645179-F8F78718-C1F1-4DC8-83C9-8527BA16F41FQ38367510-8FCC333D-C221-4C9E-BADC-35DAD98D08BBQ38805803-2BCE6BAC-4EAA-4D5D-B3C0-B13752A8FA0DQ40362686-4D500939-4A2C-4394-93E2-235806D98BF4Q41735201-7AF9F0D0-A159-4CC3-B18E-2B0F455A459FQ42126328-3ED79807-50C5-45AF-AF36-2831F677B4BBQ44596028-E54DDC69-C419-4B41-8076-541DCFA734A4Q44952096-220D17D8-B7DE-4E8D-AAC7-866A29E39987Q46181824-FE784395-36CC-43B1-99A9-6CCC115FF3BBQ46234050-33415679-4CBA-4F5E-927B-57191CDF78FCQ48174925-6ECB8B3C-AD2B-43EA-A9B6-0190F91A51D1Q49989842-0FDAAF95-D30D-453E-AAF3-F7F21D95011DQ50455194-540554B4-4CF2-45D4-883B-7721FD5C6142Q50728572-B9747AFC-163F-4BF5-B959-E82D954EE191Q51540235-70835594-7888-41A6-892C-D44779FDCCF6Q55400649-9F1CD691-DAA5-436E-BD82-EC624E350B55Q58909862-94DB5B88-578F-4A2A-8A82-1902796AFFED
P2860
Direct detection of antibody-antigen binding using an on-chip artificial pore
description
2003 nî lūn-bûn
@nan
2003 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Direct detection of antibody-antigen binding using an on-chip artificial pore
@ast
Direct detection of antibody-antigen binding using an on-chip artificial pore
@en
Direct detection of antibody-antigen binding using an on-chip artificial pore
@nl
type
label
Direct detection of antibody-antigen binding using an on-chip artificial pore
@ast
Direct detection of antibody-antigen binding using an on-chip artificial pore
@en
Direct detection of antibody-antigen binding using an on-chip artificial pore
@nl
prefLabel
Direct detection of antibody-antigen binding using an on-chip artificial pore
@ast
Direct detection of antibody-antigen binding using an on-chip artificial pore
@en
Direct detection of antibody-antigen binding using an on-chip artificial pore
@nl
P2860
P356
P1476
Direct detection of antibody-antigen binding using an on-chip artificial pore
@en
P2093
Lydia L Sohn
P2860
P304
P356
10.1073/PNAS.0337563100
P407
P50
P577
2003-01-27T00:00:00Z