DNA molecules and configurations in a solid-state nanopore microscope.
about
Colloquium : Physical approaches to DNA sequencing and detectionGraphene as a subnanometre trans-electrode membraneDetecting single stranded DNA with a solid state nanoporeThe potential and challenges of nanopore sequencingSlowing and controlling the translocation of DNA in a solid-state nanoporePlasmonic Nanopores for Trapping, Controlling Displacement, and Sequencing of DNA.Conductivity-based detection techniques in nanofluidic devicesAdvanced sequencing technologies: methods and goalsRevealing Three Stages of DNA-Cisplatin Reaction by a Solid-State NanoporeIonic current blockades from DNA and RNA molecules in the alpha-hemolysin nanopore.Single-particle electrophoresis in nanochannels.Nanopore Sequencing: Electrical Measurements of the Code of Life.Paul trapping of charged particles in aqueous solutionMicroscopic Kinetics of DNA Translocation through synthetic nanopores.Effect of noise on DNA sequencing via transverse electronic transport.DNA motion induced by electrokinetic flow near an Au coated nanopore surface as voltage controlled gate.Positively charged surfaces increase the flexibility of DNA.Conformation, length, and speed measurements of electrodynamically stretched DNA in nanochannelsA new drug-sensing paradigm based on ion-current rectification in a conically shaped nanopore.Direct fabrication of nanopores in a metal foil using focused ion beam with in situ measurements of the penetrating ion beam current.Highly Sensitive, Mechanically Stable Nanopore Sensors for DNA Analysis.Nanopore based sequence specific detection of duplex DNA for genomic profiling.Substrate Dependent Ad-Atom Migration on Graphene and the Impact on Electron-Beam Sculpting Functional NanoporesProbing single nanometer-scale pores with polymeric molecular rulers.Deciphering ionic current signatures of DNA transport through a nanopore.Nanopore fabrication in amorphous Si: Viscous flow model and comparison to experiment.Single molecule transcription profiling with AFM.Nanopore DNA sequencing with MspA.Size evolution and surface characterization of solid-state nanopores in different aqueous solutions.Theoretical study of the transpore velocity control of single-stranded DNAPROBING SINGLE DNA MOLECULE TRANSPORT USING FABRICATED NANOPORESProbing Access Resistance of Solid-state Nanopores with a Scanning Probe Microscope Tip.Landscape of next-generation sequencing technologies.Sizing DNA using a nanometer-diameter pore.Focused ion beam induced deflections of freestanding thin films.Integrated nanopore sensing platform with sub-microsecond temporal resolutionNanopores: A journey towards DNA sequencing.The electromechanics of DNA in a synthetic nanopore.Voltage-driven translocation of DNA through a high throughput conical solid-state nanopore.Capturing single molecules of immunoglobulin and ricin with an aptamer-encoded glass nanopore.
P2860
Q21563678-198963FE-474D-4C55-B2A8-0DDEDCFE244AQ24630567-FE3AF1EB-3A30-44D8-8C19-8CBECD2A3BFDQ24647843-1158CFF1-2B7B-48B1-A83F-EB7E66179467Q24658512-7EC3A6C8-0086-4AC5-8A64-9A2D9658FC0DQ27014263-1BD7EA52-1F2D-44CB-90B8-C0D72592111DQ27342143-9A819982-779E-417B-84BD-BEC5150DD4F2Q28088669-8E7EA62C-ECEC-4A6D-912B-FA9F09E9297EQ28261786-CA186910-B6E9-4AFB-9D1B-BBD531D5F95BQ28647465-E2EC1170-76D5-4AFC-8E5C-BA6C0BBD7A24Q30157907-8577F3CB-AABF-44D2-8937-DA931261458BQ30397780-6F724252-6FBF-4CF6-84F2-033E931D48E4Q30402688-399E836A-75BC-4634-A897-30435B387814Q30472215-83D88B3A-56B4-48B0-9D7B-9C92F5D34D06Q30476446-86454883-AA90-4032-9E36-73568BF39B6AQ30479208-B4F15953-5DFD-4DC9-A3A0-98C5FC93E031Q30620353-D228FA2C-8A3E-49AA-B62B-F55D1A9AF448Q33220248-A92CA23A-00A7-4CDC-9237-5EA92AAA1E77Q33323675-F0ED6825-DD6C-4E4B-97B7-EAC50A39B80CQ33327145-17F17BB4-E2FE-4713-8E41-FEF4CED61B44Q33522726-EF7FF782-E34D-478A-AFB8-6A8BA070797AQ33599685-FBE3B246-B7D8-40D1-A45B-8FE48F06EE0FQ33709623-4F997D55-B5F8-4C02-BF06-8C2A3D78E27BQ33796743-916B6FB4-C705-411C-9AFA-AC5534374194Q33941088-93EB391E-D0D2-4A8F-B580-6C2EF7A3BABEQ34018554-261BCDB8-F794-4885-B1AE-4AF87502740CQ34031666-D09E4D00-241C-47C7-8773-CB5C5453CBDCQ34070222-43286B18-088B-4E7A-A426-8DC9CFDDB012Q34136224-7728E680-7446-4216-9365-938B4D0FF491Q34153166-FCAD5BB6-3302-4AC0-A774-6BB5AC4E1B6AQ34158464-00CDF8DE-2FE8-49E0-9E1A-DC495E861DB1Q34163106-06ED984F-1AF5-4F91-AAB6-F176191C84DBQ34185580-6747F4F8-8F8D-4FF1-873E-AE503111EBF2Q34187217-5A699967-9B0F-40F4-96F5-BC42DD78EE1CQ34187469-0094D243-D7C5-40B7-B149-40307F54D68EQ34224684-0EB3F2D6-E752-4C8A-BE87-B5FD45A79039Q34262079-95785912-3D2D-43F5-AA14-5CF3E5F3765CQ34289766-80FAD31B-813B-46F0-BCF7-7FF29FD35E70Q34353128-A8AD37AB-3076-4885-924E-E8FF6D3C9574Q34430610-C4DDDDC3-7FF7-4F1A-B342-A9C79E5B367EQ34436743-2DA8CE98-3A2D-4CCE-95FB-EBFF824804E0
P2860
DNA molecules and configurations in a solid-state nanopore microscope.
description
2003 nî lūn-bûn
@nan
2003 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի օգոստոսին 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
DNA molecules and configurations in a solid-state nanopore microscope.
@ast
DNA molecules and configurations in a solid-state nanopore microscope.
@en
type
label
DNA molecules and configurations in a solid-state nanopore microscope.
@ast
DNA molecules and configurations in a solid-state nanopore microscope.
@en
prefLabel
DNA molecules and configurations in a solid-state nanopore microscope.
@ast
DNA molecules and configurations in a solid-state nanopore microscope.
@en
P2093
P356
P1433
P1476
DNA molecules and configurations in a solid-state nanopore microscope.
@en
P2093
Derek Stein
Eric Brandin
J A Golovchenko
P2888
P304
P356
10.1038/NMAT965
P407
P50
P577
2003-08-24T00:00:00Z
P5875
P6179
1043496789