A new on-surface synthesis motif produces gulf-edged chiral graphene nanoribbons identified as closed-shell semiconductors with a 1.8 eV bandgap, distinctive Raman modes, and unexpected ambient instability.
and Zoupanos, Spyros and Uhrin, Martin and Talirz, Leopold and Kahle, Leonid and H
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SbTlO3 is a non-van der Waals 2D topological insulator with 229 meV SOC splitting and band inversion, verified by topological invariants and edge states; Pb substitution places the feature at the Fermi level.
An ontology-aligned framework for atomistic simulations that integrates over 750,000 triples to enable interoperable data querying and automated provenance tracking.
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Electronic and Vibrational Properties of On-Surface Synthesized Gulf-Edged Chiral Graphene Nanoribbons
A new on-surface synthesis motif produces gulf-edged chiral graphene nanoribbons identified as closed-shell semiconductors with a 1.8 eV bandgap, distinctive Raman modes, and unexpected ambient instability.
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Towards Non-van der Waals 2D Topological Insulators
SbTlO3 is a non-van der Waals 2D topological insulator with 229 meV SOC splitting and band inversion, verified by topological invariants and edge states; Pb substitution places the feature at the Fermi level.
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Ontology-based knowledge graph infrastructure for interoperable atomistic simulation data
An ontology-aligned framework for atomistic simulations that integrates over 750,000 triples to enable interoperable data querying and automated provenance tracking.