Selecting boron fullerenes by cage-doping mechanisms

So far, no boron fullerenes were synthesized: more compact sp(3)-bonded clusters are energetically preferred. To circumvent this, metallic clusters have been suggested by Pochet et al. [Phys. Rev. B 83, 081403(R) (2011)] as "seeds" for a possible synthesis which would topologically protect...

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Veröffentlicht in:	The Journal of chemical physics 2013-05, Vol.138 (18), p.184302-184302
Hauptverfasser:	Boulanger, Paul, Morinière, Maxime, Genovese, Luigi, Pochet, Pascal
Format:	Artikel
Sprache:	eng
Schlagworte:	Boron Boron - chemistry Clusters Doping Fullerenes Fullerenes - chemistry Isomers Quantum Theory Shells Strategy Synthesis
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container_title	The Journal of chemical physics
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creator	Boulanger, Paul Morinière, Maxime Genovese, Luigi Pochet, Pascal
description	So far, no boron fullerenes were synthesized: more compact sp(3)-bonded clusters are energetically preferred. To circumvent this, metallic clusters have been suggested by Pochet et al. [Phys. Rev. B 83, 081403(R) (2011)] as "seeds" for a possible synthesis which would topologically protect the sp(2) sector of the configuration space. In this paper, we identify a basic pentagonal unit which allows a balance between the release of strain and the self-doping rule. We formulate a guiding principle for the stability of boron fullerenes, which takes the form of an isolated filled pentagon rule (IFPR). The role of metallic clusters is then reexamined. It is shown that the interplay of the IFPR and the seed-induced doping breaks polymorphism and its related problems: it can effectively select between different isomers and reduce the reactivity of the boron shells. The balance between self and exterior doping represents the best strategy for boron buckyball synthesis.
doi_str_mv	10.1063/1.4802775
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subjects	Boron Boron - chemistry Clusters Doping Fullerenes Fullerenes - chemistry Isomers Quantum Theory Shells Strategy Synthesis
title	Selecting boron fullerenes by cage-doping mechanisms
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