Szczegóły publikacji

Opis bibliograficzny

Decoupling structural and electronic dimensionality: 2D transport in a 3D honeycomb chiral stacking / Hai Lin, Dongsheng Wen, Katie Scott, Jorge Cardenas-Gamboa, Iñigo Robredo, Batoul Almoussawi, Craig M. Robertson, Marco Zanella, Elisabetta Mariani, Aimo WINKELMANN, Thomas Beesley, Luke M. Daniels, Michael W. Gaultois, Matthew S. Dyer, John B. Claridge, Maia G. Vergniory, Quinn D. Gibson, Claudia Felser, Matthew J. Rosseinsky, Jonathan Alaria // Matter ; ISSN 2590-2393 . — 2026 — vol. 9 iss. 2 art. no. 102578, s. 1–13. — Bibliogr. s. 12–13, Abstr. — Publikacja dostępna online od: 2026-01-27

Autorzy (20)

Lin Hai
Wen Dongsheng
Scott Katie
Cardenas-Gamboa Jorge
Robredo Iñigo
Almoussawi Batoul
Robertson Craig M.
Zanella Marco
Mariani Elisabetta
AGHWinkelmann Aimo
Beesley Thomas
Daniels Luke M.
Gaultois Michael W.
Dyer Matthew S.
Claridge John B.
Vergniory Maia G.
Gibson Quinn D.
Felser Claudia
Rosseinsky Matthew J.
Alaria Jonathan

Dane bibliometryczne

ID BaDAP	167086
Data dodania do BaDAP	2026-04-29
Tekst źródłowy	URL
DOI	10.1016/j.matt.2025.102578
Rok publikacji	2026
Typ publikacji	artykuł w czasopiśmie
Otwarty dostęp
Creative Commons
Czasopismo/seria	Matter

Abstract

Electronic dimensionality is ordinarily controlled by restricting orbital overlap through structure, exemplified by the weak interlayer bonding in van der Waals materials. HfSn2 has strongly three-dimensional orbital overlap expressed in its bonding but displays robust 2D transport from open orbits at the Fermi surface. These states originate in the honeycomb layers that are present in HfSn2 but hidden by the three-dimensional bonding. Chiral stacking of the honeycomb protects its electronic states in the presence of the strong interlayer orbital overlap. These states dominate macroscopic transport because the inversion symmetry breaking imposed by the stacking enhances mobility by locating Type II Weyl points on the 2D Fermi surface. Structural and electronic dimensionality can be decoupled by control of the arrangement of extended low-dimensional motifs to retain their electronic structures and augment functionality through the symmetry of the resulting scaffolds. This expands the design space for low-dimensional electronic materials beyond layered systems.

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