Superfund Research Program
Fiona M. Doyle
University of California-Berkeley
College of Engineering
308 McLaughlin Hall #1702
Berkeley, California 94720-1700
Phone: 510-642-7594
Fax: 510-643-8653
Email: fmdoyle@berkeley.edu
Projects
- University of California-Berkeley: Oxidative Remediation of Recalcitrant Contaminants with Persulfate (2006-2022)
Publications
2016
- Liu H, Bruton TA, Li W, Van Buren J, Doyle FM, Prasse C, Sedlak DL. 2016. Oxidation of benzene by persulfate in the presence of Fe(III)- and Mn(IV)-containing oxides: stoichiometric efficiency and transformation products. Environ Sci Technol 50(2):890-898. doi:10.1021/acs.est.5b04815 PMID:26687229
2014
- Liu H, Bruton TA, Doyle FM, Sedlak DL. 2014. In situ chemical oxidation of contaminated groundwater by persulfate: decomposition by Fe(III)- and Mn(IV)-containing oxides and aquifer materials. Environ Sci Technol 48(17):10330-10336. doi:10.1021/es502056d PMID:25133603 PMCID:PMC4151705
2012
- Pham AL, Doyle FM, Sedlak DL. 2012. Inhibitory effect of dissolved silica on H2O2 decomposition by iron(III) and manganese(IV) oxides: implications for H2O2-based in situ chemical oxidation. Environ Sci Technol 46:1055-1062. doi:10.1021/es203612d PMID:22129132 PMCID:PMC3262894
- Pham AL, Doyle FM, Sedlak DL. 2012. Kinetics and efficiency of H2O2 activation by iron-containing minerals and aquifer materials. Water Res 46(19):6454-6462. doi:10.1016/j.watres.2012.09.020 PMID:23047055 PMCID:PMC3891917
- Pham AL, Sedlak DL, Doyle FM. 2012. Dissolution of mesoporous silica supports in aqueous solutions: Implications for mesoporous silica-based water treatment processes. Appl Catal B 126:258-264. doi:10.1016/j.apcatb.2012.07.018 PMID:23055573 PMCID:PMC3465675
2010
- Pham AL, Sedlak DL, Doyle FM. 2010. Production of oxidizing intermediates during corrosion of iron: implications for remediation of contaminants from mineral and metal processing. ECS Trans 28(6):117-127. doi:10.1149/1.3367907
2009
- Pham AL, Lee C, Doyle FM, Sedlak DL. 2009. A silica-supported iron oxide catalyst capable of activating hydrogen peroxide at neutral pH values. Environ Sci Technol 43(23):8930-8935. doi:10.1021/es902296k PMID:19943668 PMCID:PMC2792909