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  • Navid B. Saleh, H. Kim, T. Phenrat, K. Matyjaszewski, R. Tilton, G. Lowry
  • Medicine, Environmental Science
  • Environmental science & technology
  • 2008 (First Publication: 5 April 2008)
  • The surfaces of nanoscale zerovalent iron (NZVI) used for groundwater remediation must be modified to be mobile in the subsurface for emplacement. Adsorbed polymers and surfactants canExpand
  • T. Phenrat, Navid B. Saleh, Kevin Sirk, H. Kim, R. Tilton, G. Lowry
  • Materials Science
  • 2008 (First Publication: 1 May 2008)
  • Nanoscale zerovalent iron (NZVI) particles are 5–40 nm sized Fe0/Fe-oxide particles that rapidly transform many environmental contaminants to benign products and are a promising in situ remediationExpand
  • T. Phenrat, H. Kim, F. Fagerlund, T. Illangasekare, R. Tilton, G. Lowry
  • Chemistry, Medicine
  • Environmental science & technology
  • 2009 (First Publication: 27 May 2009)
  • The effect of particle concentration, size distribution (polydispersity) and magnetic attractive forces (Fe(0) content) on agglomeration and transport of poly(styrene sulfonate) (PSS) modified NZVIExpand
  • T. Phenrat, H. Kim, F. Fagerlund, T. Illangasekare, G. Lowry
  • Chemistry, Medicine
  • Journal of contaminant hydrology
  • 2010 (First Publication: 25 November 2010)
  • Controlled emplacement of polyelectrolyte-modified nanoscale zerovalent iron (NZVI) particles at high particle concentration (1-10 g/L) is needed for effective in situ subsurface remediation usingExpand
  • T. Phenrat, Yueqiang Liu, R. Tilton, G. Lowry
  • Chemistry, Medicine
  • Environmental science & technology
  • 2009 (First Publication: 29 January 2009)
  • The surfaces of reactive nanoscale zerovalent iron (NZVI) particles used for in situ groundwater remediation are modified with polymers or polyelectrolytes to enhance colloidal stability and mobilityExpand