Luca De Stefano
Luca De Stefano
IMM-CNR, Napoli, Italy
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TitoloCitata daAnno
DNA optical detection based on porous silicon technology: from biosensors to biochips
L De Stefano, P Arcari, A Lamberti, C Sanges, L Rotiroti, I Rea, I Rendina
Sensors 7 (2), 214-221, 2007
Lensless light focusing with the centric marine diatom Coscinodiscus walesii
L De Stefano, I Rea, I Rendina, M De Stefano, L Moretti
Optics Express 15 (26), 18082-18088, 2007
Marine diatoms as optical chemical sensors
L De Stefano, I Rendina, M De Stefano, A Bismuto, P Maddalena
Applied Physics Letters 87 (23), 233902, 2005
The gas‐detection properties of light‐emitting diatoms
S Lettieri, A Setaro, L De Stefano, M De Stefano, P Maddalena
Advanced Functional Materials 18 (8), 1257-1264, 2008
Smart optical sensors for chemical substances based on porous silicon technology
L De Stefano, I Rendina, L Moretti, S Tundo, AM Rossi
Applied Optics 43 (1), 167-172, 2004
Marine diatoms as optical biosensors
L De Stefano, L Rotiroti, M De Stefano, A Lamberti, S Lettieri, A Setaro, ...
Biosensors and Bioelectronics 24 (6), 1580-1584, 2009
Optical sensors for vapors, liquids, and biological molecules based on porous silicon technology
L De Stefano, L Moretti, A Lamberti, O Longo, M Rocchia, AM Rossi, ...
IEEE Transactions on Nanotechnology 3 (1), 49-54, 2004
In-vivo real-time control of protein expression from endogenous and synthetic gene networks
F Menolascina, G Fiore, E Orabona, L De Stefano, M Ferry, J Hasty, ...
PLoS computational biology 10 (5), e1003625, 2014
Photonic band gaps analysis of Thue-Morse multilayers made of porous silicon
L Moretti, I Rea, L Rotiroti, I Rendina, G Abbate, A Marino, L De Stefano
Optics Express 14 (13), 6264-6272, 2006
Nanostructures in diatom frustules: functional morphology of valvocopulae in Cocconeidacean monoraphid taxa
M De Stefano, L De Stefano
Journal of Nanoscience and Nanotechnology 5 (1), 15-24, 2005
Nano-biosilica from marine diatoms: A brand new material for photonic applications
L De Stefano, P Maddalena, L Moretti, I Rea, I Rendina, E De Tommasi, ...
Superlattices and Microstructures 46 (1-2), 84-89, 2009
Treatment and recycling of asbestos-cement containing waste
F Colangelo, R Cioffi, M Lavorgna, L Verdolotti, L De Stefano
Journal of hazardous materials 195, 391-397, 2011
Periodic versus aperiodic: Enhancing the sensitivity of porous silicon based optical sensors
L Moretti, I Rea, L De Stefano, I Rendina
Applied physics letters 90 (19), 191112, 2007
Interfacing the nanostructured biosilica microshells of the marine diatom Coscinodiscus wailesii with biological matter
L De Stefano, A Lamberti, L Rotiroti, M De Stefano
Acta Biomaterialia 4 (1), 126-130, 2008
A mechanochemical approach to porous silicon nanoparticles fabrication
L Russo, F Colangelo, R Cioffi, I Rea, LD Stefano
Materials 4 (6), 1023-1033, 2011
Optical sensing of flammable substances using porous silicon microcavities
L De Stefano, I Rendina, L Moretti, AM Rossi
Materials Science and Engineering: B 100 (3), 271-274, 2003
Highly sensitive optochemical gas detection by luminescent marine diatoms
A Setaro, S Lettieri, P Maddalena, L De Stefano
Applied Physics Letters 91 (5), 051921, 2007
Porous silicon-based optical microsensor for the detection of L-glutamine
L De Stefano, L Rotiroti, I Rendina, L Moretti, V Scognamiglio, M Rossi, ...
Biosensors and Bioelectronics 21 (8), 1664-1667, 2006
Self-assembled biofilm of hydrophobins protects the silicon surface in the KOH wet etch process
L De Stefano, I Rea, A Armenante, P Giardina, M Giocondo, I Rendina
Langmuir 23 (15), 7920-7922, 2007
Porous silicon-based optical biosensors and biochips
I Rendina, I Rea, L Rotiroti, L De Stefano
Physica E: Low-dimensional Systems and Nanostructures 38 (1-2), 188-192, 2007
Il sistema al momento non può eseguire l'operazione. Riprova più tardi.
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