about
Microscale acoustofluidics: Microfluidics driven via acoustics and ultrasonicsMechanical unzipping and rezipping of a single SNARE complex reveals hysteresis as a force-generating mechanismQuantitative modeling and optimization of magnetic tweezersMspA nanopore as a single-molecule tool: From sequencing to SPRNTExtracting signal from noise: kinetic mechanisms from a Michaelis-Menten-like expression for enzymatic fluctuationsSingle-molecule analysis of telomerase structure and functionFilming biomolecular processes by high-speed atomic force microscopyThe platelet and the biophysical microenvironment: lessons from cellular mechanicsSimple horizontal magnetic tweezers for micromanipulation of single DNA molecules and DNA-protein complexes.Microfluidic cell sorting: a review of the advances in the separation of cells from debulking to rare cell isolationThe Cryptococcus neoformans capsule: lessons from the use of optical tweezers and other biophysical toolsA high-speed magnetic tweezer beyond 10,000 frames per secondAn efficient computational method for calculating ligand binding affinitiesLight generated bubble for microparticle propulsionMultiphase ferrofluid flows for micro-particle focusing and separation.Microfluidic Sample Preparation for Single Cell Analysis.High Spatiotemporal-Resolution Magnetic Tweezers: Calibration and Applications for DNA Dynamics.Plasmofluidics: Merging Light and Fluids at the Micro-/Nanoscale.Optical chromatographic sample separation of hydrodynamically focused mixtures.Nanomechanical motion of Escherichia coli adhered to a surfaceAcoustic devices for particle and cell manipulation and sensing.Molecular plasmonics for biology and nanomedicine.Manipulating biological agents and cells in micro-scale volumes for applications in medicine.Acoustic trapping with a high frequency linear phased array.High-resolution optical tweezers for single-molecule manipulation.Optical trapping, driving, and arrangement of particles using a tapered fibre probe.Intersubunit coordination in a homomeric ring ATPase.Single molecule transcription elongation.Controlled photonic manipulation of proteins and other nanomaterialsMechanical unfolding of human telomere G-quadruplex DNA probed by integrated fluorescence and magnetic tweezers spectroscopy.Light activated cell migration in synthetic extracellular matrices.Nanophotonic trapping for precise manipulation of biomolecular arrays.In vivo X-ray elemental imaging of single cell model organisms manipulated by laser-based optical tweezersDetection of Steps in Single Molecule Data.Optical manipulation of a single human virus for study of viral-cell interactions.Lasing in Live Mitotic and Non-Phagocytic Cells by Efficient Delivery of Microresonators.Direct measurement of optical trapping force gradient on polystyrene microspheres using a carbon nanotube mechanical resonator.Data-driven techniques for detecting dynamical state changes in noisily measured 3D single-molecule trajectories.Pushing, pulling and twisting liquid crystal systems: exploring new directions with laser manipulation.Nanomechanical characteristics of meat and its constituents postmortem: a review.
P2860
Q21563659-B15A8193-AA84-4053-BC8F-67551C59C950Q22061733-D003DC24-331F-455F-A9AF-3438870CDE1DQ24647864-60C0E5BE-93DF-4EF0-82C8-BCAF648BE83CQ26752452-28E4E355-87A6-4817-B59E-64A6EA73FEFDQ26822706-3AB39CE3-27FD-45B5-8CA7-13580D57E8E0Q27005944-A95C0F50-A8EE-41C2-8D30-14699CCA84DCQ27021717-6A719DC1-0DA5-4282-B8AE-EB25949C9684Q27025341-582F74A4-8743-4C0C-9C2E-3FA0677E7ABCQ27339571-67C086A5-8159-4378-9C5A-116EE11ED10DQ28082820-A08452A2-78FC-4963-8A2A-49098ADC6F94Q28087622-DE349C7D-8787-431D-9597-3B62563FDD05Q28289920-06731D78-AB31-498F-8FA0-5E9240CC806EQ28482424-88A41B1E-BE5F-4C67-BE51-0AE5ECA16918Q30354816-110B8BE2-015C-46A8-B37F-693949928ADEQ30357087-1A786BEC-408A-48A6-8809-F5FA9E5A0C82Q30366102-87952D5E-2A02-46EF-B978-E182C09BE3FAQ30369658-FFE34B64-327B-4F2A-95F0-BE6AE46CA78AQ30374406-C8F41D21-B18C-4B4A-80FB-A829FF868781Q30398968-C584464C-2052-4621-BE74-33DC00CD7F8DQ30402896-6CBDDC59-E209-4A4C-944F-2B204C2A3232Q30429396-25C661E3-1530-4DA8-AF99-8DB2563E4EEEQ30439956-268F688B-E17F-4C8D-9766-39FF53F672D5Q30445677-A82B7BF7-A8A9-48A4-A2B1-C6CA7B34DC15Q30447037-279E46C9-D430-4D15-B5E6-076DDAD30778Q30449157-A300D893-4314-4D34-A62E-CD40CA8F996BQ30461002-39BF1C55-8B92-40C8-AAF7-58F66F795750Q30489077-FA6E4D9D-97B7-4168-BEAE-210280330603Q30491199-E5A17E44-B898-4654-8D53-7008581A561CQ30525376-A9CA4F90-BB47-4993-866C-66534DCCA422Q30536228-4DED817D-D8A6-49B8-9748-B0BA09E07213Q30544929-4ED40F51-CC2D-4A96-B458-13F35879ADF8Q30580045-695C20C1-4D57-41E2-BA15-CA3B98F3987BQ30627009-F7A53FBC-CAC2-43F3-9477-33DC2AD6817AQ30662263-46CBD366-B614-4B92-9CEA-495C45641CBDQ30820492-EFC71C01-35D7-48C5-B76B-8307BEEF947FQ30835435-5E089F2D-E5EE-4540-925C-9F05D0393CEBQ30854883-769D19F3-0F2E-4000-B6C2-434F1E1EECAEQ30869893-A83F8DCC-963C-4682-89DC-BBE630D17B50Q31112098-941AB68E-3054-4C13-8886-0EB6165F4A31Q31150272-A3C45511-073D-44CA-8B0C-C7336275F397
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2008
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Recent advances in optical tweezers.
@en
Recent advances in optical tweezers.
@nl
type
label
Recent advances in optical tweezers.
@en
Recent advances in optical tweezers.
@nl
prefLabel
Recent advances in optical tweezers.
@en
Recent advances in optical tweezers.
@nl
P1476
Recent advances in optical tweezers.
@en
P2093
Jeffrey R Moffitt
Steven B Smith
P304
P356
10.1146/ANNUREV.BIOCHEM.77.043007.090225
P577
2008-01-01T00:00:00Z