Fabrication of Square-Centimeter Plasmonic Nanoantenna Arrays by Femtosecond Direct Laser Writing Lithography: Effects of Collective Excitations on SEIRA Enhancement

Bagheri, Shahin; Weber, Ksenia; Gissibl, Timo; Weiß, Thomas; Neubrech, Frank; Gießen, Harald

doi:10.1021/acsphotonics.5b00141

Cited by 119 publications

(131 citation statements)

References 47 publications

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“…The mm 2 arrays demonstrated uniform reflectivity over the whole area (inset of figure 10) with a writing time of 4min/mm 2 (for 2μm long Au antennas and Px=Py=4μm) -three times faster than the writing time of devices with similar array parameters written with single-beam research-level standard EBL system (eLINE, Raith, with 20μm aperture and 20kV beam). A ten-times increase in the throughput over such EBL systems may be achieved with better optimization of the writing parameters, as demonstrated in 16 .…”

Section: Writing Configurationsmentioning

confidence: 99%

“…Two notable examples for such detection methods are surface enhanced Raman scattering (SERS) 1-4 , and surface enhanced infrared absorption (SEIRA) [4][5][6][7][8][9][10][11][12][13][14][15][16] . In SEIRA spectroscopy, metallic and dielectric nanoantennas that exhibit plasmonic resonances in the Infra-Red (IR) regime are used to intensify the IR absorption signal of known vibrational modes of molecules, so that even small amount of analytes can be identified [4][5][6][7][8][9][10][11][12][13][14][15][16] . The improved detection originates from the excitation of localized surface plasmon resonances (LSPRs) -charge oscillations on the surface of the nano-structured surface -which give rise to a strong local electric field at the vicinity of the nanostructures and enhanced coupling between the textured surface and the vibrational modes of the adsorbed molecules.…”

Section: Introductionmentioning

confidence: 99%

“…A Two-Photon Polymerization (TPP) direct laser writing (DLW) technique 16,23,24 has been demonstrated recently as a fast route for fabricating multi-millimetres arrays of nano-antennas for sensing applications in the IR spectral region, with an ultimate flexibility in structures design and fast writing speed. For example, Bagheri et.…”

mentioning

confidence: 99%

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Versatile Direct Laser Writing Lithography Technique for Surface Enhanced Infrared Spectroscopy Sensors

Braun

Maier

2016

ACS Sens.

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A challenge for design, testing and fabrication of nano-structured chemical sensors is the fabrication of mm 2 size arrays of nano-structures in a reasonable time. Herein, we introduce and show how direct laser writing (DLW) in positive-tone photo-resists, followed by lift-off process can be used for fast fabrication (up to three-times faster than comparable Electron Beam lithography system) of arrays of nano-scale plasmonic structures with a great level of control over the design and dimensions of the nano-structures. We demonstrate the function of nano-structured arrays, fabricated by various DLW approaches, with surface enhanced infra-red absorption (SEIRA) detection of nine vibrational modes of PMMA. We also discuss the tunability of the plasmonic resonance -and hence the spectral detection range -by alteration of the size and array parameters of the nanostructures, and demonstrate the flexibility of this fabrication method by showing devices made of various substrate and antennas materials. KeywordsChemical detection, SEIRA , Plasmonic sensors, Direct laser writing, Nano-fabrication When adsorbed near or on nano-structured metal surfaces, molecules can demonstrate a remarkable change in their optical properties with applications in surface enhanced spectroscopies. Two notable examples for such detection methods are surface enhanced Raman scattering (SERS) 1-4 , and surface enhanced infrared absorption (SEIRA) [4][5][6][7][8][9][10][11][12][13][14][15][16] . In SEIRA spectroscopy, metallic and dielectric nanoantennas that exhibit plasmonic resonances in the Infra-Red (IR) regime are used to intensify the IR absorption signal of known vibrational modes of molecules, so that even small amount of analytes can be identified [4][5][6][7][8][9][10][11][12][13][14][15][16] . The improved detection originates from the excitation of localized surface plasmon resonances (LSPRs) -charge oscillations on the surface of the nano-structured surface -which give rise to a strong local electric field at the vicinity of the nanostructures and enhanced coupling between the textured surface and the vibrational modes of the adsorbed molecules. The enhancement is strongest when the plasmonic resonance of the nano-structures matches the spectral position of the vibrational fingerprints. This implies that that the spectral range at which improved detection is possible and the enhancement factor of the chemical sensor depend on sensor materials 12,15,16 (both of the nanostructures and the substrate), and the shape 13,14,[17][18][19] and dimensions of individual structures 8,12,16,18 and the spacing between them 10 .

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Section: Writing Configurationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Versatile Direct Laser Writing Lithography Technique for Surface Enhanced Infrared Spectroscopy Sensors

Braun

Maier

2016

ACS Sens.

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“…But this is not the end of the story. The SEIRA effect can be enhanced by using specifically tailored nano-antennas, where enhancement factors up to 10,000 are reported [21]. Optimized nano-antennas with an optimized SEIRA effect, bio-functionalization of these antennas to avoid unspecific binding, and monitoring of film thickness growth by RIfS interference can be combined as a potential means to identify and quantify large molecules or even bacteria in an aqueous system.…”

Section: Resultsmentioning

confidence: 99%

Surface-enhanced infrared absorption studies towards a new optical biosensor

Leidner

Stab

Adam

et al. 2016

Beilstein J. Nanotechnol.

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Reflectometric interference spectroscopy (RIfS), which is well-established in the visual regime, measures the optical thickness change of a sensitive layer caused, e.g., by binding an analyte. When operated in the mid-infrared range the sensor provides additional information via weak absorption spectra (fingerprints). The originally poor spectra are magnified by surface-enhanced infrared absorption (SEIRA). This is demonstrated using the broad complex fluid water band at 3300 cm−1, which is caused by superposition of symmetric, antisymmetric stretching vibration, and the first overtone of the bending vibration under the influence of H-bonds and Fermi resonance effect. The results are compared with a similar experiment performed with an ATR (attenuated total reflectance) set-up.

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“…Another approach for the fast fabrication of arrays of linear nanoantennas is femtosecond direct laser writing lithography [81]. The authors were able to produce highquality large-area substrates with this method.…”

Section: Linear Nanoantennasmentioning

confidence: 99%

Periodic array-based substrates for surface-enhanced infrared spectroscopy

Mayerhöfer

Popp

2017

Nanophotonics

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At the beginning of the 1980s, the first reports of surface-enhanced infrared spectroscopy (SEIRS) surfaced. Probably due to signal-enhancement factors of only 10 1 to 10 3 , which are modest compared to those of surface-enhanced Raman spectroscopy (SERS), SEIRS did not reach the same significance up to date. However, taking the compared to Raman scattering much larger crosssections of infrared absorptions and the enhancement factors together, SEIRS reaches about the same sensitivity for molecular species on a surface in terms of the crosssections as SERS and, due to the complementary nature of both techniques, can valuably augment information gained by SERS. For the first 20 years since its discovery, SEIRS relied completely on metal island films, fabricated by either vapor or electrochemical deposition. The resulting films showed a strong variance concerning their structure, which was essentially random. Therefore, the increase in the corresponding signal-enhancement factors of these structures stagnated in the last years. In the very same years, however, the development of periodic array-based substrates helped SEIRS to gather momentum. This development was supported by technological progress concerning electromagnetic field solvers, which help to understand plasmonic properties and allow targeted design. In addition, the strong progress concerning modern fabrication methods allowed to implement these designs into practice. The aim of this contribution is to critically review the development of these engineered surfaces for SEIRS, to compare the different approaches with regard to their performance where possible, and report further gain of knowledge around and in relation to these structures.

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Fabrication of Square-Centimeter Plasmonic Nanoantenna Arrays by Femtosecond Direct Laser Writing Lithography: Effects of Collective Excitations on SEIRA Enhancement

Cited by 119 publications

References 47 publications

Versatile Direct Laser Writing Lithography Technique for Surface Enhanced Infrared Spectroscopy Sensors

Versatile Direct Laser Writing Lithography Technique for Surface Enhanced Infrared Spectroscopy Sensors

Surface-enhanced infrared absorption studies towards a new optical biosensor

Periodic array-based substrates for surface-enhanced infrared spectroscopy

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