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Rapid in situ degradation of chlorinated solvents present as nonaqueous phase liquids (NAPL) can be accomplished using reactive zerovalent nanoiron particles. Prior studies have shown that nanoiron transport in the subsurface is limited, and successful delivery of the nanoiron is essential for effective remediation. Here, the physical properties of bare and(More)
Reactive zero valent iron nanoparticles can degrade toxic nonaqueous phase liquids (NAPL) rapidly in contaminated groundwater to nontoxic products in situ, provided they can be delivered preferentially to the NAPL/water (oil/water) interface. This study demonstrates the ability of novel triblock copolymers to modify the nanoiron surface chemistry in a way(More)
Ion-Induced Nucleation of Atmospheric Aerosols………………………………………………………...31 Abstract: Delivering Functional Fe(0)-Based Nanoparticles for In Situ Degradation of DNAPL Chlorinated Organic Solvents…………………………………………………………………………………………44 Abstract: Nanostructured Catalysts for Environmental Remediation of Chlorinated Compounds………………….52 Abstract: Synthesis and(More)
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