Follow
Mario Iodice
Mario Iodice
ISASI - CNR
Verified email at cnr.it - Homepage
Title
Cited by
Cited by
Year
A digital holographic microscope for complete characterization of microelectromechanical systems
G Coppola, P Ferraro, M Iodice, S De Nicola, A Finizio, S Grilli
Measurement Science and Technology 15 (3), 529, 2004
2052004
Silicon electro-optic modulator based on a three terminal device integrated in a low-loss single-mode SOI waveguide
A Cutolo, M Iodice, P Spirito, L Zeni
Journal of lightwave technology 15 (3), 505-518, 1997
1901997
Near-infrared sub-bandgap all-silicon photodetectors: state of the art and perspectives
M Casalino, G Coppola, M Iodice, I Rendina, L Sirleto
Sensors 10 (12), 10571-10600, 2010
1612010
Temperature dependence of the thermo-optic coefficient of InP, GaAs, and SiC from room temperature to 600 K at the wavelength of 1.5 μm
FG Della Corte, G Cocorullo, M Iodice, I Rendina
Applied Physics Letters 77 (11), 1614-1616, 2000
1322000
Silicon thermooptical micromodulator with 700-kHz-3-dB bandwidth
G Cocorullo, M Iodice, I Rendina, PM Sarro
IEEE photonics technology letters 7 (4), 363-365, 1995
1261995
Method for measuring the refractive index and the thickness of transparent plates with a lateral-shear, wavelength-scanning interferometer
G Coppola, P Ferraro, M Iodice, S De Nicola
Applied optics 42 (19), 3882-3887, 2003
1182003
Advance in thermo-optical switches: principles, materials, design, and device structure
G Coppola, L Sirleto, I Rendina, M Iodice
Optical Engineering 50 (7), 071112, 2011
942011
Vertically illuminated, resonant cavity enhanced, graphene–silicon Schottky photodetectors
M Casalino, U Sassi, I Goykhman, A Eiden, E Lidorikis, S Milana, ...
ACS nano 11 (11), 10955-10963, 2017
922017
An electrically controlled Bragg reflector integrated in a rib silicon on insulator waveguide
A Cutolo, M Iodice, A Irace, P Spirito, L Zeni
Applied physics letters 71 (2), 199-201, 1997
861997
Label-free vapor selectivity in poly(p-phenylene oxide) photonic crystal sensors
P Lova, C Bastianini, P Giusto, M Patrini, P Rizzo, G Guerra, M Iodice, ...
ACS Appl. Mater. Interfaces, 2016
842016
Thermal effects and scaling in organic light-emitting flat-panel displays
JC Sturm, W Wilson, H Iodice
IEEE Journal of selected topics in quantum electronics 4 (1), 75-82, 1998
831998
Cu/p-Si Schottky barrier-based near infrared photodetector integrated with a silicon-on-insulator waveguide
M Casalino, L Sirleto, M Iodice, N Saffioti, M Gioffrè, I Rendina, G Coppola
Applied Physics Letters 96 (24), 241112, 2010
792010
Temperature dependence of the thermo-optic coefficient of lithium niobate, from 300 to 515 K in the visible and infrared regions
L Moretti, M Iodice, FG Della Corte, I Rendina
Journal of applied physics 98 (3), 036101, 2005
632005
Fabrication and characterization of a porous silicon based microarray for label-free optical monitoring of biomolecular interactions
I Rea, A Lamberti, I Rendina, G Coppola, M Gioffrè, M Iodice, M Casalino, ...
Journal of Applied Physics 107 (1), 014513, 2010
612010
Pdms-based microfluidic devices for cell culture
S Torino, B Corrado, M Iodice, G Coppola
Inventions 3 (3), 65, 2018
602018
Asymmetric MSM sub-bandgap all-silicon photodetector with low dark current
M Casalino, M Iodice, L Sirleto, I Rendina, G Coppola
Optics express 21 (23), 28072-28082, 2013
592013
All-silicon Fabry–Perot modulator based on the thermo-optic effect
G Cocorullo, M Iodice, I Rendina
Optics letters 19 (6), 420-422, 1994
571994
A porous silicon-based Bragg grating waveguide sensor for chemical monitoring
I Rea, M Iodice, G Coppola, I Rendina, A Marino, L De Stefano
Sensors and Actuators B: Chemical 139 (1), 39-43, 2009
542009
Critically coupled silicon Fabry-Perot photodetectors based on the internal photoemission effect at 1550 nm
M Casalino, G Coppola, M Iodice, I Rendina, L Sirleto
Optics Express 20 (11), 12599-12609, 2012
482012
Near-infrared all-silicon photodetectors
M Casalino, G Coppola, M Iodice, I Rendina, L Sirleto
International Journal of Photoenergy 2012, 2012
472012
The system can't perform the operation now. Try again later.
Articles 1–20