Sfoglia per Autore
High-complexity microsystem fabrication by electrochemical micromachining: the case of silicon microgrippers
2012-01-01 M., Bassu; Surdo, Salvatore; Strambini, LUCANOS MARSILIO; Barillaro, Giuseppe
Microstructured conducting polymers by light-activated electropolymerization on micromachined silicon:characterization and sensing applications
2012-01-01 E., Mazzotta; C., Malitesta; Surdo, Salvatore; Strambini, LUCANOS MARSILIO; Barillaro, Giuseppe
Electrochemical Micromachining as an Enabling Technology for Advanced Silicon Microstructuring in any Lab: Technology and Applications
2012-01-01 Surdo, Salvatore; Strambini, LUCANOS MARSILIO; A., Longo; Barillaro, Giuseppe
Photonic crystal optfluidic silicon microsystem for (bio)sensing
2012-01-01 Surdo, Salvatore; F., Carpignano; A., Giannetti; Strambini, LUCANOS MARSILIO; C., Trono; F., Baldini; S., Merlo; Barillaro, Giuseppe
Recognition of human cells in a glass-silicon Fabry-Perot microcavity by spectral reflectivity measurements
2012-01-01 G., Silva; F., Carpignano; S., Merlo; Barillaro, Giuseppe; Surdo, Salvatore; G., Mazzini
Toward a new label-free method for cytometric analysis based on silicon photonic crystals
2012-01-01 F., Carpignano; G., Silva; S., Merlo; Surdo, Salvatore; Strambini, LUCANOS MARSILIO; Barillaro, Giuseppe; V., Leva; A., Montecucco; G., Mazzini
Optofluidic microsystems with integrated vertical one-dimensional photonic crystals for chemical analysis
2012-01-01 Surdo, Salvatore; Merlo, S; Carpignano, F; Strambini, LUCANOS MARSILIO; Trono, C; Giannetti, A; Baldini, F; Barillaro, Giuseppe
Fibrillogenesis of human ß2-microglobulin in three-dimensional silicon microstructures
2012-01-01 Merlo, S; Barillaro, Giuseppe; Carpignano, F; Silva, G; Surdo, Salvatore; Strambini, LUCANOS MARSILIO; Giorgetti, S; Nichino, D; Relini, A; Mazzini, G; Stoppini, M; Bellotti, V.
Integrated optofluidic microsystem based on vertical high-order one-dimensional silicon photonic crystals
2012-01-01 Barillaro, Giuseppe; S., Merlo; Surdo, Salvatore; Strambini, LUCANOS MARSILIO; F., Carpignano
A New Cell-Selective Three-Dimensional Microincubator Based on Silicon Photonic Crystals
2012-01-01 Carpignano, F; Silva, G; Surdo, Salvatore; Leva, V; Montecucco, A; Aredia, F; Scovassi, A. I.; Merlo, S; Barillaro, Giuseppe; Mazzini, G.
Investigation of cell culturing on high aspect-ratio, three-dimensional silicon microstructures
2012-01-01 Merlo, S; Barillaro, Giuseppe; Carpignano, F; Montecucco, A; Leva, V; Strambini, LUCANOS MARSILIO; Surdo, Salvatore; Mazzini, G.
High-order one-dimensional silicon photonic crystals with a reflectivity notch at λ=1.55 µm
2012-01-01 Surdo, Salvatore; Strambini, LUCANOS MARSILIO; Barillaro, Giuseppe; Carpignano, F; Merlo, S.
Evaluation of the metastatic potential of human tumor cells by means of 3D culture on silicon microstructures
2013-01-01 M., Danova; I., Scovassi; F., Aredia; N., Panini; M., Torchio; Barillaro, Giuseppe; Surdo, Salvatore; F., Carpignano; G., Silva; S., Merlo
High aspect‐ratio photonic crystals: Optical transducers for “flow‐through” optofluidic microsystems
2013-01-01 Surdo, Salvatore; S., Merlo; F., Carpignano; Strambini, LUCANOS MARSILIO; C., Trono; A., Giannetti; F., Baldini; Barillaro, Giuseppe
3D cell microincubator with intrinsic optical transduction capability for advanced cell analyses
2013-01-01 S., Merlo; F., Carpignano; G., Silva; Surdo, Salvatore; Barillaro, Giuseppe; F., Aredia; A. I., Scovassi; G., Mazzini
The metastatic potential of tumor cells can be revealed by 3D culture on a silicon optical microchip
2013-01-01 M., Danova; E., Erba; G., Mazzini; A. I., Scovassi; F., Aredia; N., Panini; M., Torchio; Barillaro, Giuseppe; Surdo, Salvatore; F., Carpignano; G., Silva; S., Merlo
High Sensitivity and High Aspect-Ratio In-Plane Optical Accelerometer by Silicon Electrochemical Micromachining
2013-01-01 Surdo, Salvatore; Strambini, LUCANOS MARSILIO; M., Bassu; D., Camboni; Barillaro, Giuseppe
Two-dimensional array of photoluminescent light sources by selective integration of conjugated luminescent polymers into three-dimensional silicon microstructures
2013-01-01 Polito, Giovanni; Surdo, Salvatore; Robbiano, Valentina; Tregnago, Giulia; Cacialli, Franco; Barillaro, Giuseppe
Two-Dimensional Array of Photoluminescent Light Sources by Selective Integration of Conjugated Luminescent Polymers into Three-Dimensional Silicon Microstructures
2013-01-01 Polito, Giovanni; Surdo, Salvatore; Robbiano, Valentina; Giulia, Tregnago; Franco, Cacialli; Barillaro, Giuseppe
3-D Solar Cells Based on Radial Silicon Heterojunctions Exploiting Microhole Lattices
2013-01-01 Weiying, Ou; Lei, Zhao; Surdo, Salvatore; Hongwei, Diao; Hailing, Li; Chunlan, Zhou; Wenjing, Wang; Barillaro, Giuseppe
| Titolo | Data di pubblicazione | Autore(i) | File |
|---|---|---|---|
| High-complexity microsystem fabrication by electrochemical micromachining: the case of silicon microgrippers | 1-gen-2012 | M., Bassu; Surdo, Salvatore; Strambini, LUCANOS MARSILIO; Barillaro, Giuseppe | |
| Microstructured conducting polymers by light-activated electropolymerization on micromachined silicon:characterization and sensing applications | 1-gen-2012 | E., Mazzotta; C., Malitesta; Surdo, Salvatore; Strambini, LUCANOS MARSILIO; Barillaro, Giuseppe | |
| Electrochemical Micromachining as an Enabling Technology for Advanced Silicon Microstructuring in any Lab: Technology and Applications | 1-gen-2012 | Surdo, Salvatore; Strambini, LUCANOS MARSILIO; A., Longo; Barillaro, Giuseppe | |
| Photonic crystal optfluidic silicon microsystem for (bio)sensing | 1-gen-2012 | Surdo, Salvatore; F., Carpignano; A., Giannetti; Strambini, LUCANOS MARSILIO; C., Trono; F., Baldini; S., Merlo; Barillaro, Giuseppe | |
| Recognition of human cells in a glass-silicon Fabry-Perot microcavity by spectral reflectivity measurements | 1-gen-2012 | G., Silva; F., Carpignano; S., Merlo; Barillaro, Giuseppe; Surdo, Salvatore; G., Mazzini | |
| Toward a new label-free method for cytometric analysis based on silicon photonic crystals | 1-gen-2012 | F., Carpignano; G., Silva; S., Merlo; Surdo, Salvatore; Strambini, LUCANOS MARSILIO; Barillaro, Giuseppe; V., Leva; A., Montecucco; G., Mazzini | |
| Optofluidic microsystems with integrated vertical one-dimensional photonic crystals for chemical analysis | 1-gen-2012 | Surdo, Salvatore; Merlo, S; Carpignano, F; Strambini, LUCANOS MARSILIO; Trono, C; Giannetti, A; Baldini, F; Barillaro, Giuseppe | |
| Fibrillogenesis of human ß2-microglobulin in three-dimensional silicon microstructures | 1-gen-2012 | Merlo, S; Barillaro, Giuseppe; Carpignano, F; Silva, G; Surdo, Salvatore; Strambini, LUCANOS MARSILIO; Giorgetti, S; Nichino, D; Relini, A; Mazzini, G; Stoppini, M; Bellotti, V. | |
| Integrated optofluidic microsystem based on vertical high-order one-dimensional silicon photonic crystals | 1-gen-2012 | Barillaro, Giuseppe; S., Merlo; Surdo, Salvatore; Strambini, LUCANOS MARSILIO; F., Carpignano | |
| A New Cell-Selective Three-Dimensional Microincubator Based on Silicon Photonic Crystals | 1-gen-2012 | Carpignano, F; Silva, G; Surdo, Salvatore; Leva, V; Montecucco, A; Aredia, F; Scovassi, A. I.; Merlo, S; Barillaro, Giuseppe; Mazzini, G. | |
| Investigation of cell culturing on high aspect-ratio, three-dimensional silicon microstructures | 1-gen-2012 | Merlo, S; Barillaro, Giuseppe; Carpignano, F; Montecucco, A; Leva, V; Strambini, LUCANOS MARSILIO; Surdo, Salvatore; Mazzini, G. | |
| High-order one-dimensional silicon photonic crystals with a reflectivity notch at λ=1.55 µm | 1-gen-2012 | Surdo, Salvatore; Strambini, LUCANOS MARSILIO; Barillaro, Giuseppe; Carpignano, F; Merlo, S. | |
| Evaluation of the metastatic potential of human tumor cells by means of 3D culture on silicon microstructures | 1-gen-2013 | M., Danova; I., Scovassi; F., Aredia; N., Panini; M., Torchio; Barillaro, Giuseppe; Surdo, Salvatore; F., Carpignano; G., Silva; S., Merlo | |
| High aspect‐ratio photonic crystals: Optical transducers for “flow‐through” optofluidic microsystems | 1-gen-2013 | Surdo, Salvatore; S., Merlo; F., Carpignano; Strambini, LUCANOS MARSILIO; C., Trono; A., Giannetti; F., Baldini; Barillaro, Giuseppe | |
| 3D cell microincubator with intrinsic optical transduction capability for advanced cell analyses | 1-gen-2013 | S., Merlo; F., Carpignano; G., Silva; Surdo, Salvatore; Barillaro, Giuseppe; F., Aredia; A. I., Scovassi; G., Mazzini | |
| The metastatic potential of tumor cells can be revealed by 3D culture on a silicon optical microchip | 1-gen-2013 | M., Danova; E., Erba; G., Mazzini; A. I., Scovassi; F., Aredia; N., Panini; M., Torchio; Barillaro, Giuseppe; Surdo, Salvatore; F., Carpignano; G., Silva; S., Merlo | |
| High Sensitivity and High Aspect-Ratio In-Plane Optical Accelerometer by Silicon Electrochemical Micromachining | 1-gen-2013 | Surdo, Salvatore; Strambini, LUCANOS MARSILIO; M., Bassu; D., Camboni; Barillaro, Giuseppe | |
| Two-dimensional array of photoluminescent light sources by selective integration of conjugated luminescent polymers into three-dimensional silicon microstructures | 1-gen-2013 | Polito, Giovanni; Surdo, Salvatore; Robbiano, Valentina; Tregnago, Giulia; Cacialli, Franco; Barillaro, Giuseppe | |
| Two-Dimensional Array of Photoluminescent Light Sources by Selective Integration of Conjugated Luminescent Polymers into Three-Dimensional Silicon Microstructures | 1-gen-2013 | Polito, Giovanni; Surdo, Salvatore; Robbiano, Valentina; Giulia, Tregnago; Franco, Cacialli; Barillaro, Giuseppe | |
| 3-D Solar Cells Based on Radial Silicon Heterojunctions Exploiting Microhole Lattices | 1-gen-2013 | Weiying, Ou; Lei, Zhao; Surdo, Salvatore; Hongwei, Diao; Hailing, Li; Chunlan, Zhou; Wenjing, Wang; Barillaro, Giuseppe |
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