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Literature DB >> 17358554

Single-layer model of the hexagonal boron nitride nanomesh on the Rh(111) surface.

Robert Laskowski¹, Peter Blaha, Thomas Gallauner, Karlheinz Schwarz.

Abstract

An alternative model of the hexagonal boron nitride (h-BN) on nanomesh on the Rh(111) surface is presented. It explains the observed ultraviolet photoelectron spectroscopy spectra and reproduces experimental STM images introducing, instead of two, only one strongly corrugated layer of h-BN covering the whole Rh surface. In order to optimize the geometry of the BN layer we calculate the forces by density functional theory and analyze the interactions in the system. The final geometry is a result of a competition between BN-metal attraction or repulsion and elastic properties of the isolated h-BN layer. The calculated bonding energy is around 0.33 eV per BN molecule with a corrugation close to 0.55 A.

Entities: Chemical

Year: 2007 PMID： 17358554 DOI： 10.1103/PhysRevLett.98.106802

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

5 in total

1. Topography inversion in scanning tunneling microscopy of single-atom-thick materials from penetrating substrate states.

Authors: Changwon Park; Mina Yoon
Journal: Sci Rep Date: 2022-05-05 Impact factor: 4.996

Single-layer model of the hexagonal boron nitride nanomesh on the Rh(111) surface.

1. Topography inversion in scanning tunneling microscopy of single-atom-thick materials from penetrating substrate states.

2. Quantum engineering of spin and anisotropy in magnetic molecular junctions.

3. Hexagonal Boron Nitride Tunnel Barriers Grown on Graphite by High Temperature Molecular Beam Epitaxy.

4. Bandgap renormalization and work function tuning in MoSe₂/hBN/Ru(0001) heterostructures.

5. Guidelines for Selecting Interlayer Spacers in Synthetic 2D-Based Antiferromagnets from First-Principles Simulations.

Single-layer model of the hexagonal boron nitride nanomesh on the Rh(111) surface.

1. Topography inversion in scanning tunneling microscopy of single-atom-thick materials from penetrating substrate states.

2. Quantum engineering of spin and anisotropy in magnetic molecular junctions.

3. Hexagonal Boron Nitride Tunnel Barriers Grown on Graphite by High Temperature Molecular Beam Epitaxy.

4. Bandgap renormalization and work function tuning in MoSe2/hBN/Ru(0001) heterostructures.

5. Guidelines for Selecting Interlayer Spacers in Synthetic 2D-Based Antiferromagnets from First-Principles Simulations.

4. Bandgap renormalization and work function tuning in MoSe₂/hBN/Ru(0001) heterostructures.