Local electrical potential detection of DNA by nanowire-nanopore sensors.
about
Toward the responsible development and commercialization of sensor nanotechnologiesFundamental studies of nanofluidics: nanopores, nanochannels, and nanopipetsChallenges in DNA motion control and sequence readout using nanopore devicesConductivity-based detection techniques in nanofluidic devicesWhispering gallery mode sensors.Toward detection of DNA-bound proteins using solid-state nanopores: insights from computer simulations.Label-free optical detection of biomolecular translocation through nanopore arrays.DNA motion induced by electrokinetic flow near an Au coated nanopore surface as voltage controlled gate.Cellular uptake and dynamics of unlabeled freestanding silicon nanowiresIn situ rapid growth of fluorescent silicon nanoparticles at room temperature and under atmospheric pressure.Fabricating nanopores with diameters of sub-1 nm to 3 nm using multilevel pulse-voltage injectionIntegrated nanopore sensing platform with sub-microsecond temporal resolutionThe evolution of nanopore sequencing.DNA sequencing and bar-coding using solid-state nanoporesGate-Modulated Graphene Quantum Point Contact Device for DNA SensingSub-10 nm colloidal lithography for circuit-integrated spin-photo-electronic devicesColossal injection of catalyst atoms into silicon nanowires.Incorporation and redistribution of impurities into silicon nanowires during metal-particle-assisted growth.Single-molecule bioelectronics.Fabrication of 3-nm-thick Si3N4 membranes for solid-state nanopores using the poly-Si sacrificial layer process.Control of DNA capture by nanofluidic transistors.Assessing graphene nanopores for sequencing DNA.Deceleration of single-stranded DNA passing through a nanopore using a nanometre-sized bead structure.Recent trends in nanopores for biotechnologyA Single Eu-Doped In₂O₃ Nanobelt Device for Selective H₂S DetectionSolid-State and Biological Nanopore for Real-Time Sensing of Single Chemical and Sequencing of DNA.Nano-Bioelectronics.Nanoscale Semiconductor Devices as New Biomaterials.Electrically Tunable Quenching of DNA Fluctuations in Biased Solid-State Nanopores.Nanoelectronic three-dimensional (3D) nanotip sensing array for real-time, sensitive, label-free sequence specific detection of nucleic acids.Graphene quantum point contact transistor for DNA sensing.Fabrication and characterization of nanopores with insulated transverse nanoelectrodes for DNA sensing in salt solution.Electron beam induced local crystallization of HfO2 nanopores for biosensing applications.Regulating the transport of DNA through biofriendly nanochannels in a thin solid membrane.Quantifying short-lived events in multistate ionic current measurements.Recent advances in large-scale assembly of semiconducting inorganic nanowires and nanofibers for electronics, sensors and photovoltaics.Biosensors: sense and sensibility.Single-molecule electrical biosensors based on single-walled carbon nanotubes.Silicon nanowires for biosensing, energy storage, and conversion.A review: microRNA detection methods.
P2860
Q24170377-7653E510-E95F-4C4F-8540-1B4FDC2EA4ECQ26825104-16DF694B-60E5-4434-AFCC-EDF12A72621EQ27026741-6A3DCFF8-03A9-47E7-BABB-3B6AB89BC77CQ28088669-1180EF1D-F846-46B7-A6CD-C2D9F96EB803Q30388558-F324EAF3-F3E8-46E1-87E8-ACC2651DE960Q30547853-15CD5795-8B5C-41E5-BD43-A4BD39612621Q30596463-BE10E9A4-92B4-405F-880A-6B6AFE6C3468Q30620353-0E5F3262-5D7C-4E49-B877-00C41E606E11Q30832204-9C8414A1-49DF-4190-A9C3-53F8F1EB78C6Q33469048-C7F545DF-1D61-42E5-83FE-A9474195CB93Q33641021-7DC5986A-6E29-4468-A19E-332A6096B570Q34262079-4F4B6C5F-CA78-4D5D-9AC8-61D0C2FF9D32Q34459110-51FD9A9F-3F81-4C1C-AE85-071A85AD9E4DQ34460060-19C419C7-AC98-498C-B380-F7F49328BBBEQ34472481-C2C088EA-0C16-494A-8BCF-E2B55AEF9EB1Q34568464-9AEB1DA8-B347-40C8-9183-EBE780E8E9F6Q34647122-6CE625A7-4C93-4CA1-9ACF-41FA8F46B6B9Q35185721-1EE88DD9-D744-4485-9477-60D775E6765BQ35768300-6C09943E-838D-4B48-A1C0-A1B1BB90A925Q35794561-44C951D2-C0EE-4540-BC32-DD9F2ED6AE0FQ36195233-8A5C9392-FC03-4B87-AE00-6B36D2FB4B23Q36211626-3A9A26CB-0D9A-4941-BFEE-EB6EA7C9A35AQ36272851-EC1D31E0-9C5F-44A7-8B11-D0DCF8F6AF8AQ36458431-283B7BBE-5373-4541-B98B-59A46FAAB8A0Q36487379-F377DF38-7FBC-4C44-8E76-1D7F79226D15Q36680392-50B91B6D-A433-4E7F-9A6A-3DE845A2E38EQ36901843-729E5C86-1E6D-4317-BB2F-97D44354AE19Q36921377-2B274C63-0A7C-4A3C-8155-92C3FF0CFADDQ37033260-356DB8B5-FDCD-4239-B43E-36FC311EB59EQ37143623-D187C2B8-9FFD-47B7-AA05-3690BDF95348Q37240529-65930043-0538-4DEE-8AD7-A464D5EB4EF5Q37310245-CC0D4980-B77C-4B5D-BA25-EE00C3276550Q37402404-32CAF3A2-74B2-47D5-BDD6-394B16218CB7Q37556014-CA465D7F-2561-48A3-B408-18D2342EA731Q37619248-13F15077-C383-486A-AD87-1FE522356CDBQ38008959-479064AE-ECD2-445D-BD5F-7EEC8384BB4BQ38082680-37489D2A-4404-49B9-B8C8-23D9A2F5A7E3Q38108590-48C91C35-B6FE-4967-8BBA-B86462B7FB0AQ38119416-0828AD7C-07E9-48B1-813C-152F1DFC8492Q38312722-0F2AB71D-3B76-4739-8FCE-A41F39F6B673
P2860
Local electrical potential detection of DNA by nanowire-nanopore sensors.
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Local electrical potential detection of DNA by nanowire-nanopore sensors.
@ast
Local electrical potential detection of DNA by nanowire-nanopore sensors.
@en
type
label
Local electrical potential detection of DNA by nanowire-nanopore sensors.
@ast
Local electrical potential detection of DNA by nanowire-nanopore sensors.
@en
prefLabel
Local electrical potential detection of DNA by nanowire-nanopore sensors.
@ast
Local electrical potential detection of DNA by nanowire-nanopore sensors.
@en
P2093
P2860
P356
P1476
Local electrical potential detection of DNA by nanowire-nanopore sensors.
@en
P2093
P2860
P2888
P304
P356
10.1038/NNANO.2011.217
P407
P577
2011-12-11T00:00:00Z