F
Fan Ren
Researcher at University of Florida
Publications - 1503
Citations - 39913
Fan Ren is an academic researcher from University of Florida. The author has contributed to research in topics: Schottky diode & Ohmic contact. The author has an hindex of 84, co-authored 1440 publications receiving 35984 citations. Previous affiliations of Fan Ren include Durham University & New York University.
Papers
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Gan : processing, defects, and devices
TL;DR: The role of extended and point defects, and key impurities such as C, O, and H, on the electrical and optical properties of GaN is reviewed in this article, along with the influence of process-induced or grown-in defects and impurities on the device physics.
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A review of Ga2O3 materials, processing, and devices
Stephen J. Pearton,Jiancheng Yang,Patrick H. Cary,Fan Ren,Jihyun Kim,Marko J. Tadjer,Michael A. Mastro +6 more
TL;DR: The role of defects and impurities on the transport and optical properties of bulk, epitaxial, and nanostructures material, the difficulty in p-type doping, and the development of processing techniques like etching, contact formation, dielectrics for gate formation, and passivation are discussed in this article.
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Wide band gap ferromagnetic semiconductors and oxides
Stephen J. Pearton,Cammy R. Abernathy,M. E. Overberg,G. T. Thaler,David P. Norton,Nikoleta Theodoropoulou,Arthur F. Hebard,Yun Daniel Park,Fan Ren,Jihyun Kim,Lynn A. Boatner +10 more
TL;DR: In this paper, a review focusing on promising candidate materials (such as GaN, GaP and ZnO) is presented, where the introduction of Mn into these and other materials under the right conditions is found to produce ferromagnetism near or above room temperature.
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ZnO nanowire growth and devices
Young-Woo Heo,David P. Norton,Li-Chia Tien,Y. W. Kwon,B. S. Kang,Fan Ren,Stephen J. Pearton,Jeffrey R. LaRoche +7 more
TL;DR: In this paper, a detailed review of fabrication methods for obtaining device functionality from single ZnO nanorods is presented, where a key aspect is the use of sonication to facilitate transfer of the nanorod from the initial substrate on which they are grown to another substrate for device fabrication.
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Hydrogen-selective sensing at room temperature with ZnO nanorods
Hung-Ta Wang,B. S. Kang,Fan Ren,Li-Chia Tien,P.W. Sadik,David P. Norton,Stephen J. Pearton,Jenshan Lin +7 more
TL;DR: In this article, a sputter-depositing clusters of Pd on the surface of a ZnO nanorod was used to detect hydrogen in the presence of air or pure O2.