2017
DOI: 10.1038/srep44069
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Tunable Nanoantennas for Surface Enhanced Infrared Absorption Spectroscopy by Colloidal Lithography and Post-Fabrication Etching

Abstract: We fabricated large-area metallic (Al and Au) nanoantenna arrays on Si substrates using cost-effective colloidal lithography with different micrometer-sized polystyrene spheres. Variation of the sphere size leads to tunable plasmon resonances in the middle infrared (MIR) range. The enhanced near-fields allow us to detect the surface phonon polaritons in the natural SiO2 thin layers. We demonstrated further tuning capability of the resonances by employing dry etching of the Si substrates with the nanoantennas a… Show more

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Cited by 37 publications
(25 citation statements)
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References 42 publications
(61 reference statements)
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“… 4 7 Besides their extensive applications at visible and near-infrared frequencies, engineered nanoplasmonic structures deliver unique possibilities for biomolecular studies with ultrasensitive surface-enhanced infrared absorption spectroscopy based on the distinct molecular vibrations in the mid-infrared (mid-IR) range. 8 12 The mid-IR vibrational signatures of molecules correspond to chemical bonds among their constituent elements and therefore enable nondestructive and label-free characterization. By providing orders of magnitude signal enhancement of these chemical fingerprints, engineered metallic nanostructures represent promising systems for sensitive detection of biomolecules and provide the means to overcome the limitations of conventional infrared absorption spectroscopy.…”
mentioning
confidence: 99%
“… 4 7 Besides their extensive applications at visible and near-infrared frequencies, engineered nanoplasmonic structures deliver unique possibilities for biomolecular studies with ultrasensitive surface-enhanced infrared absorption spectroscopy based on the distinct molecular vibrations in the mid-infrared (mid-IR) range. 8 12 The mid-IR vibrational signatures of molecules correspond to chemical bonds among their constituent elements and therefore enable nondestructive and label-free characterization. By providing orders of magnitude signal enhancement of these chemical fingerprints, engineered metallic nanostructures represent promising systems for sensitive detection of biomolecules and provide the means to overcome the limitations of conventional infrared absorption spectroscopy.…”
mentioning
confidence: 99%
“…Biosensors derived from nanomaterials have excellent potential for clinical diagnosis and monitoring of cancer . Among the various nanobiosensor types, plasmonic or SPR‐based biosensors offer real time detection of cancer biomarkers due to their many outstanding characteristics such as cost‐efficiency, high sensitivity, label‐free detection, and excellent accuracy . Au and Ag NPs have been explored for SPR‐based tumor recognition due to their high SPR amplitude and other desirable properties (e.g., single molecule detection capability, chemical inertness, biocompatibility, affinity toward specific functional groups, for example, amines/thiols) .…”
Section: Nanomaterial‐based Cancer Sensing Systemsmentioning
confidence: 99%
“…With the continuous advancement in nano-lithographic technology, different fabrication techniques have been employed. These include electron beam lithography (EBL), focused ion beam (FIB) milling, nano-imprint lithography (NIL) [ 34 ], and colloidal lithography [ 94 ].…”
Section: Device Fabricationmentioning
confidence: 99%