Detection of Polystyrene Microplastic Particles in Water Using Surface-Functionalized Terahertz Microfluidic Metamaterials

Park, S. J.; Ahn, Y. H.

doi:10.3390/app12147102

Cited by 9 publications

(3 citation statements)

References 41 publications

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“…For instance, Park et al 117 presented the innovative use of poly- l -lysine (PLL) in conjunction with a terahertz (THz) metamaterial sensor for the detection of microplastic (MP) particles. This approach exploits the unique properties of PLL and the capabilities of THz metamaterials to achieve sensitive and specific detection.…”

Section: Nanomaterials Based Electrochemical Sensors For Npl Residues...mentioning

confidence: 99%

Nanomaterial-based electrochemical chemo(bio)sensors for the detection of nanoplastic residues: trends and future prospects

Jebril,

Fredj,

Saeed

et al. 2024

RSC Sustain.

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Section: Nanomaterials Based Electrochemical Sensors For Npl Residues...mentioning

confidence: 99%

Nanomaterial-based electrochemical chemo(bio)sensors for the detection of nanoplastic residues: trends and future prospects

Jebril,

Fredj,

Saeed

et al. 2024

RSC Sustain.

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“…Apart from these systems, advanced methodologies including terahertz metamaterials have also been incorporated in MPs–oriented microfluidic research. In another MP detection study, rectangular ring-shaped wells with a width of 3 µm and a depth of 10 µm were fabricated inside the channels of a microfluidic system [ 77 ]. PS with different solution densities (2 × 10 8 , 1 × 10 9 , 3 × 10 9 , and 6 × 10 9 g/mL) were created and accumulated in the wells through interaction with hexamethyldisilazane (HMDS), which was coated on the surface of the wells.…”

Section: Detection Strategies For Mps Integrating Microfluidicsmentioning

confidence: 99%

Microfluidics as a Ray of Hope for Microplastic Pollution

2023

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Microplastic (MP) pollution is rising at an alarming rate, imposing overwhelming problems for the ecosystem. The impact of MPs on life and environmental cycles has already reached a point of no return; yet global awareness of this issue and regulations regarding MP exposure could change this situation in favor of human health. Detection and separation methods for different MPs need to be deployed to achieve the goal of reversing the effect of MPs. Microfluidics is a well-established technology that enables to manipulate samples in microliter volumes in an unprecedented manner. Owing to its low cost, ease of operation, and high efficiency, microfluidics holds immense potential to tackle unmet challenges in MP. In this review, conventional MP detection and separation technologies are comprehensively reviewed, along with state-of-the-art examples of microfluidic platforms. In addition, we herein denote an insight into future directions for microfluidics and how this technology would provide a more efficient solution to potentially eradicate MP pollution.

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“…Surface plasmon resonance (SPR) is the phenomenon of EM wave coupling to an SPP wave. Regardless of technique, SPRs amplify and confine EM field and have been widely used in photonic devices for a variety of purposes, most notably biosensing [2][3][4][5][6][7].…”

Section: Introductionmentioning

confidence: 99%

An ultrathin and flexible terahertz electromagnetically induced transparency-like metasurface based on asymmetric resonators

et al. 2023

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Terahertz (THz) electromagnetically induced transparency-like (EIT-like) metasurfaces have been extensively explored and frequently used for sensing, switching, slow light, and enhanced nonlinear effects. Reducing radiation and non-radiation losses in EIT-like systems contributes to increased electromagnetic (EM) field confinement, higher transmission peak magnitude, and Q-factor. This can be accomplished by the use of proper dielectric properties and engineering novel designs. Therefore, we fabricated a THz EIT-like metasurface based on asymmetric metallic resonators on an ultra-thin and flexible dielectric substrate. Because the quadruple mode is stimulated in a closed loop, an anti-parallel surface current forms, producing a transparency window with a transmission peak magnitude of 0.8 at 1.96 THz. To control the growing trend of EIT-like resonance, the structure was designed with four asymmetry levels. The effect of the substrate on the resonance response was also explored, and we demonstrated experimentally how the ultra-thin substrate and the metasurface asymmetric novel pattern contributed to higher transmission and lower loss.

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Detection of Polystyrene Microplastic Particles in Water Using Surface-Functionalized Terahertz Microfluidic Metamaterials

Cited by 9 publications

References 41 publications

Nanomaterial-based electrochemical chemo(bio)sensors for the detection of nanoplastic residues: trends and future prospects

Nanomaterial-based electrochemical chemo(bio)sensors for the detection of nanoplastic residues: trends and future prospects

Microfluidics as a Ray of Hope for Microplastic Pollution

An ultrathin and flexible terahertz electromagnetically induced transparency-like metasurface based on asymmetric resonators

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