Optical properties of nanoalloys

The optical properties of multi-component metal nanostructures (or nanoalloys) are the subject of an intense and rapidly growing experimental and theoretical activity. In this perspective article, we first provide a survey of the most recent developments in the field, concerning both theoretical met...

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Published inPhysical chemistry chemical physics : PCCP Vol. 17; no. 42; pp. 27952 - 27967
Main Authors Barcaro, Giovanni, Sementa, Luca, Fortunelli, Alessandro, Stener, Mauro
Format Journal Article
LanguageEnglish
Published England 01.01.2015
Subjects
Alloy development
Metal clusters
Nanostructure
Optical properties
Physical chemistry
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Abstract The optical properties of multi-component metal nanostructures (or nanoalloys) are the subject of an intense and rapidly growing experimental and theoretical activity. In this perspective article, we first provide a survey of the most recent developments in the field, concerning both theoretical methods, especially at the first-principles level, and novel results, distinguishing for the convenience of presentation the sub-field of monolayer-protected multi-component metal clusters from the other alloy nanosystems. We then discuss a few general concepts which can be drawn from this survey, and offer a few suggestions on the most promising directions for future research. We hope that making the point in this fast developing field will provide a framework and a perspective useful to trigger future studies and advancements. Optical absorption spectra of bare (left) and monolayer-protected (right) metal nanoalloys.
AbstractList The optical properties of multi-component metal nanostructures (or nanoalloys) are the subject of an intense and rapidly growing experimental and theoretical activity. In this perspective article, we first provide a survey of the most recent developments in the field, concerning both theoretical methods, especially at the first-principles level, and novel results, distinguishing for the convenience of presentation the sub-field of monolayer-protected multi-component metal clusters from the other alloy nanosystems. We then discuss a few general concepts which can be drawn from this survey, and offer a few suggestions on the most promising directions for future research. We hope that making the point in this fast developing field will provide a framework and a perspective useful to trigger future studies and advancements.
The optical properties of multi-component metal nanostructures (or nanoalloys) are the subject of an intense and rapidly growing experimental and theoretical activity. In this perspective article, we first provide a survey of the most recent developments in the field, concerning both theoretical methods, especially at the first-principles level, and novel results, distinguishing for the convenience of presentation the sub-field of monolayer-protected multi-component metal clusters from the other alloy nanosystems. We then discuss a few general concepts which can be drawn from this survey, and offer a few suggestions on the most promising directions for future research. We hope that making the point in this fast developing field will provide a framework and a perspective useful to trigger future studies and advancements. Optical absorption spectra of bare (left) and monolayer-protected (right) metal nanoalloys.
The optical properties of multi-component metal nanostructures (or nanoalloys) are the subject of an intense and rapidly growing experimental and theoretical activity. In this perspective article, we first provide a survey of the most recent developments in the field, concerning both theoretical methods, especially at the first-principles level, and novel results, distinguishing for the convenience of presentation the sub-field of monolayer-protected multi-component metal clusters from the other alloy nanosystems. We then discuss a few general concepts which can be drawn from this survey, and offer a few suggestions on the most promising directions for future research. We hope that making the point in this fast developing field will provide a framework and a perspective useful to trigger future studies and advancements.The optical properties of multi-component metal nanostructures (or nanoalloys) are the subject of an intense and rapidly growing experimental and theoretical activity. In this perspective article, we first provide a survey of the most recent developments in the field, concerning both theoretical methods, especially at the first-principles level, and novel results, distinguishing for the convenience of presentation the sub-field of monolayer-protected multi-component metal clusters from the other alloy nanosystems. We then discuss a few general concepts which can be drawn from this survey, and offer a few suggestions on the most promising directions for future research. We hope that making the point in this fast developing field will provide a framework and a perspective useful to trigger future studies and advancements.
Author Sementa, Luca
Barcaro, Giovanni
Stener, Mauro
Fortunelli, Alessandro
AuthorAffiliation CNR-ICCOM & IPCF
Consiglio Nazionale delle Ricerche
Università di Trieste
Unità di Trieste
Dipartimento di Scienze Chimiche e Farmaceutiche
Consorzio Interuniversitario Nazionale per la Scienza e Tecnologia dei Materiali
INSTM
AuthorAffiliation_xml – name: Consorzio Interuniversitario Nazionale per la Scienza e Tecnologia dei Materiali
– name: Unità di Trieste
– name: Consiglio Nazionale delle Ricerche
– name: Università di Trieste
– name: Dipartimento di Scienze Chimiche e Farmaceutiche
– name: CNR-ICCOM & IPCF
– name: INSTM
Author_xml – sequence: 1
  givenname: Giovanni
  surname: Barcaro
  fullname: Barcaro, Giovanni
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  givenname: Luca
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  surname: Fortunelli
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Notes Giovanni Barcaro, PhD in Chemistry in 2007, works as a researcher at the Pisa Unit of the Institute of Chemical and Physical Processes (IPCF) of the Italian National Research Council (CNR). During the last years, his research interests have been focused on the theoretical and computational investigation of the structural, optical, magnetic and catalytic properties of hybrid systems, ranging from pure and alloyed metallic nanoclusters in various environments (gas-phase, on insulating surfaces, covered by organic ligands) to ultrathin oxides grown on metallic surfaces.
Mauro Stener graduated cum laude in chemistry in March 1992 at Trieste University (Italy). In 1995 he completed his PhD in Theoretical Chemistry at University of Trieste with a dissertation on the application of the Density Functional Theory to excited states of atoms and molecules. Since 2006 he is Associate Professor of Physical Chemistry. The main interests of M. Stener consist in the development of new DFT and TDDFT methods to describe photoionization and photoabsorption processes. He is author of 150 papers.
Luca Sementa received his PhD in Chemistry from the Federico II University of Naples in 2009. During the same year he was guest researcher at the chemistry department of the Leiden University and since 2010 he is post-doc researcher at the Italian National Research Council in Pisa. His current research is focused on the theoretical description of the electromagnetic response of nanostructures, computational heterogeneous catalysis and the application of many-body techniques to describing the electronic structure of nanosystems.
Alessandro Fortunelli is Senior Researcher at National Research Council (CNR) in Pisa (Italy), which he joined in 1984 after obtaining his degree in Chemistry at Pisa University and Scuola Normale Superiore (where he also obtained his PhD in Chemistry). He is presently Visiting Associate at Caltech, Pasadena (USA). His research interests focus on structural, optical, catalytic and magnetic properties of pure and alloyed metal nanoclusters, oxide-on-metal ultrathin films, and computational materials science at large. He is author of more than 190 articles in peer-reviewed journals.
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Snippet The optical properties of multi-component metal nanostructures (or nanoalloys) are the subject of an intense and rapidly growing experimental and theoretical...
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SubjectTerms Alloy development
Metal clusters
Nanostructure
Optical properties
Physical chemistry
Title Optical properties of nanoalloys
URI https://www.ncbi.nlm.nih.gov/pubmed/25875393
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