Blue-light emission at room temperature from Ar + -irradiated SrTiO 3

Blue-light emission at room temperature from Ar + -irradiated SrTiO 3

Oxide-based electronic devices are expected to have fascinating properties, unlike those made from conventional semiconductors. SrTiO3 (STO) is a key material for this new field of electronics. Here we report on blue-light emission at room temperature from Ar+-irradiated, metallic STO. The irradiati...

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Veröffentlicht in:Nature materials 2005-11, Vol.4 (11), p.816-819
Hauptverfasser: Kan, Daisuke, Terashima, Takahito, Kanda, Ryoko, Masuno, Atsunobu, Tanaka, Kazunori, Chu, Shucheng, Kan, Hirofumi, Ishizumi, Atsushi, Kanemitsu, Yoshihiko, Shimakawa, Yuichi, Takano, Mikio
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container_issue 11
container_start_page 816
container_title Nature materials
container_volume 4
creator Kan, Daisuke
Terashima, Takahito
Kanda, Ryoko
Masuno, Atsunobu
Tanaka, Kazunori
Chu, Shucheng
Kan, Hirofumi
Ishizumi, Atsushi
Kanemitsu, Yoshihiko
Shimakawa, Yuichi
Takano, Mikio
description Oxide-based electronic devices are expected to have fascinating properties, unlike those made from conventional semiconductors. SrTiO3 (STO) is a key material for this new field of electronics. Here we report on blue-light emission at room temperature from Ar+-irradiated, metallic STO. The irradiation introduces oxygen deficiencies to a depth of ∼20 nm from the crystal surface. These deficiencies generate conduction carriers and stabilize a hole level in a self-trapped state. We propose a model by which the doped conduction electrons and the in-gap state produce a radiative process that results in blue-light emission. The emitting region can be patterned into any size and shape with conventional microscopic fabrication techniques.
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title Blue-light emission at room temperature from Ar + -irradiated SrTiO 3
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