about
A quantum dot single-photon turnstile device.Raman lasing near 630 nm from stationary glycerol-water microdroplets on a superhydrophobic surface.Large spectral tuning of a water-glycerol microdroplet by a focused laser: characterization and modeling.Reversible photothermal tuning of a salty water microdroplet.Photothermal self-stability and optical bistability of single NaCl-water microdroplets on a superhydrophobic surface.Prolonged Raman lasing in size-stabilized salt-water microdroplets on a superhydrophobic surface.Probing microscopic wetting properties of superhydrophobic surfaces by vibrated micrometer-sized droplets.Size stabilization of surface-supported liquid aerosols using tapered optical fiber coupling.Dye lasing in optically manipulated liquid aerosols.Fluorescent molecules as transceiver nanoantennas: the first practical and high-rate information transfer over a nanoscale communication channel based on FRET.Spectral tuning of lasing emission from optofluidic droplet microlasers using optical stretching.In vitro and in vivo biolasing of fluorescent proteins suspended in liquid microdroplet cavities.Highly luminescent and cytocompatible cationic Ag2S NIR-emitting quantum dots for optical imaging and gene transfection.Optofluidic FRET lasers using aqueous quantum dots as donors.Preparation and characterization of superhydrophobic surfaces based on hexamethyldisilazane-modified nanoporous alumina.Cyto/hemocompatible magnetic hybrid nanoparticles (Ag2S-Fe3O4) with luminescence in the near-infrared region as promising theranostic materials.Motion of single terrylene molecules in confined channels of poly(butadiene)-poly(ethylene oxide) diblock copolymer.Haptic guidance for improved task performance in steering microparticles with optical tweezers.Enhanced Dissolution of Liquid Microdroplets in the Extensional Creeping Flow of a Hydrodynamic Trap.Indistinguishable photons from a single molecule.A quantum dot single-photon sourcePhoton correlation spectroscopy of a single quantum dotCavity-QED using a single InAs quantum dot and a high-Q whispering gallery modeCavity-quantum electrodynamics using a single InAs quantum dot in a microdisk structureHeralded single photons from a single quantum dotLaser emission from quantum dots in microdisk structuresCavity-quantum electrodynamics with quantum dotsSpectral tuning of liquid microdroplets standing on a superhydrophobic surface using electrowettingA new type of microphotoreactor with integrated optofluidic waveguide based on solid-air nanoporous aerogelsDroplet LasersDroplet resonator based optofluidic microlasersDye lasing in optically manipulated liquid aerosolsQuantum-dot single-photon sources: Prospects for applications in linear optics quantum-information processingDirect conversion of Cytochrome c spectral shifts to fluorescence using photochromic FRETEmission tunable, cyto/hemocompatible, near-IR-emitting Ag2S quantum dots by aqueous decomposition of DMSAVibronic Excitation of Single Molecules: A New Technique for Studing Low-Temperature DynamicsBypassing pro-survival and resistance mechanisms of autophagy in EGFR-positive lung cancer cells by targeted delivery of 5FU using theranostic Ag2S quantum dotsSize-Based Sorting of Emulsion Droplets in Microfluidic Channels Patterned with Laser-Ablated Guiding Tracks
P50
Q30637445-D627A94F-A14A-41F4-A482-6E6D89C71B2FQ33292800-DC4FC124-C058-4EF3-A51A-DE5C8D8F2252Q33381214-293A4A37-9E0E-4B49-AE7B-A86CC93C9C24Q33440664-F9881DCD-B9E7-4D8E-8970-32FDDB37FF82Q33492790-0408C4DA-8BA2-4E63-AE85-8980CDDC2A91Q33604119-8ABE6C15-A1C3-4463-A054-BA838517BF9BQ33807377-C2E2C178-CD4A-4868-9AE0-156B4A8AA1FDQ34605694-9B3FE8D6-6B90-48F9-AE08-17209C35E999Q34932555-0B0026C0-4679-4AD2-98F2-AAD6B041F25DQ34975259-74DAA95F-0D3A-449D-B147-92D77D4FAA2AQ35011445-806C3A42-B3AA-483B-8365-0590554F3AB1Q35195846-1406B061-D23D-435A-8210-89655DACC38CQ35661771-6363F06C-EF27-4378-AA8D-0EA696C904B3Q35867227-3D1E6C2F-0856-4345-A271-ADCDA7053B4CQ39004724-17609E98-1AD2-466C-A79C-4F0C24DA1195Q42825915-D2B2A2F8-C848-438B-8226-F132B5300040Q45928750-27C4A723-25A6-40B6-8B28-56BED6B132EEQ50922049-01E5D884-DDE3-4A1B-9736-4E34CEDC3C2BQ51181642-42F87C47-8C3F-428B-9F80-8DFCDC2B2055Q51633022-6FA21552-5946-4193-833D-AD4C9E58822DQ59424878-084CEDA1-ED7C-4443-8EB9-E7A0B69D9CC1Q59424887-BA35A1F3-A367-41EF-B60B-ED79026FE1A4Q59424890-3155AEAB-6EB0-4C4D-95CF-676479264804Q59424895-FC112E96-8D3C-47F4-84C9-AE227FFCC7BCQ59424902-A4D85BDE-5C65-4568-9D22-104F928B0DBAQ59424910-7FCEA3D4-A483-4AA2-9AB5-DF9DA0332FE5Q59481102-AFBA3464-BFF7-48AD-9929-D412E3560634Q59813716-8344085C-834F-4504-BE69-0C01B6BC677DQ60054558-5A949127-4EFB-47DB-99C6-1B2DC65996CAQ60194931-85C8A6C9-D48D-4C04-9E09-E9119667296EQ60194936-DDC71CA4-58D0-429F-9D5C-3AE761015FEAQ60194939-01D1A05D-C8F8-4E2C-B067-5BA0E602AAF7Q60316997-23B6940C-BCC3-464A-919A-CA80CB5BB4F9Q62269373-C2D84148-6580-40D8-BFAA-F5283F27672DQ62269375-CE74F67A-33AA-4F9A-A92F-278A6AB02E08Q62269418-94F49B88-0A99-4C13-BFA8-6CB40DECD0ACQ91156926-38D97572-F0BE-4F3A-9DA2-EA3CDED7BCB1Q92438865-AB946285-B9C2-4FFF-A6C7-FC2E55C61FB3
P50
description
onderzoeker
@nl
researcher ORCID ID = 0000-0001-7977-1286
@en
name
A Kiraz
@ast
A Kiraz
@en
A Kiraz
@es
A Kiraz
@nl
type
label
A Kiraz
@ast
A Kiraz
@en
A Kiraz
@es
A Kiraz
@nl
prefLabel
A Kiraz
@ast
A Kiraz
@en
A Kiraz
@es
A Kiraz
@nl
P106
P108
P1153
14219263600
P31
P496
0000-0001-7977-1286