Phillip T. Hagerty
University of Dayton
5 Papers
1 Citations
Phillip T. Hagerty is an academic researcher from University of Dayton. The author has contributed to research in topics: Nanoelectronics & Boron nitride. The author has an hindex of 2, co-authored 5 publications. Previous affiliations of Phillip T. Hagerty include Air Force Research Laboratory.
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Papers
Amorphous Boron Nitride: A Universal, Ultrathin Dielectric For 2D Nanoelectronics
Nicholas R. Glavin,Nicholas R. Glavin,Christopher Muratore,Michael L. Jespersen,Michael L. Jespersen,Jianjun Hu,Jianjun Hu,Phillip T. Hagerty,Phillip T. Hagerty,Al M. Hilton,Al M. Hilton,Austin T. Blake,Christopher A. Grabowski,Michael F. Durstock,Michael E. McConney,Drew M. Hilgefort,Drew M. Hilgefort,Timothy S. Fisher,Andrey A. Voevodin +18 more
TL;DR: In this article, a large area pulsed laser deposition growth technique was used to obtain a device-scale dielectric constant of 5.9 ± 0.65 at 1 kHz, breakdown voltage of 9.8 ± 1.0 MV cm−1, and bandgap of 4.5 eV for various thicknesses of the ultrathin amorphous boron nitride material.
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Direct synthesis of ultra-thin large area transition metal dichalcogenides and their heterostructures on stretchable polymer surfaces - Erratum (Journal of Materials Research (2016) 31, 7, (967 974) DOI: 10.1557/jmr.2016.36)
Michael E. McConney,Nicholas R. Glavin,Abigail T. Juhl,Michael H. Check,Michael F. Durstock,Andrey A. Voevodin,Travis E. Shelton,John E. Bultman,Jianjun Hu,Michael L. Jespersen,Maneesh K. Gupta,Rachel D. Naguy,Jennifer G. Colborn,Aman Haque,Phillip T. Hagerty,Randall E. Stevenson,Christopher Muratore +16 more
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Nanoelectronics: Amorphous Boron Nitride: A Universal, Ultrathin Dielectric For 2D Nanoelectronics (Adv. Funct. Mater. 16/2016)
Nicholas R. Glavin,Nicholas R. Glavin,Christopher Muratore,Michael L. Jespersen,Michael L. Jespersen,Jianjun Hu,Jianjun Hu,Phillip T. Hagerty,Phillip T. Hagerty,Al M. Hilton,Al M. Hilton,Austin T. Blake,Christopher A. Grabowski,Michael F. Durstock,Michael E. McConney,Drew M. Hilgefort,Drew M. Hilgefort,Timothy S. Fisher,Andrey A. Voevodin +18 more
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Direct synthesis of ultra-thin large area transition metal dichalcogenides and their heterostructures on stretchable polymer surfaces
Michael E. McConney,Nicholas R. Glavin,Abigail T. Juhl,Michael H. Check,Michael F. Durstock,Andrey A. Voevodin,Travis E. Shelton,Travis E. Shelton,John E. Bultman,John E. Bultman,Jianjun Hu,Jianjun Hu,Michael L. Jespersen,Michael L. Jespersen,Maneesh K. Gupta,Maneesh K. Gupta,Rachel D. Naguy,Rachel D. Naguy,Jennifer G. Colborn,Jennifer G. Colborn,Aman Haque,Phillip T. Hagerty,Phillip T. Hagerty,Randall E. Stevenson,Randall E. Stevenson,Christopher Muratore,Christopher Muratore +26 more
TL;DR: In this article, a scalable approach for synthesis of ultra-thin transition metal dichalcogenides (TMD) films on stretchable polymeric materials is presented, where magnetron sputtering from pure TMD targets, such as MoS2 and WS2, was used for growth of amorphous precursor films at room temperature on polydimethylsiloxane substrates.