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Plasmonic Signal Enhancements Using Randomly Distributed Nanoparticles On A Stochastic Nanostructure Substrate

Hyerin Song, Jong Ryul Choi, Wonju Lee, Dong-Myeong Shin, D. Kim, D. Lee, Kyujung Kim
Published 2016 · Materials Science

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ABSTRACT The surface-enhanced Raman spectrum was investigated through a numerical model and experiments constructed based on the stochastic Ag nanoislands (AgNIs) substrate. By a rigorous coupled-wave analysis (RCWA) method, the basic properties of electric field were calculated for numerical analysis. The plasmonic coupling between Au nanoparticles (AuNPs) and AgNI substrate was optimized by changing the position of AuNPs on the Ag nanostructured substrate. Furthermore, we experimentally confirmed that AgNIs substrate enable that the intensity of Raman spectra were dramatically improved up to ∼20-fold compared to that of a silver thin film as we expected in numerical calculations. The results gained in this work suggest that we could significantly enhance the Raman signal using easily fabricable AgNI substrates, and can provide the potential applications, such as food, pharmaceutical, and security inspections.
This paper references
10.1002/adma.201103807
Plasmon-enhanced sub-wavelength laser ablation: plasmonic nanojets.
Ventsislav K. Valev (2012)
10.1007/s00216-009-2864-z
Surface-enhanced Raman spectroscopy
J. Popp (2009)
10.1016/J.SNB.2012.05.064
Surface-enhanced Raman scattering on gold nanorod pairs with interconnection bars of different widths
W. Yue (2012)
10.1016/j.bios.2013.08.008
Self-aligned colocalization of 3D plasmonic nanogap arrays for ultra-sensitive surface plasmon resonance detection.
Youngjin Oh (2014)
10.1038/nnano.2013.122
Single-molecule detection: Breaking the concentration barrier.
P. Tinnefeld (2013)
10.1364/OE.14.012419
Nanowire-based enhancement of localized surface plasmon resonance for highly sensitive detection: a theoretical study.
Kyujung Kim (2006)
10.1021/nn900102j
Plasmon near-field coupling in metal dimers as a step toward single-molecule sensing.
S. Aćimović (2009)
10.1016/S0925-4005(98)00219-6
Periodically structured metallic substrates for SERS
M. Kahl (1998)
10.1016/J.SNB.2013.11.097
The surface-enhanced Raman scattering from ZnO nanorod arrays and its application for chemosensors
X. Wang (2014)
10.1021/nl501695c
Wide field super-resolution surface imaging through plasmonic structured illumination microscopy.
Feifei Wei (2014)
10.1039/c3nr02924g
Hot spots in different metal nanostructures for plasmon-enhanced Raman spectroscopy.
H. Wei (2013)
10.1007/s00216-009-2637-8
Label-free technologies for quantitative multiparameter biological analysis
Abraham J. Qavi (2009)
10.1007/s00216-014-8069-0
Relating surface-enhanced Raman scattering signals of cells to gold nanoparticle aggregation as determined by LA-ICP-MS micromapping
T. Büchner (2014)
10.1021/NL0701612
Sensing characteristics of NIR localized surface plasmon resonances in gold nanorings for application as ultrasensitive biosensors.
E. M. Larsson (2007)
Surface plasmon subwavelength optics. Nature 424:824–830
W. L. Barnes (2003)
10.1038/nnano.2009.353
Label-free biomarker detection from whole blood
E. Stern (2010)
10.1364/AO.49.000484
Surface-enhanced plasmon resonance detection of nanoparticle-conjugated DNA hybridization.
Seyoung Moon (2010)
10.1088/0957-4484/14/10/308
Biofunctionalized nanoarrays of inorganic structures prepared by dip-pen nanolithography
H. Zhang (2003)
10.1021/nl103025u
An optofluidic nanoplasmonic biosensor for direct detection of live viruses from biological media.
A. A. Yanik (2010)
10.1007/S10043-009-0040-5
Influence of groove depth and surface profile on fluorescence enhancement by grating-coupled surface plasmon resonance
Hironobu Hori (2009)
10.1364/AO.49.000887
High resolution imaging of patterned model biological membranes by localized surface plasmon microscopy.
K. Watanabe (2010)
10.1039/c2an36478f
Amide I vibrational mode suppression in surface (SERS) and tip (TERS) enhanced Raman spectra of protein specimens.
D. Kurouski (2013)
10.1039/c6an90064j
Surface-enhanced Raman scattering.
D. Graham (2016)
10.1021/J100166A025
Determination of vanadium-oxygen bond distances and bond orders by Raman spectroscopy
F. D. Hardcastle (1991)
10.1038/nature01937
Surface plasmon subwavelength optics
W. Barnes (2003)
10.1016/S0925-9635(01)00730-0
Determination of bonding in diamond-like carbon by Raman spectroscopy
A. Ferrari (2002)
10.1039/c0nr00201a
Label-free biological and chemical sensors.
H. K. Hunt (2010)
10.1364/OL.35.003501
Plasmonics-based spatially activated light microscopy for super-resolution imaging of molecular fluorescence.
Kyujung Kim (2010)
10.1038/srep12555
Tunable Dipole Surface Plasmon Resonances of Silver Nanoparticles by Cladding Dielectric Layers
Xiaotong Liu (2015)
10.1016/j.bios.2008.10.016
Nanoimprinted optical fibres: Biotemplated nanostructures for SERS sensing
G. Kostovski (2008)
10.1364/OE.17.020991
Light-extraction enhancement of red AlGaInP light-emitting diodes with antireflective subwavelength structures.
Y M Song (2009)
Wide field superresolution surface imaging through plasmonic structured illumination microscopy
F. Wei (2014)
10.1366/11-06365
Surface-Enhanced Raman Scattering (SERS) and Surface-Enhanced Resonance Raman Scattering (SERRS): A Review of Applications
Graeme McNay (2011)
10.1002/smll.200701135
Individual nanometer hole-particle pairs for surface-enhanced Raman scattering.
H. Wei (2008)
10.1021/CR980133R
Ultrasensitive chemical analysis by Raman spectroscopy.
K. Kneipp (1999)
10.1038/NPHOTON.2009.187
Large single-molecule fluorescence enhancements produced by a bowtie nanoantenna
A. Kinkhabwala (2009)
10.1088/0957-4484/20/1/015202
Nanograting-based plasmon enhancement for total internal reflection fluorescence microscopy of live cells.
Kyujung Kim (2009)
10.1039/b708459p
SERS--a single-molecule and nanoscale tool for bioanalytics.
J. Kneipp (2008)
10.1364/OE.17.008669
SERS enhancements via periodic arrays of gold nanoparticles on silver film structures.
J. M. Montgomery (2009)
10.1021/ja905134d
Gold nanoparticle based label-free SERS probe for ultrasensitive and selective detection of trinitrotoluene.
Samuel S. R. Dasary (2009)



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10.1117/12.2250745
Gap plasmonic effects of gold nanoparticles on metallic film
Hyerin Song (2017)
10.1016/j.rinp.2020.103155
Effect of radio frequency power on nano-metal induced self-masking subwavelength structures mechanism
Xiheng Hu (2020)
10.1038/s41598-017-12053-8
Plasmon-Coupled Whispering Gallery Modes on Nanodisk Arrays for Signal Enhancements
T. Y. Kang (2017)
10.1364/oe.27.029168
Experimental confirmation of plasmonic field cancellation under specific conditions of trapezoidal nanopatterns.
T. Y. Kang (2019)
10.1186/s40580-016-0090-x
Current achievements of nanoparticle applications in developing optical sensing and imaging techniques
J. Choi (2016)
10.3390/s18010098
A Localized Surface Plasmon Resonance Sensor Using Double-Metal-Complex Nanostructures and a Review of Recent Approaches
Heesang Ahn (2018)
10.1080/05704928.2018.1467440
3D-assembled Ag nanowires for use in plasmon-enhanced spectroscopic sensors
Sung-Gyu Park (2019)
10.1080/05704928.2018.1467437
Manipulation of light at the nanoscale for high-performance spectroscopic and optical applications
Hyerin Song (2019)
10.1016/J.JPCS.2018.11.022
Geometrical effects on the surface plasmonic resonance by highly ordered Au nanostructures
S. Park (2019)
10.1038/s41598-018-36990-0
Intermolecular distance measurement with TNT suppressor on the M13 bacteriophage-based Förster resonance energy transfer system
I. Kim (2019)
10.1080/05704928.2017.1328425
Exploring the use of impedance spectroscopy in relaxation and electrochemical studies
Dong-Myeong Shin (2018)
10.1080/05704928.2017.1324877
Emerging optical spectroscopy techniques for biomedical applications—A brief review of recent progress
Heesang Ahn (2018)
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