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Special and general superatoms.

Zhixun Luo1, A Welford Castleman

  • 1State Key Laboratory for Structural Chemistry of Unstable and Stable Species, Institute of Chemistry, Chinese Academy of Sciences , Beijing, 100190, China.

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|September 25, 2014
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The superatom concept reveals that specific stable clusters mimic elemental chemical behavior, opening doors for new materials. Research explores these special and general superatoms for applications in catalysis, electronics, and spintronics.

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Area of Science:

  • Cluster Science
  • Materials Science
  • Quantum Chemistry

Background:

  • The superatom concept emerged from aluminum cluster reactivity studies, revealing size-dependent behavior.
  • Stable clusters can mimic the chemical properties of individual atoms or elemental groups.
  • Early interpretations involved shell closings based on the jellium model.

Purpose of the Study:

  • To summarize investigations into special and general superatoms.
  • To provide an overview of the superatom concept and its development.
  • To highlight joint undertakings that have advanced the superatom concept.

Main Methods:

  • Classification of special superatoms based on valence electron counts within the jellium model.
  • Emphasis on general superatoms including nonmetal-doped and ligand-stabilized metal clusters.
  • Review of cluster stability models (jellium, aromaticity, Wade-Bingle rules).

Main Results:

  • Discovery of superhalogens, superalkalis, and isovalent precious metal mimics.
  • Identification of magnetic superatoms for spintronics applications.
  • Validation of the harpoon mechanism in superatomic cluster reactivity.

Conclusions:

  • Superatom concept offers a framework for designing materials with tailored properties.
  • Potential applications include inexpensive industrial catalysts, semiconductive transistors, and spintronic devices.
  • Further development of theoretical models is needed for non-spherical and doped clusters.