Title :
Growth of NdFeAsO Films by a Combination of Metal–Organic Chemical Vapor Deposition and Arsenic Diffusion Processes
Author :
Corrales-Mendoza, Ivan ; Conde-Gallardo, Agustin
Author_Institution :
Dept. of Phys., Nat. Polytech. Inst., Mexico City, Mexico
Abstract :
NdFeAsO films have been grown by a two-step method. First, precursor films that contain a mixture of Nd and Fe oxides were grown by metal-organic chemical vapor deposition. Afterward, the arsenic is incorporated during annealing of these precursor films in the presence of a NdFeAsO0.75F0.25 pellet. The X-ray diffraction and the scanning electron microscopy show that the formation of the quaternary NdFeAsO phase is prevented by the stability of the rare-earth oxides and rare-earth oxyfluorides and that it is synthesized only if the annealing temperature is higher than 1050 °C. Although the pellet creates a reaction atmosphere to synthesize the superconducting phase, the fluorine is not incorporated into the quaternary NdFeAsO phase.
Keywords :
MOCVD; X-ray diffraction; annealing; diffusion; high-temperature superconductors; iron compounds; neodymium compounds; pnictide superconductors; scanning electron microscopy; superconducting thin films; Nd oxide-Fe oxide mixture; NdFeAsO; X-ray diffraction; annealing temperature; arsenic diffusion processes; film growth; metal-organic chemical vapor deposition; pellet; precursor films; quaternary NdFeAsO phase; rare-earth oxide stability; rare-earth oxyfluoride stability; reaction atmosphere; scanning electron microscopy; superconducting phase; Annealing; Chemicals; Films; High-temperature superconductors; Iron; Superconducting films; Chemical vapor deposition (CVD); high-temperature superconductors (HTS); materials preparation; phase change materials; superconducting films;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2013.2286133
