Terahertz subwavelength sensing with bio-functionalized germanium fano-resonators

Carlos Alvarado Chavarin,Julia Flesch,Elena Hardt,Friedhard Römer,Sönke Grüssing,Giovanni Capellini,Thomas Voss,Changjiang You,Davide Spirito,Jacob Piehler,Oliver Skibitzki,Leonetta Baldassarre,Mohammed Eissa,Bernd Witzigmann

doi:10.1515/freq-2022-0078

Terahertz subwavelength sensing with bio-functionalized germanium fano-resonators

Carlos Alvarado Chavarin, Julia Flesch + Show 12 more

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https://doi.org/10.1515/freq-2022-0078

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Journal: Frequenz	Publication Date: Aug 15, 2022
License type: other-oa

Affiliation: Innovations for High Performance Microelectronics, Osnabrück University, University of Erlangen-Nuremberg, University of Kassel, Sapienza University of Rome

#THz Frequencies #Specific Immobilization + Show 8 more

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Abstract

Abstract Localized Surface Plasmon Resonances (LSPR) based on highly doped semiconductors microstructures, such as antennas, can be engineered to exhibit resonant features at THz frequencies. In this work, we demonstrate plasmonic antennas with increased quality factor LSPRs from Fano coupling to dark modes. We also discuss the advances in the biofunctionalization of n-doped Ge antennas for specific protein immobilization and cell interfacing. Finally, albumin biolayers with a thickness of a few hundred nanometers are used to demonstrate the performance of the fano-coupled n-Ge antennas as sensors. A resonant change of over 10% in transmission, due to the presence of the biolayer, can be detected within a bandwidth of only 20 GHz.

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