Effects of Growth Conditions on One-dimensional Nanorod Growth in REBa₂Cu₃O_7-δ Films

Abstract

The effects of growth conditions on one-dimensional nanorods in ErBa₂Cu₃O_7-δ films are discussed in terms of their microstructures and superconducting properties. The Ba(Er_0.5Nb_0.5)O₃ nanorods were observed clearly in transmission electron microscopy images of the films. Nanorod morphologies were controlled by managing the growth temperature (T_S) and BNO-doping concentration. The nanorods were thinner and denser at a lower T_S under a constant BNO-doping concentration. In case of T_S=710℃, the diameter and number density of nanorods with 1.5 wt% BNO-doping were 4–6 nm and 2.6×10¹¹/cm², respectively. As the BNO-doping concentration increased, nanorods were almost aligned in the c-axis direction and grew in uniform size from the substrate to the film surface. The diameter and number density of the nanorods with 5 wt% BNO-doping were ~10 nm and 2.2×10¹¹/cm², respectively. These nanorods could effectively act as c-axis correlated pinning centers. Consequently, the pinning effects were controlled by their diameter, number density and growth direction of the nanorods by varying the growth conditions.