Follow
Enzo Rotunno
Enzo Rotunno
NANO-CNR
Verified email at nano.cnr.it
Title
Cited by
Cited by
Year
STEM_CELL: A software tool for electron microscopy: Part I—simulations
V Grillo, E Rotunno
Ultramicroscopy 125, 97-111, 2013
1402013
Blocking Growth by an Electrically Active Subsurface Layer: The Effect of Si<? format?> as an Antisurfactant in the Growth of GaN
T Markurt, L Lymperakis, J Neugebauer, P Drechsel, P Stauss, T Schulz, ...
Physical review letters 110 (3), 036103, 2013
872013
Novel near-infrared emission from crystal defects in MoS2 multilayer flakes
F Fabbri, E Rotunno, E Cinquanta, D Campi, E Bonnini, D Kaplan, ...
Nature communications 7 (1), 13044, 2016
752016
Visible and infra-red light emission in boron-doped wurtzite silicon nanowires
F Fabbri, E Rotunno, L Lazzarini, N Fukata, G Salviati
Scientific reports 4 (1), 3603, 2014
692014
Experimental demonstration of an electrostatic orbital angular momentum sorter for electron beams
AH Tavabi, P Rosi, E Rotunno, A Roncaglia, L Belsito, S Frabboni, ...
Physical review letters 126 (9), 094802, 2021
572021
Preparing the way for doping wurtzite silicon nanowires while retaining the phase
F Fabbri, E Rotunno, L Lazzarini, D Cavalcoli, A Castaldini, N Fukata, ...
Nano letters 13 (12), 5900-5906, 2013
492013
Metal Organic Chemical Vapor Deposition of Phase Change Ge1Sb2Te4 Nanowires
M Longo, R Fallica, C Wiemer, O Salicio, M Fanciulli, E Rotunno, ...
Nano letters 12 (3), 1509-1515, 2012
432012
“Stainless” gold nanorods: preserving shape, optical properties, and SERS activity in oxidative environment
I Vassalini, E Rotunno, L Lazzarini, I Alessandri
ACS Applied Materials & Interfaces 7 (33), 18794-18802, 2015
402015
A flexible electrode based on Al-doped nickel hydroxide wrapped around a carbon nanotube forest for efficient oxygen evolution
F Malara, S Carallo, E Rotunno, L Lazzarini, E Piperopoulos, C Milone, ...
ACS Catalysis 7 (7), 4786-4795, 2017
392017
Ultrafast transverse modulation of free electrons by interaction with shaped optical fields
I Madan, V Leccese, A Mazur, F Barantani, T LaGrange, A Sapozhnik, ...
ACS photonics 9 (10), 3215-3224, 2022
372022
Au-catalyzed self assembly of GeTe nanowires by MOCVD
M Longo, C Wiemer, O Salicio, M Fanciulli, L Lazzarini, E Rotunno
Journal of crystal growth 315 (1), 152-156, 2011
332011
Tunability of exchange bias in Ni@ NiO core-shell nanoparticles obtained by sequential layer deposition
MC Spadaro, S D’Addato, P Luches, S Valeri, V Grillo, E Rotunno, ...
Nanotechnology 26 (40), 405704, 2015
282015
Influence of organic promoter gradient on the MoS 2 growth dynamics
E Rotunno, M Bosi, L Seravalli, G Salviati, F Fabbri
Nanoscale Advances 2 (6), 2352-2362, 2020
272020
Orbital angular momentum and energy loss characterization of plasmonic excitations in metallic nanostructures in TEM
M Zanfrognini, E Rotunno, S Frabboni, A Sit, E Karimi, U Hohenester, ...
ACS Photonics 6 (3), 620-627, 2019
272019
Crystal structure assessment of Ge–Sb–Te phase change nanowires
E Rotunno, L Lazzarini, M Longo, V Grillo
Nanoscale 5 (4), 1557-1563, 2013
272013
Gold nanoparticle assisted synthesis of MoS 2 monolayers by chemical vapor deposition
L Seravalli, M Bosi, P Fiorenza, SE Panasci, D Orsi, E Rotunno, ...
Nanoscale Advances 3 (16), 4826-4833, 2021
252021
Insights into image contrast from dislocations in ADF-STEM
E Oveisi, MC Spadaro, E Rotunno, V Grillo, C Hébert
Ultramicroscopy 200, 139-148, 2019
222019
Low power phase change memory switching of ultra-thin In3Sb1Te2 nanowires
S Selmo, R Cecchini, S Cecchi, C Wiemer, M Fanciulli, E Rotunno, ...
Applied Physics Letters 109 (21), 2016
222016
Au-catalyzed synthesis and characterisation of phase change Ge-doped Sb–Te nanowires by MOCVD
M Longo, T Stoycheva, R Fallica, C Wiemer, L Lazzarini, E Rotunno
Journal of crystal growth 370, 323-327, 2013
222013
Structural, optical and compositional stability of MoS2 multi-layer flakes under high dose electron beam irradiation
E Rotunno, F Fabbri, E Cinquanta, D Kaplan, M Longo, L Lazzarini, ...
2D Materials 3 (2), 025024, 2016
202016
The system can't perform the operation now. Try again later.
Articles 1–20