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W2749714630 abstract "Abstract The gapless edge states have been found in a 2D molecular system built with light atoms: C,O,H. This prediction is done on the basis of combined density functional theory (DFT) and tight-binding calculations. The system does not exhibit any effect of the spin-orbit coupling (SOC), neither intrinsic nor Rashba type. The band structure and the edge states are tuned with a strength of the p-stacking and O...H interactions. The elementary cell of this noncovalent structure, does not have the 3D inversion or rotational symmetry. Instead, the system transforms via a superposition of two reflections: with respect to the xz and xy mirror planes, both containing the non-periodic direction. This superposition is equivalent to the inversion in the 2D subspace, in which the system is periodic. The energy gap obtained with the DFT method is 0.11 eV, and largely opens (above 1 eV) with the GW and hybrid-DFT approaches. The bands inversion is partial, i.e. the Bloch states are mixed, with the ”swapping” and ”non-swapping” atomic contributions." @default.
W2749714630 created "2017-08-31" @default.
W2749714630 creator A5014409253 @default.
W2749714630 date "2017-08-29" @default.
W2749714630 modified "2023-10-14" @default.
W2749714630 title "Gapless edge states in (C,O,H)-built molecular system with p-stacking and hydrogen bonds" @default.
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W2749714630 cites W2004995999 @default.
W2749714630 cites W2007791510 @default.
W2749714630 cites W2012386668 @default.
W2749714630 cites W2016561531 @default.
W2749714630 cites W2020103269 @default.
W2749714630 cites W2023390323 @default.
W2749714630 cites W2025311334 @default.
W2749714630 cites W2025870448 @default.
W2749714630 cites W2030526777 @default.
W2749714630 cites W2030976617 @default.
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W2749714630 cites W2036113194 @default.
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W2749714630 cites W2043175787 @default.
W2749714630 cites W2059337756 @default.
W2749714630 cites W2066111214 @default.
W2749714630 cites W2068384663 @default.
W2749714630 cites W2069013466 @default.
W2749714630 cites W2070931774 @default.
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W2749714630 cites W2148286185 @default.
W2749714630 cites W2149455778 @default.
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W2749714630 cites W2254475466 @default.
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W2749714630 cites W2559838203 @default.
W2749714630 cites W3104543849 @default.
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W2749714630 doi "https://doi.org/10.1038/s41598-017-09954-z" @default.
W2749714630 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5575060" @default.
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