Charge- and size-based separation of macromolecules using ultrathin silicon membranes.
about
Multiplexed TEM Specimen Preparation and Analysis of Plasmonic NanoparticlesM13 Bacteriophage-Based Self-Assembly Structures and Their Functional CapabilitiesIon-selective permeability of an ultrathin nanoporous silicon membrane as probed by scanning electrochemical microscopy using micropipet-supported ITIES tips.High-performance, low-voltage electroosmotic pumps with molecularly thin silicon nanomembranesDesign and function of biomimetic multilayer water purification membranesStabilization of ion concentration polarization using a heterogeneous nanoporous junction.Biomolecular transport through hemofiltration membranes.Nanostructured silicon membranes for control of molecular transport.Emerging synergy between nanotechnology and implantable biosensors: a reviewDeciphering ionic current signatures of DNA transport through a nanopore.Pore size control of ultrathin silicon membranes by rapid thermal carbonization.An experimental and theoretical analysis of molecular separations by diffusion through ultrathin nanoporous membranes.Photoresistance switching of plasmonic nanopores.Fabrication of sub-5 nm nanochannels in insulating substrates using focused ion beam millingPolymer-based photocoupling agent for the efficient immobilization of nanomaterials and small moleculesModeling Transport Through Synthetic NanoporesMicroscopic properties of nanopore water from its time-dependent dielectric response.Advances in Resistive Pulse Sensors: Devices bridging the void between molecular and microscopic detectionThermally modulated biomolecule transport through nanoconfined channels.Highly permeable silicon membranes for shear free chemotaxis and rapid cell labelingQuantitative imaging of ion transport through single nanopores by high-resolution scanning electrochemical microscopy.Fabrication of nanoporous membranes for tuning microbial interactions and biochemical reactionsAssessing graphene nanopores for sequencing DNA.Control and Manipulation of Nano Cracks Mimicking Optical WaveUltrathin Ceramic Membranes as Scaffolds for Functional Cell Coculture Models on a Biomimetic ScaleFlexible single-layer ionic organic-inorganic frameworks towards precise nano-size separationReview article: Fabrication of nanofluidic devicesMulti-Dimensional Nanostructures for Microfluidic Screening of Biomarkers: From Molecular Separation to Cancer Cell Detection.Nanoscale Semiconductor Devices as New Biomaterials.Molecular sieving using nanofilters: past, present and future.Microfluidics for drug discovery and development: from target selection to product lifecycle management.Solvent resistant nanofiltration: separating on a molecular level.Comparative Kinetic Analysis of Closed-Ended and Open-Ended Porous Sensors.Real-time monitoring of enzyme activity in a mesoporous silicon double layer.Graphene Nanopores for Protein SequencingElectrochemical Sensing and Imaging Based on Ion Transfer at Liquid/Liquid Interfaces.Composite block polymer-microfabricated silicon nanoporous membrane.A structure-permeability relationship of ultrathin nanoporous silicon membrane: a comparison with the nuclear envelopeCharged gold nanoparticles with essentially zero serum protein adsorption in undiluted fetal bovine serum.Versatile ultrathin nanoporous silicon nitride membranes.
P2860
Q27301947-3083198A-27DC-4A9C-8541-7045B4B97A9FQ28647789-B370064B-985F-430D-A1FD-0D88733F59A4Q30496407-C8C7D84B-BB2F-48B2-B2CD-DEE16405A053Q30557405-D4DEE390-12DD-41E3-87EB-3A3D3140D457Q30844274-32765DE9-A727-4F65-A358-A312217EA0F9Q33591174-A1B2CC55-FCAD-4ABC-A18D-FF68C6A1A183Q33639535-C646D50B-1CBB-42E7-BB9D-C5C434524DE4Q33705034-5594C3DB-F5CA-4334-A112-A1772260BB26Q33758263-8888A10C-7F1C-442F-8235-4713ABE4752DQ34018554-92711D54-8DE8-4C3C-B064-65EE0ED4D64DQ34259747-A20934F4-ACD5-47F1-B270-A813F2B789B5Q34548378-3A707F22-D748-4FFE-B46B-0CC97EBAE68EQ34977508-8ECD5020-84BC-44D3-B18E-A01F1E3F1D53Q35075155-64136818-2635-411F-B946-6EAB55805940Q35143614-83D387A1-9A0D-455B-B4BE-CB902C40E853Q35200908-6449EF4A-6E94-48EC-A09E-864EE68E351EQ35393954-B6000D06-D402-4A7F-B3F5-AFF544A29FFCQ35424882-11BDD3A4-5A78-455A-9CA8-8287576AEC4EQ35558732-AA801AE4-6330-4D2B-81D7-12193A2666C0Q35965673-761A007E-80B6-41B2-875D-F00C953D5E42Q36049290-BDB1957C-E05C-4DB1-B8D8-4FF46CA853C5Q36198832-2EDA30F7-C008-495A-8F04-B10FDCB018B2Q36211626-8C430580-F6C9-4DA0-80D0-8A992E4C7FD7Q36323771-0C1A4D08-2B3C-4100-866C-2B616B6B5976Q36405765-3D114B0F-BB96-4024-AE1B-0649887B050CQ36637316-A439DD56-6447-4BE2-80B8-D6480D85027EQ36728112-C5F2B1D2-2DA4-4C05-AF16-95FE9E4B6132Q36788668-50BACD60-AF24-4456-8ECA-C1D0F4E04419Q36921377-D9668338-2EE3-4901-A5F3-75321A8E0264Q37038436-1EC5FF30-5E6B-4296-AAD7-1EC4C969101DQ37055383-033C8E15-DD7D-44D7-A0B3-B8676CF3B27FQ37057908-D7BF0D4F-333C-444B-A35B-6390FE41CC36Q37250232-A568CB5D-9F79-46F7-9A81-2BA543A4F7B2Q37330068-A9AC77C0-D41E-4BF5-A130-2EB648E9C1BAQ37337663-1EF8BB9F-FED3-4230-88CB-165B10BDB56AQ37398642-942D47BF-D436-4A95-8478-5B99BF901A5AQ37409567-A73D7D77-9A2B-432A-A691-9B032DBB1AE1Q37417277-21DC3DBE-74D6-42A6-AEDA-AE3DED389809Q37479193-CD8C0998-92E2-4B6C-B1F7-506282820ED8Q37482183-779F94B3-EC1E-4AAB-8C75-6683AF070A8A
P2860
Charge- and size-based separation of macromolecules using ultrathin silicon membranes.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
Charge- and size-based separation of macromolecules using ultrathin silicon membranes.
@en
Charge- and size-based separation of macromolecules using ultrathin silicon membranes.
@nl
type
label
Charge- and size-based separation of macromolecules using ultrathin silicon membranes.
@en
Charge- and size-based separation of macromolecules using ultrathin silicon membranes.
@nl
prefLabel
Charge- and size-based separation of macromolecules using ultrathin silicon membranes.
@en
Charge- and size-based separation of macromolecules using ultrathin silicon membranes.
@nl
P2093
P356
P1433
P1476
Charge- and size-based separation of macromolecules using ultrathin silicon membranes.
@en
P2093
Christopher C Striemer
James L McGrath
Philippe M Fauchet
Thomas R Gaborski
P2888
P304
P356
10.1038/NATURE05532
P407
P577
2007-02-01T00:00:00Z
P5875
P6179
1004405679