D
David P. Norton
Researcher at University of Florida
Publications - 549
Citations - 67855
David P. Norton is an academic researcher from University of Florida. The author has contributed to research in topics: Thin film & Pulsed laser deposition. The author has an hindex of 92, co-authored 549 publications receiving 66007 citations. Previous affiliations of David P. Norton include Harvard University & Louisiana State University.
Papers
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Journal ArticleDOI
Antiferroelectric Behavior in Symmetric KNbO 3 / KTaO 3 Superlattices
TL;DR: The antiferroelectric ordering appears to be induced by cation modulation imposed by the superlattice, which is inconsistent with the nonlinear response for either paraelectric or ferroelectric materials.
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High Jc YBCO films on biaxially textured Ni with oxide buffer layers deposited using electron beam evaporation and sputtering
Frederick Alyious List,Amit Goyal,Mariappan Parans Paranthaman,David P. Norton,Eliot D. Specht,Dominic F. Lee,D. M. Kroeger +6 more
TL;DR: In this article, Epitaxial buffer layers of CeO 2 and yttria-stabilized ZrO 2 (YSZ) have been deposited on biaxially textured nickel using conventional electron beam evaporation and r-f sputtering.
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Synthesis and microstructure of vertically aligned ZnO nanowires grown by high-pressure-assisted pulsed-laser deposition
TL;DR: The microstructure and growth behavior for vertically aligned Zinc oxide (ZnO) nanowires, synthesized on a ZnO thin film template by pulsed-laser deposition (PLD), is reported in this paper.
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High mobility InGaZnO4 thin-film transistors on paper
Wantae Lim,Erica A. Douglas,Suhyun Kim,David P. Norton,S. J. Pearton,Fan Ren,Hongen Shen,W. H. Chang +7 more
TL;DR: In this paper, the fabrication and electrical properties of amorphous (α-)InGaZnO4 thin-film transistors deposited on cellulose paper by sputtering at room temperature were reported.
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Enhanced photoluminescence in epitaxial ZnGa2O4:Mn thin-film phosphors using pulsed-laser deposition
TL;DR: The growth and properties of ZnGa2O4:Mn thin-film phosphors on single crystal substrates using pulsed-laser deposition were investigated in this article.