Soenke Gruessing scite author profile

Soenke Gruessing

4Publications

6Citation Statements Received

0Citation Statements Given

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Affiliations

University of Kassel

Publications

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n-type Ge/Si antennas for THz sensing

et al. 2021

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Ge-on-Si plasmonics holds the promise for compact and low-cost solutions in the manipulation of THz radiation. We discuss here the plasmonic properties of doped Ge bow-tie antennas made with a low-point cost CMOS mainstream technology. These antennas display resonances between 500 and 700 GHz, probed by THz time domain spectroscopy. We show surface functionalization of the antennas with a thin layer of α-lipoic acid that red-shifts the antenna resonances by about 20 GHz. Moreover, we show that antennas protected with a silicon nitride cap layer exhibit a comparable red-shift when covered with the biolayer. This suggests that the electromagnetic fields at the hotspot extend well beyond the cap layer, enabling the possibility to use the antennas with an improved protection of the plasmonic material in conjunction with microfluidics.

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Modeling of plasmonic semiconductor THz antennas in square and hexagonal array arrangements

Gruessing

Witzigmann

Roemer

et al. 2020

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Quantitative protein sensing with germanium THz-antennas manufactured using CMOS processes

et al. 2022

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The development of a CMOS manufactured THz sensing platform could enable the integration of state-of-the-art sensing principles with the mixed signal electronics ecosystem in small footprint, low-cost devices. To this aim, in this work we demonstrate a label-free protein sensing platform using highly doped germanium plasmonic antennas realized on Si and SOI substrates and operating in the THz range of the electromagnetic spectrum. The antenna response to different concentrations of BSA shows in both cases a linear response with saturation above 20 mg/mL. Ge antennas on SOI substrates feature a two-fold sensitivity as compared to conventional Si substrates, reaching a value of 6 GHz/(mg/mL), which is four-fold what reported using metal-based metamaterials. We believe that this result could pave the way to a low-cost lab-on-a-chip biosensing platform.

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Biomolecule sensing in THz range with n-Ge/Si antennas

Chavarin

Wiciak

Hardt

et al. 2021

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