Midinfrared Plasmon-Enhanced Spectroscopy with Germanium Antennas on Silicon Substrates | Zendy

Leonetta Baldassarre | Zendy; Émilie Sakat | Zendy; Jacopo Frigerio | Zendy; Antonio Samarelli | Zendy; Kevin Gallacher | Zendy; Eugenio Calandrini | Zendy; Giovanni Isella | Zendy; Douglas J. Paul | Zendy; Michele Ortolani | Zendy; Paolo Biagioni | Zendy

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Midinfrared Plasmon-Enhanced Spectroscopy with Germanium Antennas on Silicon Substrates

Author(s) -

Leonetta Baldassarre,

Émilie Sakat,

Jacopo Frigerio,

Antonio Samarelli,

Kevin Gallacher,

Eugenio Calandrini,

Giovanni Isella,

Douglas J. Paul,

Michele Ortolani,

Paolo Biagioni

Publication year - 2015

Publication title -

nano letters

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 4.853

H-Index - 488

eISSN - 1530-6992

pISSN - 1530-6984

DOI - 10.1021/acs.nanolett.5b03247

Subject(s) - plasmon , materials science , optoelectronics , wafer , silicon , substrate (aquarium) , germanium , antenna (radio) , semiconductor , nanotechnology , computer science , telecommunications , oceanography , geology

Midinfrared plasmonic sensing allows the direct targeting of unique vibrational fingerprints of molecules. While gold has been used almost exclusively so far, recent research has focused on semiconductors with the potential to revolutionize plasmonic devices. We fabricate antennas out of heavily doped Ge films epitaxially grown on Si wafers and demonstrate up to 2 orders of magnitude signal enhancement for the molecules located in the antenna hot spots compared to those located on a bare silicon substrate. Our results set a new path toward integration of plasmonic sensors with the ubiquitous CMOS platform.

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