Scholars@Duke publication: Influence of temperature and photoexcitation density on the quantum efficiency of defect emission in ZnO powders

Influence of temperature and photoexcitation density on the quantum efficiency of defect emission in ZnO powders

Publication , Journal Article

Foreman, J; Everitt, H; Yang, J; Liu, J

Published in: Applied Physics Letter

2007

Duke Scholars

Author Jie Liu Chemistry

Published In

Applied Physics Letter

Publication Date

2007

Issue

91

Related Subject Headings

Applied Physics
51 Physical sciences
40 Engineering
10 Technology
09 Engineering
02 Physical Sciences

Citation

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Chicago

ICMJE

MLA

NLM

Foreman, J., Everitt, H., Yang, J., & Liu, J. (2007). Influence of temperature and photoexcitation density on the quantum efficiency of defect emission in ZnO powders. Applied Physics Letter, (91).

Foreman, J., H. Everitt, J. Yang, and J. Liu. “Influence of temperature and photoexcitation density on the quantum efficiency of defect emission in ZnO powders.” Applied Physics Letter, no. 91 (2007).

Foreman J, Everitt H, Yang J, Liu J. Influence of temperature and photoexcitation density on the quantum efficiency of defect emission in ZnO powders. Applied Physics Letter. 2007;(91).

Foreman, J., et al. “Influence of temperature and photoexcitation density on the quantum efficiency of defect emission in ZnO powders.” Applied Physics Letter, no. 91, 2007.

Foreman J, Everitt H, Yang J, Liu J. Influence of temperature and photoexcitation density on the quantum efficiency of defect emission in ZnO powders. Applied Physics Letter. 2007;(91).

Published In

Applied Physics Letter

Publication Date

2007

Issue

91

Related Subject Headings

Applied Physics
51 Physical sciences
40 Engineering
10 Technology
09 Engineering
02 Physical Sciences