Publications
Modified competitive Langmuir model for prediction of multispecies PFAS competitive adsorption equilibria on colloidal activated carbon. Separation and Purification Technology, 127368.
. (2024). Removal of PFAS by Hydrotalcite: Adsorption Mechanisms, Effect of Adsorbent Aging, and Thermal Regeneration. Water Research, 121925.
. (2024). Analysis of colloidal activated carbon alternatives for in situ remediation of a large PFAS plume and source area. Remediation Journal.
(2024). The Fate of 15 PFAS in Two Full-Scale Wastewater Sludge Handling Systems: An Interstage Mass Balance Analysis. ACS ES&T Water.
. (2024). Factors Affecting the Adsorption of Per- and Polyfluoroalkyl Substances (PFAS) by Colloidal Activated Carbon. Water Research, 120212.
. (2023). The Analysis of Per- and Polyfluoroalkyl Substances in Wastewater Sludges and Biosolids: Which Adsorbents Should be Used for the Cleanup of Extracts?. Environmental Science: Water Research & Technology, 9(3), 794-805.
. (2023). A Field-Validated Passive Sampler for the Monitoring of Per- and Polyfluoroalkyl Substances (PFAS) in Sediment Pore Water and Surface Water. Environmental Science: Processes and Impacts .
. (2023). Longevity of Colloidal Activated Carbon for In-Situ PFAS Remediation at AFFF-Contaminated Airport Sites. Remediation Journal.
. (2022). Evidence of Precipitate Formation and Byproduct Transfer to Non-Aqueous Phase Liquids as a Result of Persulfate Exposure. Remediation Journal, 32(3), 211-219.
. (2022). Treatment of Electrochemical Plating Wastewater by Heterogeneous Photocatalysis: The Simultaneous removal of 6:2 Fluorotelomer Sulfonate and Hexavalent Chromium. RSC Advances, (11), 37472 - 37481.
. (2021). How Does Periodic Polarity Reversal Affect the Faradaic Efficiency and Electrode Fouling during Iron Electrocoagulation?. Water Research, 203, 117497.
. (2021). Synergistic Effect Between the S-TiO2 photocatalyst and the Fenton-like System: Enhanced Contaminant Oxidation Under Visible Light Illumination. Journal of Environmental and Chemical Engineering, 104598.
(2021). Mitigating Electrode Scaling in Electrocoagulation by Means of Polarity Reversal: The Effects of Electrode Type, Current Density, and Polarity Reversal Frequency. Water Research, 117074.
. (2021). Activation of Hydrogen Peroxide by a Titanium Oxide-Supported Iron Catalyst: Evidence for Surface Fe(IV) and Its Selectivity. Environmental Science & Technology, 54(23), 15424-15432.
(2020). Treatment of sulfolane in groundwater: a critical review. Journal of Environmental Management, 110385.
. (2020). Nickel–Nickel Oxide Nanocomposite as a MagneticallySeparable Persulfate Activator for the Nonradical Oxidationof Organic Contaminants. Journal of Hazardous Materials, 121767.
(2020). Reduction of chlorendic acid by zero-valent iron: kinetics, products, and pathways. Journal of Hazardous Materials, 121269.
. (2020). In situ chemical oxidation of chlorendic acid by persulfate: Elucidation of the roles of adsorption and oxidation on chlorendic acid removal. Water Research, 162, 78-86. Retrieved from doi.org/10.1016/j.watres.2019.06.061
. (2019). Effective removal of silica and sulfide from oil sands thermal in-situproduced water by electrocoagulation. Journal of Hazardous Materials, 380, 120880.
. (2019). Evaluating the longevity of a PFAS in situ colloidal activated carbon remedy. Remediation Journal, 29, 17-31. doi:10.1002/rem.21593
. (2019).