Recent progress in processing and properties of ZnO

S. J. Pearton; D. P. Norton; K. Ip; Y. W. Heo; T. Steiner

doi:10.1016/S0749-6036(03)00093-4

Recent progress in processing and properties of ZnO

S. J. Pearton, D. P. Norton, K. Ip, Y. W. Heo, T. Steiner

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Abstract

ZnO is attracting considerable attention for its possible application to UV light emitters, spin functional devices, gas sensors, transparent electronics and surface acoustic wave devices. There is also interest in integrating ZnO with other wide bandgap ceramic semiconductors such as the AlInGaN system. In this paper we summarize recent progress in doping control, materials processing methods such as dry etching and ohmic and Schottky contact formation, new understanding of the role of hydrogen and finally the prospects for control of ferromagnetism in transition metal-doped ZnO.

Original language	English
Pages (from-to)	3-32
Number of pages	30
Journal	Superlattices and Microstructures
Volume	34
Issue number	1-2
DOIs	https://doi.org/10.1016/S0749-6036(03)00093-4
State	Published - 2003

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title = "Recent progress in processing and properties of ZnO",

abstract = "ZnO is attracting considerable attention for its possible application to UV light emitters, spin functional devices, gas sensors, transparent electronics and surface acoustic wave devices. There is also interest in integrating ZnO with other wide bandgap ceramic semiconductors such as the AlInGaN system. In this paper we summarize recent progress in doping control, materials processing methods such as dry etching and ohmic and Schottky contact formation, new understanding of the role of hydrogen and finally the prospects for control of ferromagnetism in transition metal-doped ZnO.",

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AU - Norton, D. P.

AU - Ip, K.

AU - Heo, Y. W.

AU - Steiner, T.

PY - 2003

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N2 - ZnO is attracting considerable attention for its possible application to UV light emitters, spin functional devices, gas sensors, transparent electronics and surface acoustic wave devices. There is also interest in integrating ZnO with other wide bandgap ceramic semiconductors such as the AlInGaN system. In this paper we summarize recent progress in doping control, materials processing methods such as dry etching and ohmic and Schottky contact formation, new understanding of the role of hydrogen and finally the prospects for control of ferromagnetism in transition metal-doped ZnO.

AB - ZnO is attracting considerable attention for its possible application to UV light emitters, spin functional devices, gas sensors, transparent electronics and surface acoustic wave devices. There is also interest in integrating ZnO with other wide bandgap ceramic semiconductors such as the AlInGaN system. In this paper we summarize recent progress in doping control, materials processing methods such as dry etching and ohmic and Schottky contact formation, new understanding of the role of hydrogen and finally the prospects for control of ferromagnetism in transition metal-doped ZnO.

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ER -

Recent progress in processing and properties of ZnO

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