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Literature DB >> 27936573

Impurity Compensation Effect Induced by Tin Valence Change in α-Ga_1.4Sn_0.6O₃ Thin Films.

Xiaolong Zhao^1,2, Zhenping Wu^1,2, Wei Cui¹, Yusong Zhi¹, Daoyou Guo¹, Linghong Li³, Weihua Tang^1,2.

Abstract

Corundum-structured α-phase Ga1.4Sn0.6O3 thin films have been deposited on m-plane Al2O3(300) substrates using laser molecular beam epitaxy technology. With increasing of the oxygen partial pressure, the crystal lattice of Ga1.4Sn0.6O3 films expands due to tin ions valence changes from Sn4+ to Sn2+. The resistivity of the film deposited under 3 × 10-5 Pa is 3.54 × 104 Ω·cm, which decreases by about 2 orders of magnitude than that fabricated under 3 × 10-1 Pa. The mixture valence of Sn2+ and Sn4+ ions leads to the impurity altitude compensation effect. The deep ultraviolet photodetector based on α-phase Ga1.4Sn0.6O3 thin films was fabricated. With the oxygen partial pressure reducing gradually, the dark current and the photocurrent increase, and the relaxation time constants diminish, respectively.

Entities: Chemical Gene

Keywords: corundum-structured; oxygen partial pressure; photodetector; resistivity; valence; α-phase

Year: 2016 PMID： 27936573 DOI： 10.1021/acsami.6b09380

Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN： 1944-8244 Impact factor: 9.229

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Cited

1 in total

1. Improvement of thermoelectric performance of copper-deficient compounds Cu_2.5+δ In_4.5Te₈ (δ = 0-0.15) due to a degenerate impurity band and ultralow lattice thermal conductivity.

Authors: Ting Ren; Pengzhan Ying; Gemei Cai; Xiaoyan Li; Zhongkang Han; Lei Min; Jiaolin Cui
Journal: RSC Adv Date: 2018-07-31 Impact factor: 4.036

1 in total

Impurity Compensation Effect Induced by Tin Valence Change in α-Ga1.4Sn0.6O3 Thin Films.

1. Improvement of thermoelectric performance of copper-deficient compounds Cu2.5+δ In4.5Te8 (δ = 0-0.15) due to a degenerate impurity band and ultralow lattice thermal conductivity.

Impurity Compensation Effect Induced by Tin Valence Change in α-Ga_1.4Sn_0.6O₃ Thin Films.

1. Improvement of thermoelectric performance of copper-deficient compounds Cu_2.5+δ In_4.5Te₈ (δ = 0-0.15) due to a degenerate impurity band and ultralow lattice thermal conductivity.