Brian A. Powell
Affiliations: | Environmental Engineering and Earth Sciences | Clemson University, Clemson, SC, United States |
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"Brian Powell"
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| Edayilam N, Ferguson BO, Montgomery DA, et al. (2020) Dissolution and vertical transport of uranium from stable mineral forms by plants as influenced by the co-occurrence of uranium with phosphorus. Environmental Science & Technology |
| Maloubier M, Emerson HP, Peruski KM, et al. (2020) Impact of natural organic matter on plutonium vadose zone migration from an NH4Pu(V)O2CO3(s) source. Environmental Science & Technology |
| Peruski KM, Koehler K, Powell B. (2020) Grain boundary facilitated dissolution of nanocrystalline NpO2(s) from legacy waste processing Environmental Science. Nano. 7: 2293-2301 |
| Dickson J, Conroy NA, Xie Y, et al. (2020) Surfactant-modified siliceous zeolite Y for pertechnetate remediation Chemical Engineering Journal. 402: 126268 |
| Emerson HP, Kaplan DI, Powell BA. (2019) Plutonium binding affinity to sediments increases with contact time Chemical Geology. 505: 100-107 |
| Hixon AE, Powell BA. (2018) Plutonium environmental chemistry: mechanisms for the surface-mediated reduction of Pu(v/vi). Environmental Science. Processes & Impacts |
| Xie Y, Powell BA. (2018) A Linear Free Energy Relationship for Actinide Sorption to Graphene Oxide. Acs Applied Materials & Interfaces |
| Li D, Kaplan DI, Sams A, et al. (2018) Removal capacity and chemical speciation of groundwater iodide (I) and iodate (IO) sequestered by organoclays and granular activated carbon. Journal of Environmental Radioactivity. 192: 505-512 |
| Edayilam N, Montgomery DA, Ferguson BO, et al. (2018) Phosphorus stress-induced changes in plant root exudation could potentially facilitate uranium mobilization from stable mineral forms. Environmental Science & Technology |
| Peruski KM, Maloubier M, Kaplan DI, et al. (2018) Mobility of aqueous and colloidal neptunium species in field lysimeter experiments. Environmental Science & Technology |