Ground-state molecular and electronic structures of group-IV nanoribbons, nanorings and nanotubes

Ground-state molecular and electronic structures of group-IV nanoribbons, nanorings and nanotubes

Based on ab initio molecular orbital (MO) theory and first-principles band calculations, we systematically study the ground-state molecular and electronic structures of group-IV nanoribbons (NRBs), nanorings (NRGs) and nanotubes (NTBs) by substituting the honeycomb skeletal atoms with C, Si or Ge at...

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Veröffentlicht in:Physical chemistry chemical physics : PCCP 2018, Vol.2 (37), p.24353-24368
Hauptverfasser: Matsunaga, YouKey, Takeda, Kyozaburo
Format: Artikel
Sprache:eng
Schlagworte:
Crossovers
First principles
Germanium
Honeycomb construction
Molecular orbitals
Nanoribbons
Nanotubes
Silicon
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Zusammenfassung:Based on ab initio molecular orbital (MO) theory and first-principles band calculations, we systematically study the ground-state molecular and electronic structures of group-IV nanoribbons (NRBs), nanorings (NRGs) and nanotubes (NTBs) by substituting the honeycomb skeletal atoms with C, Si or Ge atoms. We then explore the energetics in the ground-state singlet-triplet (ST) crossover, particularly focusing on the configuration hybridization by electron correlation. Based on ab initio molecular orbital (MO) theory and first-principles band calculations, we systematically study the ground-state molecular and electronic structures of group-IV nanoribbons (NRBs), nanorings (NRGs) and nanotubes (NTBs) by substituting the honeycomb skeletal atoms with C, Si or Ge atoms.
ISSN:1463-9076
1463-9084
DOI:10.1039/c8cp04566f