about
Biological application of Compressed Sensing Tomography in the Scanning Electron Microscope.Taurine rescues cisplatin-induced muscle atrophy in vitro: a morphological study.High degree of polarization of the near-band-edge photoluminescence in ZnO nanowires.Metal Oxide Nanowire Preparation and Their Integration into Chemical Sensing Devices at the SENSOR Lab in Brescia.Integration of ZnO and CuO nanowires into a thermoelectric module.Nanostructured metal oxide gas sensors, a survey of applications carried out at SENSOR lab, Brescia (Italy) in the security and food quality fields.Quasi-monodimensional polyaniline nanostructures for enhanced molecularly imprinted polymer-based sensing.Tailoring the pore size and architecture of CeO2/TiO2 core/shell inverse opals by atomic layer deposition.Bottle-brush-shaped heterostructures of NiO-ZnO nanowires: growth study and sensing properties.Probing the spatial extension of light trapping-induced enhanced Raman scattering in high-density Si nanowire arrays.Effects of aluminium sulphate in the mouse liver: similarities to the aging process.Direct integration of metal oxide nanowires into an effective gas sensing device.Experimental apparatus for annihilation cross-section measurements of low energy antiprotonsSEM tomography for the investigation of hybrid structuresEnhanced reduction in threading dislocation density in Ge grown on porous silicon during annealing due to porous buffer reconstructionA new apparatus for electron tomography in the scanning electron microscopeSTEM electron tomography in the Scanning Electron MicroscopeGe growth on porous silicon: The effect of buffer porosity on the epilayer crystalline qualityCdSe Spherical Quantum Dots Stabilised by Thiomalic Acid: Biphasic Wet Synthesis and CharacterisationStructural and gas-sensing characterization of tungsten oxide nanorods and nanoparticlesOne pot synthesis of bi-linker stabilised CdSe quantum dotsElectrical and holographic characterization of gold catalyzed titania-based layersDopant regions imaging in scanning electron microscopyEffects of Ta/Nb-doping on titania-based thin films for gas-sensingScanning electron microscopy of dopant distribution in semiconductorsThe CHORUS experiment to search for νμ → ντ oscillationResponse to electrons and pions of the calorimeter for the CHORUS experimentCalibration and performance of the CHORUS calorimeterThe CHORUS calorimeter: test resultsConstruction and test of calorimeter modules for the CHORUS experimentRadiofrequency magnetron co-sputtering deposition synthesis of Co-based nanocomposite glasses for optical and magnetic applicationsStructural and physical properties of cobalt nanocluster composite glassesAu/TiO2Nanosystems: A Combined RF-Sputtering/Sol−Gel ApproachInnovative Approaches to Oxide Nanosystems: CeO2-ZrO2 Nanocomposites by a Combined PE-CVD/Sol-Gel RouteVapour phase nucleation of ZnO nanowires on GaN: growth habit, interface study and optical propertiesDoped ZnO nanowires: Towards homojuctionsNanowires of metal oxides for gas sensing applicationsPreparation and Characterization of Tin Oxide Nanowires on SICSingle Metal Oxide Nanowire devices for Ammonia and Other Gases Detection in Humid AtmosphereMagnetic gas sensing exploiting the magneto-optical Kerr effect on ZnO nanorods/Co layer system
P50
Q36137586-A7BFF88D-F530-4C68-83D1-0B403D650FABQ38982099-D53F85DF-2BDC-4FF4-95B6-71AB76C80DE1Q39005015-5BFD2C00-49E3-40B5-B894-DED5F57FBF95Q39281080-8A7777F4-718B-418A-AA60-135F0CC04296Q41587661-02370655-A523-417D-A1E6-285681B8CCAFQ41870358-02C336A6-0EAE-4A2D-A33D-BD3EB2A4FB4DQ42930183-A006CF9A-B57C-4991-ADC4-90EEC8D6AD31Q47200980-5359387E-196C-47A3-A2A3-49B3250465A7Q50049026-95C33622-33D7-4EB7-8F40-C5105B0EE4AEQ50220857-A35376D6-4E43-428B-A372-A85647A399C1Q50656475-6AD3BA72-7A9D-4DCE-B3DC-D787A63184A8Q53065412-44049D05-C2DD-478A-A7DC-E90E4C3B2CEEQ57840391-9D7879E1-3E3C-470C-AEE8-404431A75A6EQ58238321-C2C848B4-896D-49A8-BC46-B232E9B9C37AQ58238324-147E5D8D-934A-4CE4-887A-E054F7143AD4Q58238328-D1C2E1AD-63FF-4C1D-975B-ABE7F6E91F64Q58238334-7C22682F-17FA-406E-B71E-3C36017E9531Q58238336-8A1A7922-8854-4827-B7E4-11BD9EE0BC88Q58238355-211DE499-C2BD-4B2B-AB13-8E9F2DD9E64CQ58238360-C3EF8686-A6E8-46DD-A0AF-D8C8080671E2Q58238371-ADBD31F8-1B5B-4B3C-B227-1178EE6907ECQ58238379-F7F30248-3363-460C-8F42-EAEA4FBB8B17Q58238389-1507A352-0D92-4C8E-A391-1A4B2578B784Q58238395-D59D3000-1AA9-4D5A-A01F-2D03EF5A6B15Q58238398-5662330E-2573-485D-92DC-AF4FF2E57B37Q58335656-AD3919F4-60DC-4E5E-B3B0-A441E7DE47E7Q58382832-80150D47-55E3-4EAB-ACB9-EAE2AC701600Q58382835-BB09ECCB-4EF9-4819-BBB9-E21FF3C83F94Q58382838-1FCB66EB-6498-441E-A712-01F87014A0F2Q58382842-75F3A86D-F5CF-4CA8-89F9-8D7A4EC9A2D5Q59582268-F3E8F1CC-3B6B-47DF-A912-AB4C6EC5C8F5Q59582282-A4349FD5-BF21-46A2-93F1-ABF41DECD5F2Q60215433-1F1ABA7F-FA4E-42C1-8D50-5E38BA3C07F1Q60215439-90F0F2C8-3F46-4C67-A00B-F19201BEB165Q60299523-EC390824-FC04-4EC7-AD47-BF54AC624E11Q60299605-78089D06-404B-49DD-BA56-D8EDAC937916Q60299609-7A116343-8BAC-486D-89C1-040A2B56D102Q60299624-7F4D0E55-D30B-49F4-93D3-6C70B9055594Q60332606-6EF3FC30-D21F-4168-AA15-76F190EC651EQ61067479-6BF6796D-1B1C-49AF-9567-667FC390DD55
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Matteo Ferroni
@ast
Matteo Ferroni
@en
Matteo Ferroni
@es
Matteo Ferroni
@sl
type
label
Matteo Ferroni
@ast
Matteo Ferroni
@en
Matteo Ferroni
@es
Matteo Ferroni
@sl
prefLabel
Matteo Ferroni
@ast
Matteo Ferroni
@en
Matteo Ferroni
@es
Matteo Ferroni
@sl
P1053
F-5133-2010
P106
P21
P31
P3829
P496
0000-0002-4231-9162