Elisabeth G. Gwinn
Affiliations: | Physics | University of California, Santa Barbara, Santa Barbara, CA, United States |
Area:
Condensed Matter Experimental PhysicsWebsite:
http://physics.ucsb.edu/people/elisabeth-gwinnGoogle:
"Elisabeth Gray Gwinn"Bio:
http://web.physics.ucsb.edu/~gwinngroup/
https://www.physics.harvard.edu/academics/phds-1970-99
Mean distance: 13.13 | S | N | B | C | P |
Parents
Sign in to add mentor| Robert M. Westervelt | grad student | 1987 | Harvard | |
| (Quasiperiodicity and Frequency Locking in Electronic Conduction in Germanium.) | ||||
Children
Sign in to add trainee| David P. Druist | grad student | 2001 | UC Santa Barbara |
| Tobias A. Eckhause | grad student | 2001 | UC Santa Barbara |
| Juliet S. Correa | grad student | 2003 | UC Santa Barbara |
| Theodore C. Kreutz | grad student | 2003 | UC Santa Barbara |
| Heather A. Walling | grad student | 2003 | UC Santa Barbara |
| Stacy M Copp | grad student | 2011-2016 | UC Santa Barbara |
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Publications
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| Neacşu VA, Cerretani C, Liisberg MB, et al. (2020) Unusually large fluorescence quantum yield for a near-infrared emitting DNA-stabilized silver nanocluster. Chemical Communications (Cambridge, England) |
| Copp SM, Swasey SM, Gorovits A, et al. (2019) General Approach for Machine Learning-Aided Design of DNA-Stabilized Silver Clusters Chemistry of Materials. 32: 430-437 |
| Swasey SM, Rosu F, Copp SM, et al. (2018) Parallel Guanine Duplex and Cytosine Duplex DNA with Uninterrupted Spines of Ag-Mediated Base Pairs. The Journal of Physical Chemistry Letters |
| Swasey SM, Copp SM, Nicholson HC, et al. (2018) High throughput near infrared screening discovers DNA-templated silver clusters with peak fluorescence beyond 950 nm. Nanoscale. 10: 19701-19705 |
| Swasey SM, Nicholson HC, Copp SM, et al. (2018) Adaptation of a visible wavelength fluorescence microplate reader for discovery of near-infrared fluorescent probes. The Review of Scientific Instruments. 89: 095111 |
| Copp SM, Gorovits A, Swasey SM, et al. (2018) Fluorescence Color by Data-Driven Design of Genomic Silver Clusters. Acs Nano |
| Bogh SA, Carro-Temboury MR, Cerretani C, et al. (2018) Unusually large Stokes shift for a near-infrared emitting DNA-stabilized silver nanocluster. Methods and Applications in Fluorescence. 6: 024004 |
| Copp SM, Schultz DE, Swasey S, et al. (2016) Cluster Plasmonics: Dielectric and Shape Effects on DNA-Stabilized Silver Clusters. Nano Letters |
| Copp SM, Bogdanov P, Debord M, et al. (2016) Base Motif Recognition and Design of DNA Templates for Fluorescent Silver Clusters by Machine Learning. Advanced Materials (Deerfield Beach, Fla.). 28: 3043 |
| Copp SM, Faris A, Swasey SM, et al. (2016) Heterogeneous Solvatochromism of Fluorescent DNA-Stabilized Silver Clusters Precludes Use of Simple Onsager-Based Stokes Shift Models. The Journal of Physical Chemistry Letters. 698-703 |