This study focuses on a bottom-up approach for immobilizing gold nanorods (AuNRs) on glass substrates. These substrates were utilized to develop an optical immunosensor and a gene-sensor. Integration with microfluidic circuits enhances portability, highlighting potential point-of-care applications in challenging environments.
Plasmonic biosensors for real-time monitoring of harmful pathogens and biomolecules / Petronella, F.; Sforza, M. L.; Zaccagnini, F.; Masi, A.; De Biase, D.; De Marinis, E.; Nervi, C.; D'Alessandro, A.; De Sio, L.. - (2024), pp. 1-2. (Intervento presentato al convegno 2024 IEEE Research and Applications of Photonics in Defense Conference, RAPID 2024 tenutosi a Miramar Beach, FL, USA) [10.1109/RAPID60772.2024.10647026].
Plasmonic biosensors for real-time monitoring of harmful pathogens and biomolecules
Sforza M. L.;Zaccagnini F.;De Biase D.;De Marinis E.;Nervi C.;D'alessandro A.;De Sio L.
2024
Abstract
This study focuses on a bottom-up approach for immobilizing gold nanorods (AuNRs) on glass substrates. These substrates were utilized to develop an optical immunosensor and a gene-sensor. Integration with microfluidic circuits enhances portability, highlighting potential point-of-care applications in challenging environments.File | Dimensione | Formato | |
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