Pilot scale testing composite swellable organosilica nanoscale zero-valent iron—Iron-Osorb®—for in situ remediation of trichloroethylene

Edmiston, Paul L.; Osborne, Christine; Reinbold, Karl P.; Pickett, Deanna C.; and Underwood, Laura A. “Pilot scale testing composite swellable organosilica nanoscale zero-valent iron—Iron-Osorb®—for in situ remediation of trichloroethylene.”Remediation Journal 22.1:105-123 (2011).   Abstract: Iron-Osorb® is a solid composite material of swellable organosilica with embedded…

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Flowback Water Treatment Using Swellable Organosilica Media

Edmiston, P.L.; Keener, J.; Buckwald, S.; Sloan, B.; Terneus, J. “Flowback Water Treatment Using Swellable Organosilica Media.” Proceedings of the Society of Petroleum Engineers (2011), DOI. 10.2115/148973-MS.   Abstract: ABS Materials has developed a new type of swellable organophilic material that extracts a wide array…

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Nanoporous Organosilica for Extended and Triggered Release

P.L. Edmiston “Swellable, Nanoporous Organosilica for Extended and Triggered Release.” Cosmetics and Toiletries: Applied Science 128 (10): 754-763, (2013).   Abstract: Nanoporous organosilica particles were developed to swell upon the addition of organic solvents. These are evaluated here for encapsulating and controlling the release of…

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Advanced Bioretention Filter Media Enhanced with Metal-Osorb Composites: An Innovative Solution for Remediation of Stormwater Runoff.

Yang, Hanbae; Edmiston, Paul L. “Advanced Bioretention Filter Media Enhanced with Metal-Osorb Composites: An Innovative Solution for Remediation of Stormwater Runoff.” Water Environment Federation. Proceedings of the Water Environment Federation, WEFTEC 2014: Session 101 through Session 107, pp. 3963-3975(13) (2016), DOI. 10.2175/193864714815929463 (http://dx.doi.org/10.2175/193864714815929463) Abstract: Advanced…

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