Rationally designed porous silicon as platform for optical biosensors
Optical porous silicon multilayer structures are able to work as sensitive chemical sensors or biosensors based in their optical response. An algorithm to simulate the optical response of these multilayers was developed, considering the optical properties of the individual layers. The algorithm allo...
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| Acceso en línea: | http://hdl.handle.net/20.500.12110/paper_00406090_v520_n20_p6434_Priano |
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todo:paper_00406090_v520_n20_p6434_Priano2023-10-03T14:51:08Z Rationally designed porous silicon as platform for optical biosensors Priano, G. Acquaroli, L.N. Lasave, L.C. Battaglini, F. Arce, R.D. Koropecki, R.R. Biosensors Functionalization Nanostructured porous silicon Optical microcavity Response simulation Aminosilanes Derivatizations Functionalizations Nano-structured Optical bio-sensors Optical microcavities Optical response Photonic structure Porous silicon structures Porous silicon surfaces Response simulation Silicon multilayers Algorithms Biosensors Microcavities Multilayers Optical properties Porous silicon Optical multilayers Optical porous silicon multilayer structures are able to work as sensitive chemical sensors or biosensors based in their optical response. An algorithm to simulate the optical response of these multilayers was developed, considering the optical properties of the individual layers. The algorithm allows designing and customizing the porous silicon structures according to a given application. The results obtained by the simulation were experimentally verified; for this purpose different photonic structures were prepared, such as Bragg reflectors and microcavities. Some of these structures have been derivatized by the introduction of aminosilane groups on the porous silicon surface. The algorithm also permits to simulate the effects produced by a non uniform derivatization of the multilayer. © 2012 Elsevier B.V. JOUR info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_00406090_v520_n20_p6434_Priano |
| institution |
Universidad de Buenos Aires |
| institution_str |
I-28 |
| repository_str |
R-134 |
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) |
| topic |
Biosensors Functionalization Nanostructured porous silicon Optical microcavity Response simulation Aminosilanes Derivatizations Functionalizations Nano-structured Optical bio-sensors Optical microcavities Optical response Photonic structure Porous silicon structures Porous silicon surfaces Response simulation Silicon multilayers Algorithms Biosensors Microcavities Multilayers Optical properties Porous silicon Optical multilayers |
| spellingShingle |
Biosensors Functionalization Nanostructured porous silicon Optical microcavity Response simulation Aminosilanes Derivatizations Functionalizations Nano-structured Optical bio-sensors Optical microcavities Optical response Photonic structure Porous silicon structures Porous silicon surfaces Response simulation Silicon multilayers Algorithms Biosensors Microcavities Multilayers Optical properties Porous silicon Optical multilayers Priano, G. Acquaroli, L.N. Lasave, L.C. Battaglini, F. Arce, R.D. Koropecki, R.R. Rationally designed porous silicon as platform for optical biosensors |
| topic_facet |
Biosensors Functionalization Nanostructured porous silicon Optical microcavity Response simulation Aminosilanes Derivatizations Functionalizations Nano-structured Optical bio-sensors Optical microcavities Optical response Photonic structure Porous silicon structures Porous silicon surfaces Response simulation Silicon multilayers Algorithms Biosensors Microcavities Multilayers Optical properties Porous silicon Optical multilayers |
| description |
Optical porous silicon multilayer structures are able to work as sensitive chemical sensors or biosensors based in their optical response. An algorithm to simulate the optical response of these multilayers was developed, considering the optical properties of the individual layers. The algorithm allows designing and customizing the porous silicon structures according to a given application. The results obtained by the simulation were experimentally verified; for this purpose different photonic structures were prepared, such as Bragg reflectors and microcavities. Some of these structures have been derivatized by the introduction of aminosilane groups on the porous silicon surface. The algorithm also permits to simulate the effects produced by a non uniform derivatization of the multilayer. © 2012 Elsevier B.V. |
| format |
JOUR |
| author |
Priano, G. Acquaroli, L.N. Lasave, L.C. Battaglini, F. Arce, R.D. Koropecki, R.R. |
| author_facet |
Priano, G. Acquaroli, L.N. Lasave, L.C. Battaglini, F. Arce, R.D. Koropecki, R.R. |
| author_sort |
Priano, G. |
| title |
Rationally designed porous silicon as platform for optical biosensors |
| title_short |
Rationally designed porous silicon as platform for optical biosensors |
| title_full |
Rationally designed porous silicon as platform for optical biosensors |
| title_fullStr |
Rationally designed porous silicon as platform for optical biosensors |
| title_full_unstemmed |
Rationally designed porous silicon as platform for optical biosensors |
| title_sort |
rationally designed porous silicon as platform for optical biosensors |
| url |
http://hdl.handle.net/20.500.12110/paper_00406090_v520_n20_p6434_Priano |
| work_keys_str_mv |
AT prianog rationallydesignedporoussiliconasplatformforopticalbiosensors AT acquaroliln rationallydesignedporoussiliconasplatformforopticalbiosensors AT lasavelc rationallydesignedporoussiliconasplatformforopticalbiosensors AT battaglinif rationallydesignedporoussiliconasplatformforopticalbiosensors AT arcerd rationallydesignedporoussiliconasplatformforopticalbiosensors AT koropeckirr rationallydesignedporoussiliconasplatformforopticalbiosensors |
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1807324648923201536 |