Photoluminescence control by hyperbolic metamaterials and metasurfaces: a review

Beliaev, Leonid Yu.; Takayama, Osamu; Melentiev, Pavel N.; Lavrinenko, Andrei V.

doi:10.29026/oea.2021.210031

Cited by 31 publications

(13 citation statements)

References 172 publications

(158 reference statements)

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“…The existence of these unwanted signals degrades the quality of optical microscopic images. The photoluminescence (PL) signal − from MoS 2 forms a constant background pattern in the fluorescence image (Figures d, S4, and S5), thus reducing the precision of localizing the photoswitchable dye molecule, AF647, labeled on the adsorbed HAFs at different structural features. The reconstructed dSTORM images in the presence of the constant background pattern (Figure g,j) include many falsely localized molecular positions.…”

Section: Resultsmentioning

confidence: 99%

Resolving the Heterogeneous Adsorption of Antibody Fragment on a 2D Layered Molybdenum Disulfide by Super-Resolution Imaging

et al. 2022

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The development of nanomaterials such as twodimensional (2D) layered materials advanced applications in many fields, including biosensors format based on field-effect transistors. The unique physical and chemical properties of 2D layered materials enable the detection limit of biomolecules as low as ∼1 pg/mL. The majority of 2D layered materials contain different structural features and defects introduced in chemical synthesis and fabrication processing. These structural features have different physicochemical properties, causing heterogeneous adsorption of bioreceptors like antibodies, enzymes, etc. Understanding the correlation between the adsorption of bioreceptors and properties of structural features is essential for building highly efficient, sensitive biosensors based on 2D layered materials. Here, we utilize a single-molecule localization-based super-resolved fluorescence imaging method to unveil the inhomogeneous adsorption of antibody fragments on 2D layered molybdenum disulfide (MoS 2 ). The surface coverage of antibody fragments on MoS 2 thin flakes is quantitatively measured and compared at different structural features and different layer thicknesses. The methodology in the current work can be extended to study bioreceptor adsorption on other types of 2D layered materials and pave a way to improve biosensors' sensitivity based on defect engineering 2D layered materials.

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Section: Resultsmentioning

confidence: 99%

Resolving the Heterogeneous Adsorption of Antibody Fragment on a 2D Layered Molybdenum Disulfide by Super-Resolution Imaging

et al. 2022

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“…Polarization holography adds the polarization information of light as a modulation dimension to the holographic storage, which can increase the information storage density. As per research in recent years [ 66 ], polarization holography is a good candidate to replace the existing micro–nano technology [ 67 ], for the manufacture of light field control elements [ 68 , 69 ], and for the manufacture of metamaterials [ 70 ]. The polarization characteristics of the PQ/PMMA photopolymer originate from the optical anisotropy within the material, and we will describe its measurement optical path in detail in Section 7 .…”

Section: Applications Of Pq/pmma Photopolymersmentioning

confidence: 99%

Phenanthraquinone-Doped Polymethyl Methacrylate Photopolymer for Holographic Recording

Zeng

et al. 2022

Molecules

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Phenanthraquinone-doped polymethyl methacrylate (PQ/PMMA) photopolymers are considered to be the most promising holographic storage media due to their unique properties, such as high stability, a simple preparation process, low price, and volumetric shrinkage. This paper reviews the development process of PQ/PMMA photopolymers from inception to the present, summarizes the process, and looks at the development potential of PQ/PMMA in practical applications.

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“…Photoluminescence (PL) intensity. The photoluminescence (PL) is the light emission from materials [ 174 ]. The PL from a SiN x membrane covers a spectral range from UV to IR [ 175 , 176 , 177 ].…”

Section: Localized Nanopore Fabrication By Cbdmentioning

confidence: 99%

Localized Nanopore Fabrication via Controlled Breakdown

Ying

et al. 2022

Nanomaterials

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Nanopore sensors provide a unique platform to detect individual nucleic acids, proteins, and other biomolecules without the need for fluorescent labeling or chemical modifications. Solid-state nanopores offer the potential to integrate nanopore sensing with other technologies such as field-effect transistors (FETs), optics, plasmonics, and microfluidics, thereby attracting attention to the development of commercial instruments for diagnostics and healthcare applications. Stable nanopores with ideal dimensions are particularly critical for nanopore sensors to be integrated into other sensing devices and provide a high signal-to-noise ratio. Nanopore fabrication, although having benefited largely from the development of sophisticated nanofabrication techniques, remains a challenge in terms of cost, time consumption and accessibility. One of the latest developed methods—controlled breakdown (CBD)—has made the nanopore technique broadly accessible, boosting the use of nanopore sensing in both fundamental research and biomedical applications. Many works have been developed to improve the efficiency and robustness of pore formation by CBD. However, nanopores formed by traditional CBD are randomly positioned in the membrane. To expand nanopore sensing to a wider biomedical application, controlling the localization of nanopores formed by CBD is essential. This article reviews the recent strategies to control the location of nanopores formed by CBD. We discuss the fundamental mechanism and the efforts of different approaches to confine the region of nanopore formation.

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Photoluminescence control by hyperbolic metamaterials and metasurfaces: a review

Cited by 31 publications

References 172 publications

Resolving the Heterogeneous Adsorption of Antibody Fragment on a 2D Layered Molybdenum Disulfide by Super-Resolution Imaging

Resolving the Heterogeneous Adsorption of Antibody Fragment on a 2D Layered Molybdenum Disulfide by Super-Resolution Imaging

Phenanthraquinone-Doped Polymethyl Methacrylate Photopolymer for Holographic Recording

Localized Nanopore Fabrication via Controlled Breakdown

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