about
Contamination-free graphene by chemical vapor deposition in quartz furnaces.Novel back-reflector architecture with nanoparticle based buried light-scattering microstructures for improved solar cell performance.Combining light-harvesting with detachability in high-efficiency thin-film silicon solar cells.Modification of anisotropic plasma diffusion via auxiliary electrons emitted by a carbon nanotubes-based electron gun in an electron cyclotron resonance ion sourceGraphene-epoxy flexible transparent capacitor obtained by graphene-polymer transfer and UV-induced bondingMicrocrystalline silicon p–i–n photodetectors for telecommunications and photovoltaic applicationsLarge area fabrication of self-standing nanoporous graphene-on-PMMA substrateModulation of charge transport properties of reduced graphene oxide by submonolayer physisorption of an organic dyeCharge transport in graphene–polythiophene blends as studied by Kelvin Probe Force Microscopy and transistor characterizationA ternary–3D analysis of the optical properties of amorphous hydrogenated silicon–rich carbideEfficient light-trapping with quasi-periodic uniaxial nanowrinkles for thin-film silicon solar cellsLocal epitaxy from the silicon substrate in silicon–rich SiC during Si–nanocrystals formationInjection of auxiliary electrons for increasing the plasma density in highly charged and high intensity ion sourcesDirectly patterned TiO2 nanostructures for efficient light harvesting in thin film solar cellsEnhanced Performance of Graphene-Epoxy Flexible Capacitors by Means of Ceramic FillersEnhancement of electrical and thermal conductivity of Su-8 photocrosslinked coatings containing grapheneGraphene as transparent conducting layer for high temperature thin film device applicationsGraphene as transparent front contact for dye sensitized solar cellsGraphene-lipids interaction: Towards the fabrication of a novel sensor for biomedical usesRapid fabrication and trimming of nanostructured backside reflectors for enhanced optical absorption in a-Si:H solar cellsITO-Free Organic Light-Emitting Transistors with Graphene Gate ElectrodeAn investigation on the formation of suprathermal electrons in aB-min ECR machine and a novel method for their dampingCarbon-Cap for Ohmic Contacts on n-Type Ion Implanted 4H-SiCCarbon-Cap for Ohmic Contacts on Ion-Implanted 4H–SiCHoneycomb arrays of carbon nanotubes in alumina templates for field emission based devices and electron sourcesField emission properties of carbon nanotube arrays grown in porous anodic aluminaHigh density electron emission source based on carbon nanotubes for industrial applicationsEffects of Ni catalyst–substrate interaction on carbon nanotubes growth by CVDGrowth of carbon nanotubes by Fe-catalyzed chemical vapor processes on silicon-based substratesHydrocarbon molecules deposited onto monolayer steps on Si(100): A study of adsorption and conductanceHydrocarbon molecules deposited onto monolayer steps onto Si(1 0 0): a study of adsorption and conductanceHydrocarbon Molecules Deposited onto Silicon Surfaces: A DFT Study of Adsorption and ConductanceSimulation with GEANT4 of a Novel Position Detector Based on NanotechnologiesThe conductance of monoatomic As and Ag chains deposited onto silicon steps evaluated using a simplified scattering approachThe structural, electronic and transport properties of monatomic chains deposited onto silicon surfaces: A study at semi-empirical levelA novel position detector based on nanotechnologies: the NanoChanT projectThe conductance of monoatomic As and Ag chains deposited onto silicon steps evaluated using a simplified scattering approachAn optimized texturing process for silicon solar cell substrates using TMAHLaser induced crystallization of hydrogenated amorphous silicon-carbon alloysSilicon Heterojunction Solar Cell: A New Buffer Layer Concept With Low-Temperature Epitaxial Silicon
P50
Q41564797-7B94E730-E3EB-46A8-AB24-7F449C892718Q53089089-265EE5DD-4CF5-42B1-881E-8D831A2ECC5EQ53494250-D5FFC6B5-CE36-448C-A29F-365F2EEA548FQ56982891-EED7AC19-51EE-413A-8A5E-AFF3EB273912Q57124877-9E2C5B6D-747A-4F96-ADE7-91D5B239A796Q57630037-423FB073-AEA5-40DD-837C-5D21B12ED14AQ58218560-CD7CE313-C6C3-4F3A-9F22-D0BF4357A9B3Q58218648-7F6325B0-7630-414E-900D-8BAF7FC8E1E4Q58218675-E0E81DD0-50D6-43A0-BE1B-FAC0E358E5D7Q58234816-100222D1-D551-4C4C-AE0F-3AA39EBB181EQ58234817-B6DB1590-FA19-4268-B084-03943197A9ADQ58234818-FD01BBB2-7989-49D3-B037-07B32285CF57Q58234819-14CB6446-A180-4739-BA41-53DFE224F80BQ58234820-DE5A7F4B-8825-45FC-AC99-071DF87689C0Q58234821-A42984D3-3B60-4979-88FF-C92222C7C271Q58234822-995C5AF1-C5DC-4129-8126-608E83321410Q58234824-1C972FE9-63BC-4B23-B1F1-5EBECD4B0E5AQ58234825-80E7FFD2-82DA-4BE0-BD22-3CD7A802E96BQ58234826-9D7803F3-8096-4A61-9882-8723157F64D7Q58234827-DD3A51CB-B5B0-4893-B79C-BB45D5D35460Q58234829-1E94CDF1-1710-4124-BFD7-27407C521EABQ58234830-14A26A6E-5A13-4FDC-B34F-D0E36D7571F4Q58234833-47B78A50-7D3E-419C-924B-19BBDE2C2F84Q58234835-8B4AB6A9-7F6A-4F2C-A34B-50394D0E8AFCQ58234837-F9F9776A-0C82-44BA-ACAF-A437CCCED266Q58234839-9D2FF378-7F3A-40F0-B9A8-620623C705F6Q58234842-264E8FDA-2BA5-4363-B1CE-FE6E768049F3Q58234843-40811034-CD29-4779-8BC4-199DC3531A34Q58234846-6E7F97BB-5BD6-432F-B02B-C67BB97CB5EFQ58234848-802386A1-8110-494C-BF5A-E791EFC01847Q58234849-3C986D15-C2C1-4E45-9B1E-40A4D243583AQ58234851-AAD6CEBE-98CB-4B89-839F-E2369C03BE08Q58234853-76955768-C298-40EB-8116-F0153F6894C1Q58234854-D46FE980-EA9F-4E86-A1CD-4BC95351DD11Q58234855-2801C872-D8FA-463D-9431-70D5436F2232Q58234856-252F3BDE-DA54-45C1-A58A-2D84F00D195EQ58234858-7C1A3137-6E11-4986-8206-29D33CC70D2FQ58234859-A5D13A83-ABF7-46CB-943F-721A9BB1C0F4Q58234861-3FDAD432-58A6-4D4E-BB87-C0C610DC02E5Q58234863-2652D8F4-64A0-49C1-8982-FCD3C22435FC
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Rita Rizzoli
@ast
Rita Rizzoli
@en
Rita Rizzoli
@es
Rita Rizzoli
@nl
type
label
Rita Rizzoli
@ast
Rita Rizzoli
@en
Rita Rizzoli
@es
Rita Rizzoli
@nl
prefLabel
Rita Rizzoli
@ast
Rita Rizzoli
@en
Rita Rizzoli
@es
Rita Rizzoli
@nl
P106
P1153
7102794195
P21
P31
P496
0000-0002-2207-3660