Year |
Citation |
Score |
2020 |
Kim HH, Lee H, Lee D, Ko YJ, Woo H, Lee J, Lee C, Pham AL. Activation of Hydrogen Peroxide by a Titanium Oxide-Supported Iron Catalyst: Evidence for Surface Fe(IV) and Its Selectivity. Environmental Science & Technology. PMID 33179924 DOI: 10.1021/acs.est.0c04262 |
0.401 |
|
2020 |
Dinh M, Hakimabadi SG, Pham AL. Treatment of sulfolane in groundwater: A critical review. Journal of Environmental Management. 263: 110385. PMID 32174527 DOI: 10.1016/J.Jenvman.2020.110385 |
0.382 |
|
2019 |
Kim HH, Lee D, Choi J, Lee H, Seo J, Kim T, Lee KM, Pham AL, Lee C. Nickel-Nickel oxide nanocomposite as a magnetically separable persulfate activator for the nonradical oxidation of organic contaminants. Journal of Hazardous Materials. 121767. PMID 31813689 DOI: 10.1016/J.Jhazmat.2019.121767 |
0.363 |
|
2019 |
Kim MS, Piggott E, Zrinyi N, Lee C, Pham AL. Reduction of chlorendic acid by zero-valent iron: Kinetics, products, and pathways. Journal of Hazardous Materials. 384: 121269. PMID 31585280 DOI: 10.1016/J.Jhazmat.2019.121269 |
0.301 |
|
2019 |
Chow H, Pham AL. Effective removal of silica and sulfide from oil sands thermal in-situ produced water by electrocoagulation. Journal of Hazardous Materials. 380: 120880. PMID 31306999 DOI: 10.1016/J.Jhazmat.2019.120880 |
0.377 |
|
2019 |
Taylor A, Zrinyi N, Mezyk SP, Gleason JM, MacKinnon L, Przepiora A, Pham AL. 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. PMID 31255783 DOI: 10.1016/J.Watres.2019.06.061 |
0.411 |
|
2019 |
Pham AL, Sedlak DL, Doyle FM. Production of Oxidizing Intermediates during Corrosion of Iron: Implications for Remediation of Contaminants from Mineral and Metal Processing Ecs Transactions. 28: 117-127. DOI: 10.1149/1.3367907 |
0.706 |
|
2017 |
Zrinyi N, Pham AL. Oxidation of benzoic acid by heat-activated persulfate: Effect of temperature on transformation pathway and product distribution. Water Research. 120: 43-51. PMID 28478294 DOI: 10.1016/J.Watres.2017.04.066 |
0.339 |
|
2015 |
Pham A, Johnson CA, Manley D, Hsu-Kim H. Influence of sulfide nanoparticles on dissolved mercury and zinc quantification by diffusive gradient in thin-films (DGT) passive samplers. Environmental Science & Technology. PMID 26414810 DOI: 10.1021/Acs.Est.5B02774 |
0.629 |
|
2012 |
Pham AL, Sedlak DL, Doyle FM. Dissolution of Mesoporous Silica Supports in Aqueous Solutions: Implications for Mesoporous Silica-based Water Treatment Processes. Applied Catalysis. B, Environmental. 126: 258-264. PMID 23055573 DOI: 10.1016/J.Apcatb.2012.07.018 |
0.706 |
|
2012 |
Pham AL, Doyle FM, Sedlak DL. Kinetics and efficiency of H2O2 activation by iron-containing minerals and aquifer materials. Water Research. 46: 6454-62. PMID 23047055 DOI: 10.1016/J.Watres.2012.09.020 |
0.722 |
|
2012 |
Pham AL, Doyle FM, Sedlak DL. Inhibitory effect of dissolved silica on H₂O₂ decomposition by iron(III) and manganese(IV) oxides: implications for H₂O₂-based in situ chemical oxidation. Environmental Science & Technology. 46: 1055-62. PMID 22129132 DOI: 10.1021/Es203612D |
0.727 |
|
2009 |
Pham AL, Lee C, Doyle FM, Sedlak DL. A silica-supported iron oxide catalyst capable of activating hydrogen peroxide at neutral pH values. Environmental Science & Technology. 43: 8930-5. PMID 19943668 DOI: 10.1021/Es902296K |
0.733 |
|
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