about
Gold particle interaction in regular arrays probed by surface enhanced Raman scattering.Surface plasmon mediated near-field imaging and optical addressing in nanoscience.Surface plasmon polariton microscope with parabolic reflectors.Probing surface plasmon fields by far-field Raman imaging.Coupling efficiency of light to surface plasmon polariton for single subwavelength holes in a gold film.Rapid prototyping of optical components for surface plasmon polaritons.High performance p-type organic thin film transistors with an intrinsically photopatternable, ultrathin polymer dielectric layer.Spectrum image analysis tool - A flexible MATLAB solution to analyze EEL and CL spectrum images.Mapping the local particle plasmon sensitivity with a scanning probe.Revisiting Surface-Enhanced Raman Scattering on Realistic Lithographic Gold Nanostripes.Coupling dielectric waveguide modes to surface plasmon polaritons.Active plasmonic devices with anisotropic optical response: a step toward active polarizer.Optical resonances in periodic surface arrays of metallic patches.Analysis of the angular acceptance of surface plasmon Bragg mirrors.Heteroepitaxy of organic-organic nanostructures.Silver nanowires as surface plasmon resonators.Dielectric optical elements for surface plasmons.Surface plasmon polariton-based optical beam profiler.Quantitative analysis of surface plasmon interaction with silver nanoparticles.Design and Optical Properties of Active Polymer-Coated Plasmonic NanostructuresFabrication of n- and p-Type Organic Thin Film Transistors with Minimized Gate Overlaps by Self-Aligned NanoimprintingMetal Nanoparticle Gratings: Influence of Dipolar Particle Interaction on the Plasmon ResonanceNanoparticle waveguides: Watching energy transferOptical addressing at the subwavelength scaleElectromagnetic energy transport via linear chains of silver nanoparticlesPlasmonic crystal demultiplexer and multiportsComment on "far-field optical microscopy with a nanometer-scale resolution based on the in-plane image magnification by surface plasmon polaritons"Multipolar surface plasmon peaks on gold nanotrianglesSurface enhanced Raman scattering arising from multipolar plasmon excitationConducting polymer electrochemical switching as an easy means for designing active plasmonic devicesGrating-induced plasmon mode in gold nanoparticle arraysThickness determination of a water film on dye-doped ice by fluorescence spectroscopyTunable electrochemical switch of the optical properties of metallic nanoparticlesFörster-type resonant energy transfer influenced by metal nanoparticlesSuperresolution Moiré mapping of particle plasmon modesElectron-energy-loss spectra of plasmonic nanoparticlesThree dimensional sensitivity characterization of plasmonic nanorods for refractometric biosensors
P50
Q33205025-96CF099C-AB26-4636-A450-43E58FBA6B5AQ33254270-EAC90E54-D719-4D9F-820B-C590F8C2D321Q33294266-BA1335C0-4DF8-494A-8288-8F08D5CF2363Q33321403-4875F665-A2E9-4C6C-ADB7-58079725B811Q33341939-6CE21519-5639-4BAF-809A-F7DAAA1F42B3Q33469406-5C638655-848D-4C56-8B87-EAB399F75F1EQ38810126-42A3B294-853F-4CB9-8215-D19082CB84ADQ39129987-22EC01ED-8C4D-4A0E-AD75-2B1B31331D8CQ41293339-DB91C13E-243F-4AA7-B313-C6A913BFA7CCQ42832628-E84639C9-A816-4755-BA2E-349F7CF48483Q44976136-FB1D972A-72D4-4145-BD08-F7D8BE95CF95Q46053970-71629B8B-F29D-40FD-8FE9-2B14DF3FF6C3Q47584055-A975F09C-664E-400C-855B-217CA0F9679EQ50910628-0BAC8D46-4288-4385-AE64-3FFF56D8163AQ51181651-ADA09BFA-1709-42AE-8D38-574E65ED3FE1Q51296787-76A9F866-C94B-4369-B13E-6EABC5244415Q51483820-8BCAB390-099D-4B17-86EB-7A5120F11EADQ51652632-9BDA7CCE-360F-469F-9B8E-59AB55D5AEC0Q51969654-4074B052-8F80-47C5-B377-237BBFAC99C5Q57360719-972ED878-CD9A-459E-ACE1-F60F50005A18Q62039427-E913FA52-CB69-40E0-A84C-E04AE3C29769Q62121960-02FE4CF2-B92F-49A6-BFA7-BF450B5F9F36Q73257217-5CBB75A6-D53F-4601-8ADE-D53C87EB7CC3Q73257620-245C0D1E-97BA-46AC-B710-1DB152692C2FQ80228597-B4B58335-A231-4AB4-A28B-B2978C5B3A5CQ80329867-2F58D9F6-D079-431D-9182-7557FB021D50Q80742403-C965D598-BFCE-44A1-9F82-18A3A9A81853Q80846175-9BF1F24C-A7EA-41D9-9D80-0871B008A514Q81243486-C9BBF27A-C53A-4E35-A7A2-7C753DE98E07Q81478949-2C87BD75-06C2-4AD0-BE27-95FDE72C7EEFQ82072193-C46411D4-F0A1-45D0-938B-11AD1B47CC33Q82418847-11078791-FDCC-44BF-99F9-A524BF3DE9A3Q83323831-D1A5704D-0AD2-4075-8628-1B8E7D022AF4Q83652516-E864B945-F2BB-4D56-8DEF-F50758292E57Q84250016-1273396A-C1E5-48F5-BB4A-F000329DB2A5Q84599817-E5F695F2-D8B4-428A-B044-D593C02EB723Q87107634-95562BE3-7574-48A8-8CC6-3FAF9C9DEE87
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Joachim R Krenn
@ast
Joachim R Krenn
@en
Joachim R Krenn
@es
Joachim R Krenn
@nl
Joachim R Krenn
@sl
type
label
Joachim R Krenn
@ast
Joachim R Krenn
@en
Joachim R Krenn
@es
Joachim R Krenn
@nl
Joachim R Krenn
@sl
prefLabel
Joachim R Krenn
@ast
Joachim R Krenn
@en
Joachim R Krenn
@es
Joachim R Krenn
@nl
Joachim R Krenn
@sl
P106
P21
P31
P496
0000-0002-4551-8212