Nanofluidic terahertz metasensor for sensing in aqueous environment
The terahertz spectral region has received tremendous attention for label free chemical and biological sensing, due to the presence of molecular fingerprints, low energy characteristics, and remote sensing capabilities. However, a major hindrance for the realization of a high performance terahertz b...
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sg-ntu-dr.10356-829752023-02-28T19:31:15Z Nanofluidic terahertz metasensor for sensing in aqueous environment Shih, Kailing Pitchappa, Prakash Jin, Lin Chen, Chia-Hung Singh, Ranjan Lee, Chengkuo School of Physical and Mathematical Sciences Centre for Disruptive Photonic Technologies (CDPT) Terahertz Radiation DRNTU::Science::Physics Terahertz Time-domain Spectroscopy The terahertz spectral region has received tremendous attention for label free chemical and biological sensing, due to the presence of molecular fingerprints, low energy characteristics, and remote sensing capabilities. However, a major hindrance for the realization of a high performance terahertz bio-chemical sensor comes from the large absorption of terahertz waves by aqueous solution. Here, we overcome this limitation by confining the analyte-aqueous solution in a nanovolumetric fluidic chamber, integrated on metamaterial resonant cavities. The metamaterial resonators confine electromagnetic fields in extremely subwavelength space and hence allow for the enhanced interaction between the nanovolumetric analyte-aqueous solution and terahertz waves, while minimizing the absorption loss. We compare the sensing performance of split ring resonator and Fano resonator systems as metamaterial resonators. As a demonstration of chemical sensing, three alcoholic solutions with different concentrations were measured. Selective adenosine triphosphate (ATP) sensing capability was examined through ATP aptamer functionalization on gold metamaterials, where a decrease in the transmittance value was observed as the ATP concentration increased. The proposed sensing approach has the potential to be an effective tool for molecular analysis through exploiting the advantages offered by low energy terahertz, subwavelength metamaterial resonators and nanofluidic technologies. MOE (Min. of Education, S’pore) NMRC (Natl Medical Research Council, S’pore) Published version 2019-01-25T03:03:14Z 2019-12-06T15:09:21Z 2019-01-25T03:03:14Z 2019-12-06T15:09:21Z 2018 Journal Article Shih, K., Pitchappa, P., Jin, L., Chen, C. H., Singh, R., & Lee, C. (2018). Nanofluidic terahertz metasensor for sensing in aqueous environment. Applied Physics Letters, 113(7), 071105-. doi:10.1063/1.5041485 0003-6951 https://hdl.handle.net/10356/82975 http://hdl.handle.net/10220/47557 10.1063/1.5041485 en Applied Physics Letters © 2018 The Author(s). All rights reserved. This paper was published by AIP in Applied Physics Letters and is made available with permission of The Author(s). 5 p. application/pdf |
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Terahertz Radiation DRNTU::Science::Physics Terahertz Time-domain Spectroscopy Shih, Kailing Pitchappa, Prakash Jin, Lin Chen, Chia-Hung Singh, Ranjan Lee, Chengkuo Nanofluidic terahertz metasensor for sensing in aqueous environment |
| description |
The terahertz spectral region has received tremendous attention for label free chemical and biological sensing, due to the presence of molecular fingerprints, low energy characteristics, and remote sensing capabilities. However, a major hindrance for the realization of a high performance terahertz bio-chemical sensor comes from the large absorption of terahertz waves by aqueous solution. Here, we overcome this limitation by confining the analyte-aqueous solution in a nanovolumetric fluidic chamber, integrated on metamaterial resonant cavities. The metamaterial resonators confine electromagnetic fields in extremely subwavelength space and hence allow for the enhanced interaction between the nanovolumetric analyte-aqueous solution and terahertz waves, while minimizing the absorption loss. We compare the sensing performance of split ring resonator and Fano resonator systems as metamaterial resonators. As a demonstration of chemical sensing, three alcoholic solutions with different concentrations were measured. Selective adenosine triphosphate (ATP) sensing capability was examined through ATP aptamer functionalization on gold metamaterials, where a decrease in the transmittance value was observed as the ATP concentration increased. The proposed sensing approach has the potential to be an effective tool for molecular analysis through exploiting the advantages offered by low energy terahertz, subwavelength metamaterial resonators and nanofluidic technologies. |
| author2 |
School of Physical and Mathematical Sciences |
| author_facet |
School of Physical and Mathematical Sciences Shih, Kailing Pitchappa, Prakash Jin, Lin Chen, Chia-Hung Singh, Ranjan Lee, Chengkuo |
| format |
Article |
| author |
Shih, Kailing Pitchappa, Prakash Jin, Lin Chen, Chia-Hung Singh, Ranjan Lee, Chengkuo |
| author_sort |
Shih, Kailing |
| title |
Nanofluidic terahertz metasensor for sensing in aqueous environment |
| title_short |
Nanofluidic terahertz metasensor for sensing in aqueous environment |
| title_full |
Nanofluidic terahertz metasensor for sensing in aqueous environment |
| title_fullStr |
Nanofluidic terahertz metasensor for sensing in aqueous environment |
| title_full_unstemmed |
Nanofluidic terahertz metasensor for sensing in aqueous environment |
| title_sort |
nanofluidic terahertz metasensor for sensing in aqueous environment |
| publishDate |
2019 |
| url |
https://hdl.handle.net/10356/82975 http://hdl.handle.net/10220/47557 |
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1759858115398860800 |