Dual‐Region Resonant Meander Metamaterial

Manjunath, Shridhar; Liu, Mingkai; Raj, Vidur; Aoni, Rifat Ahmmed; Powell, David A.; Shadrivov, Ilya V.; Rahmani, Mohsen

doi:10.1002/adom.201901658

Cited by 7 publications

(5 citation statements)

References 72 publications

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“…[27][28][29][30] On the other hand, the spectral tunability is an important factor affecting the performance of the MM. A single dual-region MM based on meander line resonators has been reported by Manjunath et al 31 The MM produced in this work can be functional in both THz and NIR frequencies simultaneously. Although the THz resonant frequency can be adjusted by increasing the gap between meta-atoms while having a negligible impact on the NIR transmission spectrum, the NIR resonant frequency cannot be tuned independently without affecting the THz response.…”

Section: Introductionmentioning

confidence: 68%

Independently tunable all-dielectric synthetic multi-spectral metamaterials based on Mie resonance

et al. 2022

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Section: Introductionmentioning

confidence: 68%

Independently tunable all-dielectric synthetic multi-spectral metamaterials based on Mie resonance

et al. 2022

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“…Conventional metamaterials can achieve the resonant response and can be operated at a combination of dual and triple‐band. [ 12 , 27 , 28 , 29 , 30 , 31 ] They are designed for a specific application, due to the difficulty and low flexibility of adapting their functions once fabricated. Therefore, it is challenging to fabricate metamaterials with a single type of meta‐atom with ultra‐broadband adaptability in controlling EM waves, due to the huge diversity between the critical subwavelength feature sizes of the artificial atom.…”

Section: Discussionmentioning

confidence: 99%

“…[ 7 , 8 , 9 ] However, the critical feature sizes of meta‐atom spans serval orders of magnitude in length scale, from few nanometers to tens of centimeters, almost all the metamaterials are designed to operate at a specific frequency, [ 10 ] a narrow band, [ 11 ] or a combination of dual and triple‐band. [ 12 , 13 ] Nevertheless, once the metamaterials are fabricated, their functions will be fixed or have only a limited adjustable range. Therefore, it is challenging to fabricate metamaterials with a single type of meta‐atom with ultra‐broadband adaptability in controlling EM waves.…”

Section: Introductionmentioning

confidence: 99%

Cross‐Wavelength Hierarchical Metamaterials Enabled for Trans‐Scale Molecules Detection Simultaneously

Wang

Dai

et al. 2022

Advanced Science

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Metamaterials have attracted increasing attention in sensing applications. However, the critical feature sizes of meta‐atom span several orders of magnitude in length scale, almost all the metamaterials are designed to operate at limited bands. It is challenging for a single type of meta‐atom with ultra‐broadband adaptability. Inspired by the natural hierarchical architectures, herein, the authors introduce a new constructing scheme of cross‐wavelength hierarchical metamaterials with a single type of meta‐atom that can realize enhancement of terahertz (THz) resonance and surface‐enhanced Raman scattering (SERS) at the same time. By combining multiple subwavelength structures at different hierarchical levels into a single meta‐atom, the obtained metamaterial can operate in two frequencies and realize multiple functionalities. Armed with this hierarchical metamaterial, detecting analytes as small as sub‐nanoscale chemical molecules or as big as microscale biomolecules simultaneously can be realized in one single metamaterial for the first time. As a proof‐of‐concept example, a smart sensory packaging is developed, which allowed them to real‐time monitor the kinetic growth of pathogenic bacteria and their metabolites in food without opening the packaging. They believe that their work will provide a valuable example that satisfies the unmet need for multiscale functional meta‐devices.

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“…Multi-spectral metasurfaces have been widely used in other fields, such as absorbers, resonators, and filters [32]. For example, Man-junath et al, presented a single dual-region metasurface based on meander line resonators, which can interact with near-infrared and THz waves at the same time [33]. Grant et al, reported a synthetic multi-spectral metasurface achieved through hybridizing optical plasmonic filtering with mid-IR and THz absorption, thereby manipulating radiation in multiple regions simultaneously [34].…”

Section: Introductionmentioning

confidence: 99%

Enhancing Multi-Spectral Fingerprint Sensing for Trace Explosive Molecules with All-Silicon Metasurfaces

Lin,

Xue,

Wang

et al. 2024

Nanomaterials

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Spectroscopy is a powerful tool to identify the specific fingerprints of analytes in a label-free way. However, conventional sensing methods face unavoidable barriers in analyzing trace-amount target molecules due to the difficulties of enhancing the broadband molecular absorption. Here, we propose a sensing scheme to achieve strong fingerprint absorption based on the angular-scanning strategy on an all-silicon metasurface. By integrating the mid-infrared and terahertz sensing units into a single metasurface, the sensor can efficiently identify 2,4-DNT with high sensitivity. The results reveal that the fingerprint peak in the enhanced fingerprint spectrum is formed by the linked envelope. It exhibits a significant enhancement factor exceeding 64-fold in the terahertz region and more than 55-fold in the mid-infrared region. Particularly, the corresponding identification limit of 2,4-DNT is 1.32 µg cm−2, respectively. Our study will provide a novel research idea in identifying trace-amount explosives and advance practical applications of absorption spectroscopy enhancement identification in civil and military security industries.

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Dual‐Region Resonant Meander Metamaterial

Cited by 7 publications

References 72 publications

Independently tunable all-dielectric synthetic multi-spectral metamaterials based on Mie resonance

Independently tunable all-dielectric synthetic multi-spectral metamaterials based on Mie resonance

Cross‐Wavelength Hierarchical Metamaterials Enabled for Trans‐Scale Molecules Detection Simultaneously

Enhancing Multi-Spectral Fingerprint Sensing for Trace Explosive Molecules with All-Silicon Metasurfaces

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