Advanced Synchrotron Radiation Techniques for Nanostructured Materials

Nanostructured materials exploit physical phenomena and mechanisms that cannot be derived by simply scaling down the associated bulk structures and phenomena; furthermore, new quantum effects come into play in nanosystems. The exploitation of these emerging nanoscale interactions prompts the innovat...

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Huvudupphov: Battocchio, Chiara
Materialtyp: Online
Språk:engelska
Utgiven: MDPI - Multidisciplinary Digital Publishing Institute 2021
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author Battocchio, Chiara
author_browse Battocchio, Chiara
author_facet Battocchio, Chiara
author_sort Battocchio, Chiara
collection Directory of Open Access Books
description Nanostructured materials exploit physical phenomena and mechanisms that cannot be derived by simply scaling down the associated bulk structures and phenomena; furthermore, new quantum effects come into play in nanosystems. The exploitation of these emerging nanoscale interactions prompts the innovative design of nanomaterials. Understanding the behavior of materials on all length scales—from the nanostructure up to the macroscopic response—is a critical challenge for materials science. Modern analytical technologies based on synchrotron radiation (SR) allow for the non-destructive investigation of the chemical, electronic, and magnetic structure of materials in any environment. SR facilities have developed revolutionary new ideas and experimental setups for characterizing nanomaterials, involving spectroscopy, diffraction, scatterings, microscopy, tomography, and all kinds of highly sophisticated combinations of such investigation techniques. This book is a collection of contributions addressing several aspects of synchrotron radiation as applied to the investigation of chemical, electronic, and magnetic structure of nanostructured materials. The results reported here provide not only an interesting and multidisciplinary overview of the chemicophysical investigations of nanostructured materials carried out by state-of-the-art SR-induced techniques, but also an exciting glance into the future perspectives of nanomaterial characterization methods.
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spelling doab-20.500.12854ir-402142023-12-20T18:40:39Z Advanced Synchrotron Radiation Techniques for Nanostructured Materials Battocchio, Chiara QA1-939 Q1-390 binding energies electrochemical impedance spectroscopy laser heating crystallization kinetics Ge(001)-2 supercapacitor materials in situ X-ray photoelectron spectroscopy thermal expansion XPS self-assembling peptides multilayers magnetic annealing metallic glasses synchrotron radiation micro-mesoporous carbon electrode nuclear forward scattering NEXAFS synchrotron radiation induced spectroscopies bioactive materials nanostructures thin films cyclic voltammetry room temperature ionic liquids titanium alloy synchrotron pump-probe powder scattering thermal conductivity bic Book Industry Communication::P Mathematics & science Nanostructured materials exploit physical phenomena and mechanisms that cannot be derived by simply scaling down the associated bulk structures and phenomena; furthermore, new quantum effects come into play in nanosystems. The exploitation of these emerging nanoscale interactions prompts the innovative design of nanomaterials. Understanding the behavior of materials on all length scales—from the nanostructure up to the macroscopic response—is a critical challenge for materials science. Modern analytical technologies based on synchrotron radiation (SR) allow for the non-destructive investigation of the chemical, electronic, and magnetic structure of materials in any environment. SR facilities have developed revolutionary new ideas and experimental setups for characterizing nanomaterials, involving spectroscopy, diffraction, scatterings, microscopy, tomography, and all kinds of highly sophisticated combinations of such investigation techniques. This book is a collection of contributions addressing several aspects of synchrotron radiation as applied to the investigation of chemical, electronic, and magnetic structure of nanostructured materials. The results reported here provide not only an interesting and multidisciplinary overview of the chemicophysical investigations of nanostructured materials carried out by state-of-the-art SR-induced techniques, but also an exciting glance into the future perspectives of nanomaterial characterization methods. 2021-02-11T07:46:11Z 2021-02-11T07:46:11Z 2019-12-09 11:49:16 2019 book 42614 9783039216802 9783039216819 https://directory.doabooks.org/handle/20.500.12854/40214 eng application/octet-stream Attribution-NonCommercial-NoDerivatives 4.0 International https://mdpi.com/books/pdfview/book/1759 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-03921-681-9 10.3390/books978-3-03921-681-9 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783039216802 9783039216819 138 open access
spellingShingle QA1-939
Q1-390
binding energies
electrochemical impedance spectroscopy
laser heating
crystallization kinetics
Ge(001)-2
supercapacitor materials
in situ X-ray photoelectron spectroscopy
thermal expansion
XPS
self-assembling peptides
multilayers
magnetic annealing
metallic glasses
synchrotron radiation
micro-mesoporous carbon electrode
nuclear forward scattering
NEXAFS
synchrotron radiation induced spectroscopies
bioactive materials
nanostructures
thin films
cyclic voltammetry
room temperature ionic liquids
titanium alloy
synchrotron pump-probe powder scattering
thermal conductivity
bic Book Industry Communication::P Mathematics & science
Battocchio, Chiara
Advanced Synchrotron Radiation Techniques for Nanostructured Materials
title Advanced Synchrotron Radiation Techniques for Nanostructured Materials
title_full Advanced Synchrotron Radiation Techniques for Nanostructured Materials
title_fullStr Advanced Synchrotron Radiation Techniques for Nanostructured Materials
title_full_unstemmed Advanced Synchrotron Radiation Techniques for Nanostructured Materials
title_short Advanced Synchrotron Radiation Techniques for Nanostructured Materials
title_sort advanced synchrotron radiation techniques for nanostructured materials
topic QA1-939
Q1-390
binding energies
electrochemical impedance spectroscopy
laser heating
crystallization kinetics
Ge(001)-2
supercapacitor materials
in situ X-ray photoelectron spectroscopy
thermal expansion
XPS
self-assembling peptides
multilayers
magnetic annealing
metallic glasses
synchrotron radiation
micro-mesoporous carbon electrode
nuclear forward scattering
NEXAFS
synchrotron radiation induced spectroscopies
bioactive materials
nanostructures
thin films
cyclic voltammetry
room temperature ionic liquids
titanium alloy
synchrotron pump-probe powder scattering
thermal conductivity
bic Book Industry Communication::P Mathematics & science
topic_facet QA1-939
Q1-390
binding energies
electrochemical impedance spectroscopy
laser heating
crystallization kinetics
Ge(001)-2
supercapacitor materials
in situ X-ray photoelectron spectroscopy
thermal expansion
XPS
self-assembling peptides
multilayers
magnetic annealing
metallic glasses
synchrotron radiation
micro-mesoporous carbon electrode
nuclear forward scattering
NEXAFS
synchrotron radiation induced spectroscopies
bioactive materials
nanostructures
thin films
cyclic voltammetry
room temperature ionic liquids
titanium alloy
synchrotron pump-probe powder scattering
thermal conductivity
bic Book Industry Communication::P Mathematics & science
url 42614
work_keys_str_mv AT battocchiochiara advancedsynchrotronradiationtechniquesfornanostructuredmaterials