about
Sulfate assimilation mediates tellurite reduction and toxicity in Saccharomyces cerevisiaeThe yeast transcription factor Crz1 is activated by light in a Ca2+/calcineurin-dependent and PKA-independent manner.Light-sensing via hydrogen peroxide and a peroxiredoxin.Importance of substrate and photo-induced effects in Raman spectroscopy of single functional erythrocytes.Large-area topography analysis and near-field Raman spectroscopy using bent fibre probes.A microfluidic system enabling Raman measurements of the oxygenation cycle in single optically trapped red blood cells.Laser-induced growth of Ag nanoparticles from aqueous solutions.Resonance Raman spectroscopy of optically trapped functional erythrocytes.On the importance of optical forces in surface-enhanced Raman scattering (SERS).High-resolution microspectroscopy of plasmonic nanostructures for miniaturized biosensing.Alignment, rotation, and spinning of single plasmonic nanoparticles and nanowires using polarization dependent optical forces.Plasmon hybridization reveals the interaction between individual colloidal gold nanoparticles confined in an optical potential well.Plasmonic Au/Co/Au nanosandwiches with enhanced magneto-optical activity.Ultrafast spinning of gold nanoparticles in water using circularly polarized light.Plasmonic particles set into fast orbital motion by an optical vortex beam.Cascaded logic gates in nanophotonic plasmon networksQuasi-isotropic surface plasmon polariton generation through near-field coupling to a penrose pattern of silver nanoparticles.A bimetallic nanoantenna for directional colour routing.Laser trapping of colloidal metal nanoparticles.Schottky barrier formation and band bending revealed by first- principles calculations.Gold Nanorod Rotary Motors Driven by Resonant Light Scattering.Explosive and chemical threat detection by surface-enhanced Raman scattering: a review.Mutually synchronized bottom-up multi-nanocontact spin-torque oscillators.Unidirectional broadband light emission from supported plasmonic nanowires.Approaching the strong coupling limit in single plasmonic nanorods interacting with J-aggregates.Plasmon-enhanced enzyme-linked immunosorbent assay on large arrays of individual particles made by electron beam lithography.Complete light annihilation in an ultrathin layer of gold nanoparticles.Diffraction from arrays of plasmonic nanoparticles with short-range lateral order.Enhanced nanoplasmonic optical sensors with reduced substrate effect.A combination of concave/convex surfaces for field-enhancement optimization: the indented nanocone.Optical response of supported gold nanodisks.Image analysis algorithms for cell contour recognition in budding yeast.Localized surface plasmon resonance sensing of lipid-membrane-mediated biorecognition events.Fano interference between localized plasmons and interface reflections.Magnetic-field enhancement in gold nanosandwiches.Probing Photothermal Effects on Optically Trapped Gold Nanorods by Simultaneous Plasmon Spectroscopy and Brownian Dynamics Analysis.Multidimensional Hybridization of Dark Surface Plasmons.Large-Scale Silicon Nanophotonic Metasurfaces with Polarization Independent Near-Perfect Absorption.FRET enhancement close to gold nanoparticles positioned in DNA origami constructs.Wavevector-Selective Nonlinear Plasmonic Metasurfaces.
P50
Q24594624-1686A1B8-01F1-4B34-863B-F075DEC6115CQ27930294-B3F800EF-EF06-4B0C-94DE-9FA8EC39F021Q30843632-3CD3C482-2CC7-403D-9EEF-E7D66F95B601Q30912956-1B924F47-210C-4940-AECC-A132C5CE7D87Q31144686-BE1C2293-0339-48E5-A2FE-DEA2E1434571Q31156208-E9010B7F-83D3-437B-9959-BE4A2DDB190CQ33185349-4285261E-89CA-4EF1-A88E-0164FE66F020Q33203644-08C0E3B9-CBFB-43CE-ADF5-92458F2BCDFFQ33249583-C05B49BE-6878-49D3-BDEE-72488FBB7A29Q33484874-EFDBB516-CE98-4CD5-94E8-2D2B655C5D32Q33520506-41E268CE-9438-4826-980B-BCD063F03272Q33766118-172C8942-F63D-4BF8-B486-30C5CB1D111BQ34736309-9698CD6C-669F-4DB8-AB91-B19212827BBBQ34777407-1402724D-8120-4AEA-9B3D-7703EF96B8A3Q35129763-B661AAC6-BC24-4885-BF16-A5F233B79EE9Q35130671-33825CD5-71D9-4DB4-9554-DECE750AC46FQ35237158-CB6B7B37-A01B-4801-845F-28D0BE30609BQ35366984-82BB4B42-500C-48AB-84E0-CB0221F2BAB3Q35586713-FD34F703-7652-46C6-A77E-CC02BF0BC2D9Q35728041-53932020-5C44-4AB5-ABAB-6BBB381D7837Q35840373-AC475EDF-5B67-46B3-9067-4C8FD35BA6E6Q38591601-3492D520-9074-4138-9DCE-EFE3D6FDA496Q39200139-9AB8BC6F-4431-42BD-8DD7-E06BFAA25CCAQ39789637-B3AC1527-C4F4-4818-82C7-6776C1279D72Q42931327-B2A4A699-636D-42BB-AE41-0A0EF7F0FB92Q44559238-4A440E33-A862-4AD2-9173-0B2AE66E59FFQ45172081-84EB0BFF-30D8-4250-8088-2B0FC9D324A8Q45431264-AC8AD7C2-08AA-4FCC-BAFB-0E10FE293BFFQ45908325-F808B552-8F5F-4851-9A6C-887A97CD5EE9Q45951436-1C1283C5-27B2-45E8-B887-67E7638B6F6AQ46095788-D74AD428-11B2-4B95-9635-7DC54BB418F0Q46310636-106862E5-EE66-4842-83A9-E01A0149E83AQ46422339-4E45B2C8-92D6-49B1-94B4-6FFFFCE5FEFBQ47371689-B3DF7037-3F93-426C-891F-0D0E202A430BQ47848733-27E2F990-E4EA-40C3-95DC-827D99F8EEDEQ47900281-1EB08C14-4C32-41D6-8018-16DA3A8D28D5Q47936085-E7FECDFA-238F-400B-8F57-34C815FB4652Q48043340-D3B748CE-2410-483D-8C5B-BCA3A4872700Q48052316-E244A795-7D43-4B24-ADB2-675283937EDBQ48202515-EA37D6D0-5B9D-4E33-89A5-63A142617F70
P50
description
Zweeds onderzoeker
@nl
hulumtues
@sq
researcher
@en
հետազոտող
@hy
name
Mikael Käll
@ast
Mikael Käll
@en
Mikael Käll
@es
Mikael Käll
@nl
Mikael Käll
@sl
type
label
Mikael Käll
@ast
Mikael Käll
@en
Mikael Käll
@es
Mikael Käll
@nl
Mikael Käll
@sl
prefLabel
Mikael Käll
@ast
Mikael Käll
@en
Mikael Käll
@es
Mikael Käll
@nl
Mikael Käll
@sl
P1053
A-6753-2012
P106
P1153
26642904800
P21
P27
P31
P3829
P496
0000-0002-1163-0345