Amelia G. Reid
Affiliations: | 2019-2024 | Chemistry | University of Virginia, Charlottesville, VA |
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"Amelia Reid"
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| Sarabamoun ES, Aryal P, Bietsch JM, et al. (2024) Photoluminescence Switching in Quantum Dots Connected with Carboxylic Acid and Thiocarboxylic Acid End-Group Diarylethene Molecules. The Journal of Physical Chemistry. C, Nanomaterials and Interfaces. 128: 20599-20608 |
| Cook EN, Flaxman LA, Reid AG, et al. (2024) Acid Strength Effects on Dimerization during Metal-Free Catalytic Dioxygen Reduction. Journal of the American Chemical Society |
| Moberg ME, Reid AG, Dickie DA, et al. (2024) Pre-equilibrium reactions involving pendent relays improve CO reduction mediated by molecular Cr-based electrocatalysts. Dalton Transactions (Cambridge, England : 2003) |
| Reid AG, Zelenke EA, Moberg ME, et al. (2024) Improving co-electrocatalytic carbon dioxide reduction by optimizing the relative potentials of the redox mediator and catalyst. Chemical Communications (Cambridge, England) |
| Sarabamoun ES, Bietsch JM, Aryal P, et al. (2024) Photoluminescence switching in quantum dots connected with fluorinated and hydrogenated photochromic molecules. Rsc Advances. 14: 424-432 |
| Reid AG, Moberg ME, Koellner CA, et al. (2023) Sterically attenuated electronic communication in cobalt complexes of meridional isoquinoline-derived ligands for applications in electrocatalysis. The Journal of Chemical Physics. 159 |
| Koellner CA, Reid AG, Machan CW. (2023) Correction: Co-electrocatalytic CO reduction mediated by a dibenzophosphole oxide and a chromium complex. Chemical Communications (Cambridge, England). 59: 7112 |
| Koellner CA, Reid AG, Machan CW. (2023) Co-electrocatalytic CO reduction mediated by a dibenzophosphole oxide and a chromium complex. Chemical Communications (Cambridge, England). 59: 6359-6362 |
| Reid AG, Machan CW. (2023) Redox Mediators in Homogeneous Co-electrocatalysis. Journal of the American Chemical Society. 145: 2013-2027 |
| Reid AG, Hooe SL, Moreno JJ, et al. (2022) Homogeneous Electrocatalytic Reduction of CO by a CrNO Complex: Electronic Coupling with a Redox-Active Terpyridine Fragment Favors Selectivity for CO. Inorganic Chemistry |