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Surface enhanced raman spectroscopy for biophysical applications = using plasmonic nanoparticle assemblies /

Record Type:	Language materials, printed : Monograph/item
Title/Author:	Surface enhanced raman spectroscopy for biophysical applications/ by Claudia Fasolato.
Reminder of title:	using plasmonic nanoparticle assemblies /
Author:	Fasolato, Claudia.
Published:	Cham :Springer International Publishing : : 2018.,
Description:	xviii, 155 p. :ill. (some color), digital ; : 24 cm.;
Contained By:	Springer eBooks
Subject:	Raman spectroscopy. -
Online resource:	https://doi.org/10.1007/978-3-030-03556-3
ISBN:	9783030035563

Surface enhanced raman spectroscopy for biophysical applications = using plasmonic nanoparticle assemblies /
Fasolato, Claudia.

Surface enhanced raman spectroscopy for biophysical applicationsusing plasmonic nanoparticle assemblies /[electronic resource] :by Claudia Fasolato. - Cham :Springer International Publishing :2018. - xviii, 155 p. :ill. (some color), digital ;24 cm. - Springer theses,2190-5053. - Springer theses.

Introduction -- Traditional Raman and SERS: fundamentals and state of the art -- Investigation on nanoparticles and their molecular functionalization -- Nanoparticle-based SERS substrates for molecular sensing applications -- SERS-active nanovectors for single-cell cancer screening and theranostics -- Conclusions.

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.

ISBN: 9783030035563

Standard No.: 10.1007/978-3-030-03556-3doiSubjects--Topical Terms:

596901
Raman spectroscopy.

LC Class. No.: QC454.R36

Dewey Class. No.: 535.846

Surface enhanced raman spectroscopy for biophysical applications = using plasmonic nanoparticle assemblies /
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245 1 0 $a Surface enhanced raman spectroscopy for biophysical applications $h [electronic resource] : $b using plasmonic nanoparticle assemblies / $c by Claudia Fasolato.
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505 0 $a Introduction -- Traditional Raman and SERS: fundamentals and state of the art -- Investigation on nanoparticles and their molecular functionalization -- Nanoparticle-based SERS substrates for molecular sensing applications -- SERS-active nanovectors for single-cell cancer screening and theranostics -- Conclusions.
520 $a 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.
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