Growth of metallic delafossites by molecular beam epitaxy

The Pd, and Pt based ABO2 delafossites are a unique class of layered, triangular oxides with 2D electronic structure and a large conductivity that rivals that of noble metals. Here, we report successful growth of the prototypical metallic delafossite, PdCoO2, by molecular beam epitaxy (MBE). The key challenge is controlling the oxidation of Pd in the MBE environment. Achieving PdCoO2 films that are atomically flat and of high crystalline quality necessitates a combination of low temperature (300 °C) growth in the presence of reactive atomic oxygen and a post-growth anneal to 700 °C. When annealed in vacuum above 400 °C, PdCoO2 phase-separates into palladium metal and CoO, and above 700 °C in air, PdCoO2 precipitates out Co3O4, likely due to the formation and evaporation of volatile palladium oxide. Overall, this work shows that MBE does provide a route to access this interesting family of layered, triangular oxides.