Comparison of electronic structure and template function of single-layer graphene and a hexagonal boron nitride nanomesh on Ru(0001)

Brugger, Thomas; Günther, Sebastian; Wang, Bin; Dil, J. Hugo; Bocquet, Marie-Laure; Osterwalder, Jürg; Wintterlin, Joost; Greber, Thomas

doi:10.1103/PhysRevB.79.045407

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Comparison of electronic structure and template function of single-layer graphene and a hexagonal boron nitride nanomesh on Ru(0001)

Author(s): Thomas Brugger , Sebastian Günther , Bin Wang , J. Hugo Dil , Marie-Laure Bocquet , Jürg Osterwalder , Joost Wintterlin , Thomas Greber

Publication date (Electronic): January 12 2009

Journal: Physical Review B

Publisher: American Physical Society (APS)

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Generalized Gradient Approximation Made Simple

John P Perdew, Kieron Burke, Matthias Ernzerhof (1997)

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Boron nitride nanomesh.

Martina Corso, Willi Auwärter, Matthias Muntwiler … (2004)

A highly regular mesh of hexagonal boron nitride with a 3-nanometer periodicity and a 2-nanometer hole size was formed by self-assembly on a Rh(111) single crystalline surface. Two layers of mesh cover the surface uniformly after high-temperature exposure of the clean rhodium surface to borazine (HBNH)3. The two layers are offset in such a way as to expose a minimum metal surface area. Hole formation is likely driven by the lattice mismatch of the film and the rhodium substrate. This regular nanostructure is thermally very stable and can serve as a template to organize molecules, as is exemplified by the decoration of the mesh by C60 molecules.