Mass spectrometry and its role in advancing cluster science

Mass spectra of C60 and Ti8C12 and corresponding structures. [Display omitted] •Contribution of mass spectrometry to the advancement of cluster science is traced.•Relationship between magic numbers and intense peaks in the mass spectra is established.•Role of electron counting rules in the occurrenc...

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Published inInternational journal of mass spectrometry Vol. 377; no. C; pp. 235 - 247
Main Authors Jena, P., Castleman, A.W.
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 01.02.2015
Elsevier
Subjects
Atomic and electronic structure
Atomic packing
Cluster science
Electronic structure
Magic numbers
Mass spectrometry
Nanomaterial
Solvation phenomenon
van der Waal’s bonding
Atomic and electronic structure
Electronic structure
Atomic packing
Cluster science
van der Waal’s bonding
Solvation phenomenon
Magic numbers
Nanomaterial
Mass spectrometry
Online AccessGet full text
ISSN1387-3806
1873-2798
DOI10.1016/j.ijms.2014.08.033

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Abstract Mass spectra of C60 and Ti8C12 and corresponding structures. [Display omitted] •Contribution of mass spectrometry to the advancement of cluster science is traced.•Relationship between magic numbers and intense peaks in the mass spectra is established.•Role of electron counting rules in the occurrence of magic numbers is demonstrated..•Impact of mass spectrometry on structure–property relationships of clusters is highlighted.•Specific examples include rare gas and alkali metal clusters, fullerenes, Met-Cars, and Zintl ions. Clusters composed of a few to a few hundred atoms are the ultimate nanoparticles where every atom and every electron count. Over the past 50 years clusters have evolved as a new field of matter intermediate between atoms and bulk. In this retrospective we trace the role mass spectrometry has played in this emerging field with emphasis on how extremely intense mass peaks indicating a high abundance of clusters led to the discovery of magic numbers in alkali metal clusters, the fullerenes in carbon clusters, and “Met-Cars” in transition-metal carbide clusters. Magic numbers in alkali metal clusters in turn helped bridge the gap between two disparate fields, atomic physics and nuclear physics. Studies of mass spectra combined with theory and a variety of other experimental techniques have since led to a fundamental understanding of the structure–property relationships of clusters, thus broadening the scope of cluster science. Clusters not only serve as a bridge between atoms and bulk and between atomic and nuclear physics, but also as a bridge across many disciplines. Although this retrospective is focused on atomic clusters, briefly discussed is the solvation phenomenon, a subject to which mass spectrometry has and continues to make a large contribution.
AbstractList Mass spectra of C60 and Ti8C12 and corresponding structures. [Display omitted] •Contribution of mass spectrometry to the advancement of cluster science is traced.•Relationship between magic numbers and intense peaks in the mass spectra is established.•Role of electron counting rules in the occurrence of magic numbers is demonstrated..•Impact of mass spectrometry on structure–property relationships of clusters is highlighted.•Specific examples include rare gas and alkali metal clusters, fullerenes, Met-Cars, and Zintl ions. Clusters composed of a few to a few hundred atoms are the ultimate nanoparticles where every atom and every electron count. Over the past 50 years clusters have evolved as a new field of matter intermediate between atoms and bulk. In this retrospective we trace the role mass spectrometry has played in this emerging field with emphasis on how extremely intense mass peaks indicating a high abundance of clusters led to the discovery of magic numbers in alkali metal clusters, the fullerenes in carbon clusters, and “Met-Cars” in transition-metal carbide clusters. Magic numbers in alkali metal clusters in turn helped bridge the gap between two disparate fields, atomic physics and nuclear physics. Studies of mass spectra combined with theory and a variety of other experimental techniques have since led to a fundamental understanding of the structure–property relationships of clusters, thus broadening the scope of cluster science. Clusters not only serve as a bridge between atoms and bulk and between atomic and nuclear physics, but also as a bridge across many disciplines. Although this retrospective is focused on atomic clusters, briefly discussed is the solvation phenomenon, a subject to which mass spectrometry has and continues to make a large contribution.
Author Jena, P.
Castleman, A.W.
Author_xml – sequence: 1
  givenname: P.
  surname: Jena
  fullname: Jena, P.
  organization: Department of Physics, Virginia Commonwealth University, Richmond, VA 23284-2000, United States
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  givenname: A.W.
  surname: Castleman
  fullname: Castleman, A.W.
  email: awc@psu.edu, cmf11@psu.edu
  organization: Departments of Physics and Chemistry, The Pennsylvania State University, University Park, PA 16802, United States
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Issue C
Keywords Atomic and electronic structure
Electronic structure
Atomic packing
Cluster science
van der Waal’s bonding
Solvation phenomenon
Magic numbers
Nanomaterial
Mass spectrometry
Language English
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Snippet Mass spectra of C60 and Ti8C12 and corresponding structures. [Display omitted] •Contribution of mass spectrometry to the advancement of cluster science is...
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elsevier
SourceType Open Access Repository
Enrichment Source
Index Database
Publisher
StartPage 235
SubjectTerms Atomic and electronic structure
Atomic packing
Cluster science
Electronic structure
Magic numbers
Mass spectrometry
Nanomaterial
Solvation phenomenon
van der Waal’s bonding
Title Mass spectrometry and its role in advancing cluster science
URI https://dx.doi.org/10.1016/j.ijms.2014.08.033
https://www.osti.gov/biblio/1244091
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