Superparamagnetism in Co-ion-implanted anatase TiO2 thin films and effects of postannealing

Abstract

We observed superparamagnetism in Co-ion-implanted anatase ${\mathrm{TiO}}_2$ thin films on ${\mathrm{SrTiO}}_3$ (001) substrates. After postannealing under oxygen pressure of ${\text{1.0×10}}^{\text{−6}}\hspace{0.17em}\mathrm{Torr},$ the blocking temperature increased with increasing annealing temperature. Eventually, the $\text{600\hspace{0.05em}°}\mathrm{C}$ -annealed sample became ferromagnetic at room temperature. These phenomena can be explained by the formation of Co (or ferromagnetic Co compound) particles and their growth during postannealing, as directly observed with transmission electron microscopy. High oxygen pressure during annealing reduced the size of the clusters and saturation magnetization moment, which indicates that cobalt clustering should be the main cause of the room-temperature ferromagnetism in the Co-ion-implanted films.