Room-Temperature Ferromagnetism in Transparent Transition Metal-Doped Titanium Dioxide

Yuji Matsumoto; Makoto Murakami; T. Shono; Tetsuya Hasegawa; Tomoteru Fukumura; M. Kawasaki; Parhat Ahmet; Toyohiro Chikyow; Shin‐ya Koshihara; Hideomi Koinuma

doi:10.1126/science.1056186

Room-Temperature Ferromagnetism in Transparent Transition Metal-Doped Titanium Dioxide

Yuji Matsumoto(Tokyo Institute of Technology), Makoto Murakami(Tokyo Institute of Technology), T. Shono(Tokyo Institute of Technology), Tetsuya Hasegawa(Tokyo Institute of Technology), Tomoteru Fukumura(Tokyo Institute of Technology), M. Kawasaki(Tokyo Institute of Technology), Parhat Ahmet(National Institute for Materials Science), Toyohiro Chikyow(National Institute for Materials Science), Shin‐ya Koshihara(Kanagawa Academy of Science and Technology), Hideomi Koinuma(Tokyo Institute of Technology)

Science

February 2, 2001

10.1126/science.1056186

Cited by 2,493

Abstract

Dilute magnetic semiconductors and wide gap oxide semiconductors are appealing materials for magnetooptical devices. From a combinatorial screening approach looking at the solid solubility of transition metals in titanium dioxides and of their magnetic properties, we report on the observation of transparent ferromagnetism in cobalt-doped anatase thin films with theconcentration of cobalt between 0 and 8%. Magnetic microscopy images reveal a magnetic domain structure in the films, indicating the existence of ferromagnetic long-range ordering. The materials remain ferromagnetic above room temperature with a magnetic moment of 0.32 Bohr magnetons per cobalt atom. The film is conductive and exhibits a positive magnetoresistance of 60% at 2 kelvin.

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