about
Use of silica microspheres having refractive index similar to bacteria for conversion of flow cytometric forward light scatter into biovolume.IBIL analysis of road dust samples from San Bernardo tunnel.Concerning the role of cell lysis-cryptic growth in anaerobic side-stream reactors: the single-cell analysis of viable, dead and lysed bacteria.Deposition and characterization of luminescent Eu(tta)3phen-doped parylene-based thin-film materials.Ion Beam Induced Luminescence capabilities for the analysis of coarse-grained river sediments.Organic semiconducting single crystals as next generation of low-cost, room-temperature electrical X-ray detectorsNovel 3D silicon sensors for neutron detectionHybrid detectors for neutrons combining phenyl-polysiloxanes with 3D silicon detectorsChromium doping of silicate glasses by field-assisted solid-state ion exchangeSilver and gold doping of SiO2 glass by solid-state field-assisted diffusionCharacterization of silicate glasses doped with gold by solid-state field-assisted ion exchangeField-assisted ion diffusion in dielectric matrices: Er3+ in silicate glassField-assisted ion diffusion of transition metals for the synthesis of nanocomposite silicate glassesCopper diffusion in ion-exchanged soda-lime glassCu-alkali ion exchange in glass: a model for the copper diffusion based on XAFS experimentsSilver nanocluster formation in ion-exchanged glasses by annealing, ion beam and laser beam irradiation: An EXAFS studyCopper doping of silicate glasses by the ion-exchange technique: A photoluminescence spectroscopy studySynthesis of wide band gap nanocrystals by ion implantationAu−Cu Alloy Nanocluster Doped SiO2Films by Sol−Gel ProcessingNovel polysiloxane-based scintillators for neutron detectionSurface treatment of HV electrodes for superconducting cyclotron beam extractionTitanium nitride insulation for the deflector of superconducting cyclotronsMultivariate analysis of Ion Beam Induced Luminescence spectra of irradiated silver ion-exchanged silicate glassesMultivariate analysis as a tool for Ion Beam Induced Luminescence (IBIL) spectra interpretationRaman microspectroscopy investigation of Ag ion-exchanged glass layers
P50
Q33355706-D11C1E22-715C-4B11-B917-D241A9B38D8AQ40135790-191F68E4-C030-4E4E-91B0-8E71C869904BQ41336637-6206B70A-88D7-4086-B40B-FF5F5FB390D5Q44223672-77963C0D-8EFF-4370-9F56-16EE43C36705Q45736890-16F073A2-BEE0-4359-A39A-C32BC09DC49DQ56981632-04162EA6-57E2-4A56-B6D3-A371EC36509FQ59415321-2653B26D-12F7-4728-8DCC-104F91408EB0Q59415338-6C7B63B8-BC04-4436-98E7-108F7163842AQ59580852-55336143-50AD-4EF5-A1EC-FCC672B13A8AQ59581363-27A6CA88-EE24-4799-B53A-D2B0A086A721Q59581427-BCAE6438-6F2E-4B24-AC35-957448F0643EQ59581453-65C56E2E-F4D6-47EB-A736-F552BDFEC037Q59581834-79FFA5BE-D30C-462F-9761-67FCB248B7C0Q59582049-6016D1A9-0286-45B0-B98F-9426074FD663Q59582070-53672423-7848-4497-B6C7-26E1F6F58487Q59582310-9A5BA2D2-BD84-4A92-8A96-C8BBD5AC5650Q59582316-1DC1292E-4204-46FF-8DC9-5C453AEA31F0Q59582328-F33A6757-E966-4C35-8159-C0F22B48EF8EQ59582403-009782DF-B2F4-4561-8A28-DBB31A936D46Q60524450-AC6F52A2-13D5-4D83-94BF-BC4E97D33FCFQ63958112-CAEBE654-5DBF-4FF6-B38C-34DF32293A62Q63958113-98A5783C-91F9-4C1E-BC3C-59D8C51C0024Q84096295-F6253A52-C998-4478-9D0C-522603E54EC4Q84569956-90CB5F81-FBCF-4CA8-81EC-636B3CA96658Q86162586-0CF76129-9627-4DDE-929B-D7C000B099D5
P50
description
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Alberto Quaranta
@ast
Alberto Quaranta
@en
Alberto Quaranta
@es
Alberto Quaranta
@nl
type
label
Alberto Quaranta
@ast
Alberto Quaranta
@en
Alberto Quaranta
@es
Alberto Quaranta
@nl
prefLabel
Alberto Quaranta
@ast
Alberto Quaranta
@en
Alberto Quaranta
@es
Alberto Quaranta
@nl
P106
P1153
7101754595
P21
P31
P496
0000-0003-1320-091X