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Label-free DNA biosensing by topological light confinement

Authors :
Zito, G
Zito, G
Sanità, G
Guilcapi Alulema, B
Lara Yépez, SN
Lanzio, V
Riminucci, F
Cabrini, S
Moccia, M
Avitabile, C
Lamberti, A
Mocella, V
Rendina, I
Romano, S
Zito, G
Zito, G
Sanità, G
Guilcapi Alulema, B
Lara Yépez, SN
Lanzio, V
Riminucci, F
Cabrini, S
Moccia, M
Avitabile, C
Lamberti, A
Mocella, V
Rendina, I
Romano, S
Source :
Nanophotonics; vol 10, iss 17, 4279-4287; 2192-8606
Publication Year :
2021

Abstract

Large-area and transparent all-dielectric metasurfaces sustaining photonic bound states in the continuum (BICs) provide a set of fundamental advantages for ultrasensitive biosensing. BICs bridge the gap of large effective mode volume with large experimental quality factor. Relying on the transduction mechanism of reactive sensing principle, herein, we first numerically study the potential of subwavelength confinement driven by topological decoupling from free space radiation for BIC-based biosensing. Then, we experimentally combine this capability with minimal and low-cost optical setup, applying the devised quasi-BIC resonator for PNA/DNA selective biosensing with real-time monitoring of the binding event. A sensitivity of 20 molecules per micron squared is achieved, i.e. 0.01 pg. Further enhancement can easily be envisaged, pointing out the possibility of single-molecule regime. This work aims at a precise and ultrasensitive approach for developing low-cost point-of-care tools suitable for routine disease prescreening analyses in laboratory, also adaptable to industrial production control.

Details

Database :
OAIster
Journal :
Nanophotonics; vol 10, iss 17, 4279-4287; 2192-8606
Notes :
application/pdf, Nanophotonics vol 10, iss 17, 4279-4287 2192-8606
Publication Type :
Electronic Resource
Accession number :
edsoai.on1367475223
Document Type :
Electronic Resource