TY - JOUR
T1 - Unusual features of nitrogen substitutions in silicene
AU - Pham, Hai Duong
AU - Gumbs, Godfrey
AU - Su, Wu Pei
AU - Thuy Tran, Ngoc Thanh
AU - Lin, Ming Fa
N1 - Publisher Copyright:
© The Royal Society of Chemistry 2020.
PY - 2020/9/1
Y1 - 2020/9/1
N2 - The quasiparticle properties resulting from charge and spin are clearly identified in nitrogen-substituted silicenes, for which a theoretical framework is successfully developed from first-principles calculations. Such systems create extremely non-uniform chemical and physical environments through the distribution of the guest atoms. They present unusual geometric, electronic, and magnetic properties, which can be identified from the optimal honeycomb lattices, the atom- and spin-dominated energy spectra, the spatial charge density distributions, and the atom-, orbital- and spin-projected van Hove singularities [the net magnetic moments]. The complicated relations between the highly hybridized sp2-N-Si bonds and the ferromagnetic/non-magnetic configurations are responsible for the p-type or semiconducting behavior, the significant modifications to the Dirac cone structures, the difficulty in identifying the π and σ bands, and the vanishing or finite magnetic moments. The theoretical predictions could be verified by high-resolution experimental measurements.
AB - The quasiparticle properties resulting from charge and spin are clearly identified in nitrogen-substituted silicenes, for which a theoretical framework is successfully developed from first-principles calculations. Such systems create extremely non-uniform chemical and physical environments through the distribution of the guest atoms. They present unusual geometric, electronic, and magnetic properties, which can be identified from the optimal honeycomb lattices, the atom- and spin-dominated energy spectra, the spatial charge density distributions, and the atom-, orbital- and spin-projected van Hove singularities [the net magnetic moments]. The complicated relations between the highly hybridized sp2-N-Si bonds and the ferromagnetic/non-magnetic configurations are responsible for the p-type or semiconducting behavior, the significant modifications to the Dirac cone structures, the difficulty in identifying the π and σ bands, and the vanishing or finite magnetic moments. The theoretical predictions could be verified by high-resolution experimental measurements.
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U2 - 10.1039/d0ra04470a
DO - 10.1039/d0ra04470a
M3 - Article
AN - SCOPUS:85090991743
SN - 2046-2069
VL - 10
SP - 32193
EP - 32201
JO - RSC Advances
JF - RSC Advances
IS - 53
ER -