Transport properties of ultra-thin VO2 films on (001) TiO2 grown by reactive molecular-beam epitaxy

Transport properties of ultra-thin VO2 films on (001) TiO2 grown by reactive molecular-beam epitaxy

We report the growth of (001)-oriented VO2 films as thin as 1.5 nm with abrupt and reproducible metal-insulator transitions (MIT) without a capping layer. Limitations to the growth of thinner films with sharp MITs are discussed, including the Volmer-Weber type growth mode due to the high energy of t...

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Veröffentlicht in:Applied physics letters 2015-10, Vol.107 (16)
Hauptverfasser: Paik, Hanjong, Moyer, Jarrett A., Spila, Timothy, Tashman, Joshua W., Mundy, Julia A., Freeman, Eugene, Shukla, Nikhil, Lapano, Jason M., Engel-Herbert, Roman, Zander, Willi, Schubert, Jürgen, Muller, David A., Datta, Suman, Schiffer, Peter, Schlom, Darrell G.
Format: Artikel
Sprache:eng
Schlagworte:
Applied physics
Coalescing
Electron energy loss spectroscopy
Energy dissipation
Energy transmission
Epitaxial growth
Insulators
Interdiffusion
Metal-insulator transition
Molecular beam epitaxy
Scanning electron microscopy
Scanning transmission electron microscopy
Substrates
Thin films
Titanium dioxide
Transmission electron microscopy
Vanadium oxides
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Zusammenfassung:We report the growth of (001)-oriented VO2 films as thin as 1.5 nm with abrupt and reproducible metal-insulator transitions (MIT) without a capping layer. Limitations to the growth of thinner films with sharp MITs are discussed, including the Volmer-Weber type growth mode due to the high energy of the (001) VO2 surface. Another key limitation is interdiffusion with the (001) TiO2 substrate, which we quantify using low angle annular dark field scanning transmission electron microscopy in conjunction with electron energy loss spectroscopy. We find that controlling island coalescence on the (001) surface and minimization of cation interdiffusion by using a low growth temperature followed by a brief anneal at higher temperature are crucial for realizing ultrathin VO2 films with abrupt MIT behavior.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.4932123