about
Integrating a DNA Strand Displacement Reaction with a Whispering Gallery Mode Sensor for Label-Free Mercury (II) Ion DetectionWhispering gallery mode sensors.Shift of whispering-gallery modes in microspheres by protein adsorption.Whispering-gallery-mode biosensing: label-free detection down to single molecules.Single virus detection from the reactive shift of a whispering-gallery modeHigh-Q microsphere biosensor - analysis for adsorption of rodlike bacteria.Ultraspecific and highly sensitive nucleic acid detection by integrating a DNA catalytic network with a label-free microcavityWhispering gallery mode biosensor quantification of fibronectin adsorption kinetics onto alkylsilane monolayers and interpretation of resultant cellular responseMultiplexed DNA quantification by spectroscopic shift of two microsphere cavities.Combining an optical resonance biosensor with enzyme activity kinetics to understand protein adsorption and denaturationDetection of single nanoparticles and lentiviruses using microcavity resonance broadening.Optimizing detection limits in whispering gallery mode biosensing.Single-molecule nucleic acid interactions monitored on a label-free microcavity biosensor platform.Cavity ring-up spectroscopy for ultrafast sensing with optical microresonators.Ratiometric detection of oligonucleotide stoichiometry on multifunctional gold nanoparticles by whispering gallery mode biosensing.Stand-off biodetection with free-space coupled asymmetric microsphere cavitiesTracking micro-optical resonances for identifying and sensing novel procaspase-3 protein marker released from cell cultures in response to toxins.In Situ Observation of Single-Molecule Surface Reactions from Low to High Affinities.Towards next-generation label-free biosensors: recent advances in whispering gallery mode sensors.Label-free optical detection of single enzyme-reactant reactions and associated conformational changesLabel-free detection with high-Q microcavities: a review of biosensing mechanisms for integrated devices.Maximizing Photoluminescence Extraction in Silicon Photonic Crystal Slabs.Optical resonator biosensors: molecular diagnostic and nanoparticle detection on an integrated platform.Voices of biotech.Photoinduced transformations in bacteriorhodopsin membrane monitored with optical microcavitiesRoadmap on optical sensors.Optical tracking of anomalous diffusion kinetics in polymer microspheres.Microfluidic flow rate detection based on integrated optical fiber cantilever.Probing biomechanical properties with a centrifugal force quartz crystal microbalanceWhispering Gallery Mode Carousel--a photonic mechanism for enhanced nanoparticle detection in biosensingCombining Whispering-Gallery Mode Optical Biosensors with Microfluidics for Real-Time Detection of Protein Secretion from Living Cells in Complex MediaExperimental observation of strong photon localization in disordered photonic crystal waveguidesRing-resonator-based frequency-domain optical activity measurements of a chiral liquidOut-of-plane scattering from vertically asymmetric photonic crystal slab waveguides with in-plane disorderInterference of conically scattered light in surface plasmon resonance
P50
Q28830866-17734E2D-56CB-4284-B51D-0B31344C3686Q30388558-E85E0E7F-971C-4E3B-8C48-6D0036B3FA3CQ30769621-E33BCBE9-2E12-47EA-B5E6-227B372B4BB4Q33347454-6893A3C6-0A7A-4556-BA0F-4FD86450A083Q33392213-A1E54927-C2B0-4639-B631-2B39A80D2D09Q33473773-FADDB1CD-104D-442E-BF12-FF0CB4DCEC30Q33894964-D514A83A-D0BA-43A8-B701-2637D0D2B2E6Q34044324-B06B0B26-F9A6-405C-A0D6-907AA1EA35BDQ34182778-04B6E8B1-56ED-4349-BF13-C43719DE3A84Q34627282-62C35C62-A6DE-4AAD-9F22-C71C57B6649AQ35058748-905DBD71-B809-42B6-9555-DA86155E8A30Q35129911-37142BF6-95B3-4211-9B96-0D8B0F5146EEQ35235587-ACCECA97-F719-4523-A5AE-3007B8CEB10FQ35541080-5E44ED44-A3F1-4BAC-A1CD-023DCCB01EF3Q35582027-4BAFEE34-F542-4047-9CAE-E3C056D10D0EQ35610119-DB764148-BB54-4CD4-95EC-E577AB8BB75EQ35952235-D47DE509-1482-4D93-92BA-E1F755ED3C4FQ36146370-02CAB228-6DC6-48D8-96A0-C4DB112834DCQ36299006-3EA19E8B-63D7-499F-905A-068F68492B08Q36354724-DB6E6B98-76C9-4BF4-97FD-7FC1D746D52FQ36608627-D41AC4BC-C36E-4ECB-B1B4-9E244F3CD226Q36835442-485B3269-785A-4315-BD6A-D030BD237D80Q37972866-9797AD90-2EDF-4F05-B9DB-3D09C828A968Q38873147-5EB4557D-4D6E-4CA4-8FA9-717632EED7A2Q42101113-546FCC71-4CAC-4F14-BDBC-A1FE6D1FB301Q47708498-23B53165-AFFF-4EB0-A968-C2E1521830FFQ48677113-987403B1-95B5-4839-A4A8-8223291732A9Q50904286-D0A7F2C7-4440-42A8-B34B-2AF5136DF1A1Q56890040-EB647C05-5636-4124-B310-E782616807DFQ56893150-E07DA05B-DAFF-406E-AEF4-9E65A1C8274DQ57917796-32B2469B-6955-4D1B-8031-D3B176FB7B80Q80591195-A1B54B95-7DBA-4AE9-A1D0-4CEEDC4EAAFBQ82642915-A71FD761-A091-4F4A-B434-26B2A1F872A0Q84348300-B88E8B69-11EB-4B57-A7FA-8D19A3597FD6Q86056760-A5ABCED5-3DA0-4664-BA05-CEC15F298293
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Frank Vollmer
@ast
Frank Vollmer
@en
Frank Vollmer
@es
Frank Vollmer
@nl
Frank Vollmer
@sl
type
label
Frank Vollmer
@ast
Frank Vollmer
@en
Frank Vollmer
@es
Frank Vollmer
@nl
Frank Vollmer
@sl
prefLabel
Frank Vollmer
@ast
Frank Vollmer
@en
Frank Vollmer
@es
Frank Vollmer
@nl
Frank Vollmer
@sl
P106
P21
P31
P496
0000-0003-0565-4671