Stephen E. Saddow
Affiliations: | University of South Florida, Tampa, FL, United States |
Area:
Electronics and Electrical Engineering, Biomedical Engineering, BiochemistryWebsite:
http://www.eng.usf.edu/~saddow/Google:
"Stephen Edward Saddow"Bio:
http://www.eng.usf.edu/~saddow/resume.html
Mean distance: (not calculated yet)
Parents
Sign in to add mentor| Chi H. Lee | grad student | 1993 | University of Maryland (Physics Tree) | |
| (Optical control of microwave integrated circuits using high-speed photoconductive switches.) | ||||
Children
Sign in to add trainee| Chenyin Feng | grad student | ||
| Maciej Dybiec | grad student | 2006 | University of South Florida |
| Rachael L. Myers-Ward | grad student | 2006 | University of South Florida |
| Camilla Coletti | grad student | 2007 | University of South Florida |
| Jeremy M. Walker | grad student | 2007 | University of South Florida |
| Meralys Reyes-Natal | grad student | 2008 | University of South Florida |
| Christopher L. Frewin | grad student | 2009 | University of South Florida |
| Norelli Schettini | grad student | 2009 | University of South Florida |
| Christopher Locke | grad student | 2011 | University of South Florida |
| Luca Abbati | grad student | 2012 | University of South Florida |
| Shamima Afroz | grad student | 2013 | University of South Florida |
| Alexandra Oliveros Villalba | grad student | 2013 | University of South Florida |
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Publications
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| Montero-Arevalo B, Seufert BI, Hossain MS, et al. (2023) SiC Electrochemical Sensor Validation for Alzheimer Aβ Antigen Detection. Micromachines. 14 |
| Feng C, Frewin CL, Tanjil MR, et al. (2021) A Flexible -SiC-Based Neural Interface Utilizing Pyrolyzed-Photoresist Film (C) Active Sites. Micromachines. 12 |
| Beygi M, Dominguez-Viqueira W, Feng C, et al. (2021) Silicon Carbide and MRI: Towards Developing a MRI Safe Neural Interface. Micromachines. 12 |
| Koh D, Banerjee SK, Locke C, et al. (2020) Erratum: “Valence and conduction band offsets at beryllium oxide interfaces with silicon carbide and III-V nitrides” [J. Vac. Sci. Technol. B 37, 041206 (2019)] Journal of Vacuum Science & Technology. B. Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena. 38: 37001 |
| Murooka T, Hatano M, Yaita J, et al. (2020) Characterization of Schottky Barrier Diodes on Heteroepitaxial Diamond on 3C-SiC/Si Substrates Ieee Transactions On Electron Devices. 67: 212-216 |
| Beygi M, Bentley JT, Frewin CL, et al. (2019) Fabrication of a Monolithic Implantable Neural Interface from Cubic Silicon Carbide. Micromachines. 10 |
| Bange R, Bano E, Rapenne L, et al. (2019) Development of SOI FETs Based on Core-Shell Si/SiC Nanowires for Sensing in Liquid Environments Materials Science Forum. 963: 701-706 |
| Koh D, Banerjee SK, Locke C, et al. (2019) Valence and conduction band offsets at beryllium oxide interfaces with silicon carbide and III-V nitrides Journal of Vacuum Science & Technology. B. Nanotechnology and Microelectronics: Materials, Processing, Measurement, and Phenomena. 37: 41206 |
| Bernardin EK, Frewin CL, Everly R, et al. (2018) Correction: Bernardin E.K.; et al. Demonstration of a Robust All-Silicon-Carbide Intracortical Neural Interface. Micromachines, 2018, 9, 412. Micromachines. 9 |
| Bernardin EK, Frewin CL, Everly R, et al. (2018) Demonstration of a Robust All-Silicon-Carbide Intracortical Neural Interface. Micromachines. 9 |