David G. Whitten
Affiliations: | 1973-1983 | Chemistry | University of North Carolina, Chapel Hill, Chapel Hill, NC |
| 1983-1997 | University of Rochester, Rochester, NY | ||
| 2000-2004 | Arizona State University, Tempe, AZ, United States | ||
| 2005- | University of New Mexico, Albuquerque, NM, United States |
Area:
Fuel CellsWebsite:
https://cbe.unm.edu/faculty-staff/faculty-profiles/david-whitten.htmlGoogle:
"David G. Whitten"Bio:
http://cbme.unm.edu/people/faculty-profiles/david-whitten.html
https://engineering.unm.edu/faculty/directory/chemical-and-nuclear/david-whitten.html
Mean distance: 8.01 | S | N | B | C | P |
Children
Sign in to add trainee| Felix A. Carroll | research assistant | 1967-1969 | UNC Chapel Hill |
| Bruce A. Armitage | research assistant | 1988 | Rochester |
| Russell Schmehl | grad student | 1980 | UNC Chapel Hill |
| Ruth F. Beeston | grad student | 1978-1983 | UNC Chapel Hill |
| Kirk S. Schanze | grad student | 1979-1983 | UNC Chapel Hill |
| Lucian A. Lucia | grad student | 1996-1997 | Rochester |
| Thomas S. Corbitt | grad student | 2010 | Univ. of New Mexico |
| Zhijun Zhou | grad student | 2010 | Univ. of New Mexico |
| Vivian Wing-Wah Yam | post-doc | 1990 | Rochester |
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Publications
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| Kaya K, Khalil M, Fetrow B, et al. (2022) Rapid and Effective Inactivation of SARS-CoV-2 with a Cationic Conjugated Oligomer with Visible Light: Studies of Antiviral Activity in Solutions and on Supports. Acs Applied Materials & Interfaces |
| Walker GC, Schanze KS, Whitten DG. (2021) Remembering Françoise Winnik. Langmuir : the Acs Journal of Surfaces and Colloids. 37: 7627-7629 |
| Monge FA, Jagadesan P, Bondu V, et al. (2020) Highly Effective Inactivation of SARS-CoV-2 by Conjugated Polymers and Oligomers. Acs Applied Materials & Interfaces |
| Schanze KS, Whitten DG, Kell AM, et al. (2020) Highly Effective Inactivation of SARS-CoV-2 by Conjugated Polymers and Oligomers. Medrxiv : the Preprint Server For Health Sciences |
| Scheberl A, Khalil ML, Maghsoodi F, et al. (2020) Quantitative Determination of Dark and Light-Activated Antimicrobial Activity of Poly(Phenylene Ethynylene), Polythiophene, and Oligo(Phenylene Ethynylene) Electrolytes. Acs Applied Materials & Interfaces |
| Zhou X, Mandal S, Jiang S, et al. (2019) Efficient Long-range, Directional Energy Transfer through DNA-Templated Dye Aggregates. Journal of the American Chemical Society |
| Brown DM, Yang J, Strach EW, et al. (2018) Size and Substitution Effect on Antimicrobial Activity of Polythiophene Polyelectrolyte Derivatives Under Photolysis and Dark Conditions. Photochemistry and Photobiology |
| Whitten DG, Tang Y, Zhou Z, et al. (2018) A Retrospective: 10 years of Oligo (phenylene-ethynylene) Electrolytes: Demystifying Nanomaterials. Langmuir : the Acs Journal of Surfaces and Colloids |
| Donabedian PL, Creyer MN, Monge FA, et al. (2017) Detergent-induced self-assembly and controllable photosensitizer activity of diester phenylene ethynylenes. Proceedings of the National Academy of Sciences of the United States of America |
| Huang Y, Pappas HC, Zhang L, et al. (2017) Selective Imaging and Inactivation of Bacteria over Mammalian Cells by Imidazolium-Substituted Polythiophene Chemistry of Materials. 29: 6389-6395 |