Planar hybrid superlattices by compression of rolled-up nanomembranes
| T. Zander, C. Deneke, A. Malachias, C. Mickel, T. H. Metzger, O. G. Schmidt Appl. Phys. Lett. 94, 053102 (2009) URL PDF |
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| Abstract | ||
| Hybrid metal/semiconductor superlattices are obtained by the controlled compression of rolled-up metal/semiconductor nanomembranes. The planar superlattice maintains the crystalline quality of the semiconductor and the polycrystalline texture of the metal, allowing the integration of these materials into a multilayer system that cannot be produced by any direct deposition procedure. The superlattice consists of two symmetrically inverted multilayer stacks splitted by a metallic mirror plane. Additional intensity peaks in x-ray reflectivity confirm the periodic structure created by the roll up and compression of nanomembranes. |