# Ultraprecise Detection of Low Molecular Weight Antibodies Using Mid-IR   Toroidal Plasmonic Meta-Atoms

**Authors:** Burak Gerislioglu, Zeinab Ramezani, S. Amir Ghoreishi, and Arash, Ahmadivand

arXiv: 1904.02770 · 2019-04-08

## TL;DR

This paper presents a novel mid-infrared plasmonic metasurface platform utilizing toroidal resonances for ultraprecise detection of low molecular weight antibodies and antibiotics at attomolar concentrations.

## Contribution

It introduces a new sensing approach based on toroidal plasmonic metastructures for label-free, ultrasensitive biological detection in the mid-IR range.

## Key findings

- Detection of biological targets with ~0.6 KDa weight
- Achieved attomolar concentration sensitivity
- Validated sensing of specific antibiotics

## Abstract

Plasmonic metamaterials can be used to enhance mid-infrared sensors and detectors for immunosensing applications. The major challenge is to integrate these technologies in low-cost, compact, and promising platforms. In this study, as an emerging approach, we utilized toroidal resonant plasmonic metasurfaces to develop an ultrasensitive label-free analytical platform for the detection of specific antibiotics in the mid-IR regime. Taking advantage of unique sensitivity of robustly squeezed electromagnetic fields in toroidal meta-atoms, we validated that our proposed technique based on toroidal metastructures can provide sensing of biological targets with the weight of ~0.6 KDa at attomolar concentrations. We believe that this understanding extends the capabilities of plasmonic metamaterials analyze the presence of specific biological targets with high precision.

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Source: https://tomesphere.com/paper/1904.02770