about
Engineering the spin-flip limited exciton dephasing in colloidal CdSe/CdS quantum dotsNearly temperature-independent threshold for amplified spontaneous emission in colloidal CdSe/CdS quantum dot-in-rods.Reversed oxygen sensing using colloidal quantum wells towards highly emissive photoresponsive varnishes.Band structure engineering via piezoelectric fields in strained anisotropic CdSe/CdS nanocrystals.A sustainable future for photonic colloidal nanocrystals.Band-edge oscillator strength of colloidal CdSe/CdS dot-in-rods: comparison of absorption and time-resolved fluorescence spectroscopy.Band-edge exciton fine structure of small, nearly spherical colloidal CdSe/ZnS quantum dots.Size-tunable, bright, and stable PbS quantum dots: a surface chemistry study.Surface chemistry of colloidal PbSe nanocrystals.In situ 1H NMR study on the trioctylphosphine oxide capping of colloidal InP nanocrystals.Size-dependent optical properties of colloidal PbS quantum dots.Comment on "Size-dependent composition and molar extinction coefficient of PbSe semiconductor nanocrystals".On the interpretation of colloidal quantum-dot absorption spectra.Two Photon Absorption in II-VI Semiconductors: The Influence of Dimensionality and Size.Continuous-wave biexciton lasing at room temperature using solution-processed quantum wells.Shape control of zincblende CdSe nanoplatelets.Quantum dot micropatterning on si.Role of Acid-Base Equilibria in the Size, Shape, and Phase Control of Cesium Lead Bromide Nanocrystals.The different nature of band edge absorption and emission in colloidal PbSe/CdSe core/shell quantum dots.Langmuir-Blodgett monolayers of InP quantum dots with short chain ligands.Ligand adsorption/desorption on sterically stabilized InP colloidal nanocrystals: observation and thermodynamic analysis.Langmuir-Blodgett monolayers of colloidal lead chalcogenide quantum dots: morphology and photoluminescence.In situ observation of rapid ligand exchange in colloidal nanocrystal suspensions using transfer NOE nuclear magnetic resonance spectroscopy.Short-chain alcohols strip X-type ligands and quench the luminescence of PbSe and CdSe quantum dots, acetonitrile does not.Two-photon-induced blue shift of core and shell optical transitions in colloidal CdSe/CdS quasi-type II quantum rods.Synthesis of uniform disk-shaped copper telluride nanocrystals and cation exchange to cadmium telluride quantum disks with stable red emission.p-State Luminescence in CdSe Nanoplatelets: Role of Lateral Confinement and a Longitudinal Optical Phonon Bottleneck.Oxygen sensitivity of atomically passivated CdS nanocrystal films.Effect of Core/Shell Interface on Carrier Dynamics and Optical Gain Properties of Dual-Color Emitting CdSe/CdS Nanocrystals.Epitaxially connected PbSe quantum-dot films: controlled neck formation and optoelectronic properties.Piezoelectric Control of the Exciton Wave Function in Colloidal CdSe/CdS Nanocrystals.Impact of the Band-Edge Fine Structure on the Energy Transfer between Colloidal Quantum DotsSingle-Mode Lasing from Colloidal Water-Soluble CdSe/CdS Quantum Dot-in-RodsThe non-linear refractive index of colloidal PbSe nanocrystals: Spectroscopy and saturation behaviourComposition and Size-Dependent Extinction Coefficient of Colloidal PbSe Quantum DotsNuclear Magnetic Resonance Spectroscopy Demonstrating Dynamic Stabilization of CdSe Quantum Dots by AlkylaminesExciton dephasing in lead sulfide quantum dots byX-point phononsTransmission of a quantum-dot-silicon-on-insulator hybrid notch filterSynthesis of highly luminescent wurtzite CdSe/CdS giant-shell nanocrystals using a fast continuous injection routeGraphene-based technologies for energy applications, challenges and perspectives
P50
Q30457459-3679ACA1-4B31-4831-8C29-9F521BE50B09Q34341140-22A40A25-BC1B-45BB-A68E-1292AA5D9F6BQ35245141-59B2FBD1-B149-48AC-8DC9-D5C7A4D7C8EDQ35941816-0A9D8B5E-585A-4A42-AF57-3FB3994E800CQ38530512-D02D646B-E14F-4CAD-B107-FA46603A4E48Q38887536-AC04AB6E-1AF1-4FB6-B758-7818684809A5Q44075595-8D8E0DD1-CFDB-4323-B4AD-24286A77D74AQ45119100-6A6203B6-FF70-42D0-86A7-2E77C9193AE3Q46312104-2F85BB97-42CF-43DB-9592-79E0C6D1BFA9Q46782687-58FD3F47-49B2-480B-94BD-73916E992D81Q47173262-00298EC0-F8C1-4412-985A-5F61D853BC9CQ47174841-103119FD-F45B-4BBC-8003-ED1E31070BD5Q47295422-E958D066-8E86-4430-81B7-E9409DA3DD86Q47374017-C3CF5598-1E34-4E13-B61D-86FD34985E4BQ47722258-01AA6929-05CD-46E4-AEF7-B5F60E22E376Q48054238-DB89FC73-838C-4662-9E5C-7142A153E351Q49025673-1E59BB12-6717-4F32-AA9C-E69140EB3113Q49029428-0CA06C5C-B059-445C-8C0A-3EBC11F23DB5Q49078694-EAC2D305-CC36-409E-B8C9-D7F72BD6483BQ49084581-B17726E1-F3BD-4D60-8348-5748B25AF019Q49087229-E26FE69D-A551-486B-BB7C-28C7F4F5AA70Q49097332-A2C842D2-0CA6-48D5-BF23-B98616876A42Q49143174-F1564173-5BDC-4CC8-90AB-01DC39A7E93BQ49145684-FD65D2BC-6C9C-4635-9C58-31EFA2769027Q50236723-8BCA2B40-BC95-4056-8F45-6A5F1F35526EQ50488339-23C4EF42-0435-494D-8AB9-21B237BF5D31Q50676536-6258926D-717C-4317-8FA0-4C8824D1F8A1Q53066990-BD111A86-DF75-4585-A97A-B2F494C5B2DEQ53087155-7975D09D-FDF2-430D-A829-4A33FC731524Q53404073-215D21FE-14B7-415F-84A7-C7D4C9548DA9Q54466047-6A4EB896-4E93-49A2-ADFB-16E1EBA66D8BQ57344197-D6A83DA7-56CF-485E-810E-02D152A296E5Q57344678-9F4CD397-0D19-4834-A75B-97A1AC068459Q57346355-88266AE7-0E20-4E5F-8FCC-95B8D6D0D728Q57348498-D83F8163-955A-4972-A373-35FCA99C5DF3Q57349900-548D9D09-A427-4518-A1EE-47BEEB6D7544Q57353423-EBA35F35-9187-45CB-9F33-BE703F1B26B9Q57354290-A0E65E68-272B-483F-90CA-DBCD596B7C09Q57985337-FC60DA9F-61DA-4677-8034-BEF699D782B8Q58022379-4CAB62AC-5C44-48EB-97F2-5F43DDF460A8
P50
description
hulumtues
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Iwan Moreels
@ast
Iwan Moreels
@en
Iwan Moreels
@es
Iwan Moreels
@nl
Iwan Moreels
@sl
type
label
Iwan Moreels
@ast
Iwan Moreels
@en
Iwan Moreels
@es
Iwan Moreels
@nl
Iwan Moreels
@sl
prefLabel
Iwan Moreels
@ast
Iwan Moreels
@en
Iwan Moreels
@es
Iwan Moreels
@nl
Iwan Moreels
@sl
P1053
E-5230-2011
P106
P108
P21
P31
P3829
P496
0000-0003-3998-7618
P569
2000-01-01T00:00:00Z