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Plasmonic Nanostructures for Surface-enhanced Raman Spectroscopy

Plasmonic Nanostructures for Surface-enhanced Raman Spectroscopy
Author: Ruiqian Jiang
Publisher:
Total Pages: 58
Release: 2014
Genre:
ISBN:
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In the last three decades, a large number of different plasmonic nanostructures have attracted much attention due to their unique optical properties. Those plasmonic nanostructures include nanoparticles, nanoholes and metal nanovoids. They have been widely utilized in optical devices and sensors. When the plasmonic nanostructures interact with the electromagnetic wave and their surface plasmon frequency match with the light frequency, the electrons in plasmonic nanostructures will resonate with the same oscillation as incident light. In this case, the plasmonic nanostructures can absorb light and enhance the light scattering. Therefore, the plasmonic nanostructures can be used as substrate for surface-enhanced Raman spectroscopy to enhance the Raman signal. Using plasmonic nanostructures can significantly enhance Raman scattering of molecules with very low concentrations. In this thesis, two different plasmonic nanostructures Ag dendrites and Au/Ag core-shell nanoparticles are investigated. Simple methods were used to produce these two plasmonic nanostructures. Then, their applications in surface enhanced Raman scattering have been explored. Ag dendrites were produced by galvanic replacement reaction, which was conducted using Ag nitrate aqueous solution and copper metal. Metal copper layer was deposited at the bottom side of anodic aluminum oxide (AAO) membrane. Silver wires formed inside AAO channels connected Ag nitrate on the top of AAO membrane and copper layer at the bottom side of AAO. Silver dendrites were formed on the top side of AAO. The second plasmonic nanostructure is Au/Ag core-shell nanoparticles. They were fabricated by electroless plating (galvanic replacement) reaction in a silver plating solution. First, electrochemically evolved hydrogen bubbles were used as template through electroless deposition to produce hollow Au nanoparticles. Then, the Au nanoparticles were coated with Cu shells in a Cu plating solution. In the following step, a AgCN based plating solution was used to replace Cu shell to form Au/Ag core-shell nanoparticles. These two plasmonic nanostructures were tested as substrates for Raman spectroscopy. It demonstrated that these plasmonic nanostructures could enhance Raman signal from the molecules on their surface. The results indicate that these plasmonic nanostructures could be utilized in many fields, such as such as biological and environmental sensors.

Surface Enhanced Raman Spectroscopy for Biophysical Applications

Surface Enhanced Raman Spectroscopy for Biophysical Applications
Author: Claudia Fasolato
Publisher: Springer
Total Pages: 155
Release: 2018-12-05
Genre: Science
ISBN: 3030035565
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The book explores the phenomenon of surface-enhanced Raman scattering (SERS), the huge amplification of Raman signal from molecules in the proximity of a metallic nanostructured surface, allowing readers to gain an in-depth understanding of the mechanisms affecting the spectroscopic response of SERS-active systems for effective applications. SERS spectroscopy is an ultrasensitive analytical technique with great potential for applications in the field of biophysics and nanomedicine. As examples, the author presents the design of nanocolloid-based SERS-active substrates for molecular sensing and of a folate-based SERS-active nanosensor capable of selectively interacting with cancer cells, enabling cancer diagnostics and therapy at the single-cell level. The author also suggests novel paths for the systematization of the SERS nanosystem design and experimental protocols to maximize sensitivity and reproducibility, which is essential when real-world biomedical applications are the goal of the study. With a combined approach, both fundamental and applied, and a detailed analysis of the state of the art, this book provides a valuable overview both for students new to SERS spectroscopy and for experts in the field.

Surface Enhanced Raman Spectroscopy

Surface Enhanced Raman Spectroscopy
Author: Sebastian Schlücker
Publisher: John Wiley & Sons
Total Pages: 97
Release: 2011-09-19
Genre: Science
ISBN: 3527633065
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Covering everything from the basic theoretical and practical knowledge to new exciting developments in the field with a focus on analytical and life science applications, this monograph shows how to apply surface-enhanced Raman scattering (SERS) for solving real world problems. From the contents: * Theory and practice of SERS * Analytical applications * SERS combined with other analytical techniques * Biophysical applications * Life science applications including various microscopies Aimed at analytical, surface and medicinal chemists, spectroscopists, biophysicists and materials scientists. Includes a Foreword by the renowned Raman spectroscopist Professor Wolfgang Kiefer, the former Editor-in-Chief of the Journal of Raman Spectroscopy.

Plasmonic Au Nanostructures for Surface-enhanced Raman Spectroscopy

Plasmonic Au Nanostructures for Surface-enhanced Raman Spectroscopy
Author: Xin Sun
Publisher:
Total Pages: 153
Release: 2013
Genre: Electronic dissertations
ISBN:
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Raman spectroscopy is a spectroscopic technique that provides rich structural information for identifying chemical species but finds limited applications owing to its low sensitivity. Surface-enhanced Raman spectroscopy (SERS) is capable of solving the issue of sensitivity by enormously amplifying the Raman signal through localized surface plasmon resonance (LSPR) that is induced by so-called plasmonic nanostructures. Since the inception of SERS in 1970s, significant efforts have been put in developing SERS-active substrates with high quality in terms of sensitivity, reliability, reproducibility, scalability, throughput, and cost. At present, however, SERS substrates with sufficiently high quality for both research activities and real-world applications have not stood out yet. In this dissertation, four types of plasmonic Au nanostructures will be reviewed with respects to fabrication, characterization, optimization, and evaluation for SERS applications. Firstly, faceted ZnO/Au nanonecklace arrays epitaxially grown on r-plane sapphire substrates by chemical vapor deposition and sputtering will be introduced. Secondly, Au nanoisland arrays prepared by repeated sputtering and post-deposition annealing will be presented. Thirdly, nanoporous Si/Au composites resulting from metal-assisted wet etching and sputtering will be reported. Lastly, we will present a novel plasma nanocoating technique that overcoats SiO2/Au SERS-active nanostructures with an ultra thin polymer layer, followed by the demonstration of benefits brought by such plasma nanocoating. The properties and growth mechanisms of above mentioned plasmonic Au nanostructures were investigated with scanning electron microscopy (SEM), atomic force microscopy (AFM), transmission electron microscopy (TEM), ellipsometry and contact angle analyzer. By correlating the enhancement of Raman signal with the experimental parameters, recipes for optimized plasmonic nanostructures were established. Furthermore, the applicability of these plasmonic Au nanostructures for SERS purposes was demonstrated by successfully detecting various chemical species at trace level. At the end of the dissertation, a brief summary on these four plasmonic Au nanostructures will be reviewed against the standards of high quality SERS substrates and corresponding recommendations will be proposed to further improve the SERS performance.

Principles and Clinical Diagnostic Applications of Surface-Enhanced Raman Spectroscopy

Principles and Clinical Diagnostic Applications of Surface-Enhanced Raman Spectroscopy
Author: Yuling Wang
Publisher: Elsevier
Total Pages: 465
Release: 2021-09-17
Genre: Science
ISBN: 012823198X
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Principles and Clinical Diagnostic Applications of Surface-Enhanced Raman Spectroscopy summarizes the principles of surface-enhanced Raman scattering/spectroscopy (SERS) and plasmonic nanomaterials for SERS, with a focus on SERS applications in clinical diagnostics. This book covers the key concepts from the fundamentals, materials, experimental aspects, and applications of SERS in clinical diagnostics with discussions on label-free/direct SERS assay, design and synthesis of SERS nanotags, SERS nanotags for point-of-care diagnostics, microfluidic SERS assay, and in vitro and in vivo sensing and imaging. Written by experts from around the world, this comprehensive volume showcases the recent progress of SERS applications in clinical diagnostics and helps readers understand when and how to use SERS in a clinical setting. Introduces the basics of SERS and suitable nanomaterials for SERS application Gives an overview of the cutting-edge research on SERS applications for clinical diagnosis, including the latest advances in our understanding of underlying principles to enable material design and clinical applications Gradually builds from the fundamental concepts to the applications of SERS for clinical diagnostics

Plasmonics and its Applications

Plasmonics and its Applications
Author: Grégory Barbillon
Publisher: MDPI
Total Pages: 196
Release: 2019-06-05
Genre: Technology & Engineering
ISBN: 3038979147
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Plasmonics is a rapidly developing field that combines fundamental research and applications ranging from areas such as physics to engineering, chemistry, biology, medicine, food sciences, and the environmental sciences. Plasmonics appeared in the 1950s with the discovery of surface plasmon polaritons. Plasmonics then went through a novel propulsion in the mid-1970s, when surface-enhanced Raman scattering was discovered. Nevertheless, it is in this last decade that a very significant explosion of plasmonics and its applications has occurred. Thus, this book provides a snapshot of the current advances in these various areas of plasmonics and its applications, such as engineering, sensing, surface-enhanced fluorescence, catalysis, and photovoltaic devices.

Recent Developments In Plasmon-supported Raman Spectroscopy: 45 Years Of Enhanced Raman Signals

Recent Developments In Plasmon-supported Raman Spectroscopy: 45 Years Of Enhanced Raman Signals
Author: Katrin Kneipp
Publisher: World Scientific
Total Pages: 513
Release: 2017-12-12
Genre: Science
ISBN: 1786344254
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Surface enhanced Raman scattering (SERS) might be one of the most impressive effects to demonstrate the power of plasmonic approaches in spectroscopy and became one of the 'triggers' for the rapidly emerging field of plasmonics.This book provides a review of some recent developments in SERS, such as tip enhanced Raman scattering (TERS), reports new experimental observations, sophisticated new SERS-active structures and substrates, new theoretical insight to explain the effect as well as exciting applications in various fields such as analytical science, biomedicine and nanotechnology.Written for graduate students and established researchers looking for inspiration for future work, its interdisciplinary nature makes the book suitable for readers in the fields of chemistry, physics, biology, medicine, nanotechnology and materials science.

Application of Novel Plasmonic Nanomaterials on SERS

Application of Novel Plasmonic Nanomaterials on SERS
Author: Grégory Barbillon
Publisher: MDPI
Total Pages: 98
Release: 2020-12-04
Genre: Science
ISBN: 3039439197
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Surface-enhanced Raman scattering (SERS) is a research technique that was discovered in the mid-1970s. SERS is a powerful and fast tool for analysis, which has a high detection sensitivity for a great number of chemical and biological molecules. However, it is in this last decade that a very significant explosion of the fabrication of highly sensitive SERS substrates has occurred using novel designs of plasmonic nanostructures and novel fabrication techniques of the latter, as well as new plasmonic materials and hybrid nanomaterials. Thus, this Special Issue is dedicated to reporting on the latest advances in novel plasmonic nanomaterials that are applied to the SERS domain. These developments are illustrated through several articles and reviews written by researchers in this field from around the world.

Synthesis of Complex Plasmonic Nanostructures for Applications in Surface-enhanced Raman Spectroscopy and Biomedicine

Synthesis of Complex Plasmonic Nanostructures for Applications in Surface-enhanced Raman Spectroscopy and Biomedicine
Author: Claire Margaret Cobley
Publisher:
Total Pages: 154
Release: 2010
Genre: Electronic dissertations
ISBN:
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This research centers around techniques to engineer the properties of noble-metal nanostructures for applications in surface-enhanced Raman spectroscopy (SERS) and biomedicine. Many of these potential applications are made possible by the strong localized surface plasmon resonance (LSPR) of noble-metal nanostructures, which is heavily influenced by the particle's morphology. The first part of this work focuses on the solution-phase synthesis of Ag nanostructures. In this section, I demonstrate the synthesis of Ag nanostructures with two different morphologies that are interesting for fundamental SERS studies: anisotropically truncated octahedrons and large, single-crystalline spheres. In both syntheses, control over etching was critical to morphological control. The second part of this work discusses galvanic replacement reactions, which can be used to create a variety of hollow, porous nanostructures whose LSPR can be tuned into the near infrared region, a spectral range particularly interesting for biomedical applications due to reduced light attenuation in soft tissue. In this section, I will describe how the nanostructures resulting from galvanic replacement reactions can be engineered by controlling the morphology of the Ag nanostructures used as templates or the metal salt(s) titrated during the reaction. Specifically, I will discuss how the use of template particles with non-uniform surfaces influences the final morphology and how the progression of a galvanic replacement reaction using two different precursors (e.g. HAuCl4 and Na2PdC14) depends strongly on the order that they are added. In the final part of this work, I will discuss the biocompatibility of Au-Ag nanocages with different compositions and surface coatings and their use in two biomedical imaging techniques: as contrast agents in photoacoustic mapping of sentinel lymph nodes and as novel three-photon luminescence probes for in vitro imaging.