S
Scott A. Bradford
Researcher at Agricultural Research Service
Publications - 164
Citations - 11480
Scott A. Bradford is an academic researcher from Agricultural Research Service. The author has contributed to research in topics: Colloid & Ionic strength. The author has an hindex of 56, co-authored 156 publications receiving 9705 citations. Previous affiliations of Scott A. Bradford include University of California, Riverside & United States Department of Agriculture.
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Impact of phosphate adsorption on the mobility of PANI-supported nano zero-valent iron
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Aging of colloidal contaminants and pathogens in the soil environment: Implications for nanoplastic and COVID‐19 risk mitigation
TL;DR: In this paper , a review of colloid aging mechanisms and characteristics and implications for risk mitigation are provided, with a special focus on emerging nanoplastic (NP) contaminants and associated physical, chemical, and biological aging processes in soil environments.
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Adapting HYDRUS-1D to Simulate Overland Flow and Reactive Transport during Sheet Flow Deviations
TL;DR: In this paper, the HYDRUS-1D model was adapted to simulate physical nonequilibrium overland flow and transport at the soil surface, and the results obtained by the new model produced an excellent agreement with an analytical solution for the kinematic wave equation.
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Virus transport from drywells under constant head conditions: A modeling study.
TL;DR: In this article, the authors quantitatively examined virus transport from a drywell, especially in the presence of subsurface heterogeneity, and showed that low levels of virus concentration tailing can occur even at a separation distance of 22m from the bottom of the drywell.
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Novel analytical expressions for determining van der Waals interaction between a particle and air-water interface: Unexpected stronger van der Waals force than capillary force
Yichun Du,Yichun Du,Scott A. Bradford,Chongyang Shen,Tiantian Li,Xiaoyuan Bi,Dong Liu,Yuanfang Huang +7 more
TL;DR: In this paper, the authors further developed analytical expressions and numerical approaches for determining Hamaker constant and van der Waals energy/force for the particle approaching and penetrating air-water interface (AWI), respectively.