- Du, J., Sabatini, D. A., Butler, E. C. (in press), Preparation, characterization, and regeneration of aluminum (hydr)oxide-amended molecular sieves for fluoride removal from drinking water, Journal of Environmental Engineering, DOI: 10.1061/(ASCE)EE.1943-7870.0001114
- Yami, T. L., Butler, E. C., Sabatini, D.A. (2016), Chemically activated cow bone for increased fluoride removal from drinking water, Journal of Water, Sanitation and Hygiene for Development, 6(2) 215-223, DOI: washdev2016172.
- Lan, Y., Butler, E. C. (2016), Iron-sulfide-associated products formed during reductive dechlorination of carbon tetrachloride, Environmental Science & Technology 50(11), 5489-5497, DOI: 10.1021/acs.est.5b06154.
- Butler, E. C., Chen, L., Hansel, C. M., Krumholz, L. R., Elwood Madden, A. S., Lan, Y. (2015), Biological versus mineralogical chromium reduction: Potential for reoxidation by manganese oxide, Sci.: Processes Impacts 17, 1930–1940.
- Yami, T. L., Du, J., Brunson, L. R., Chamberlain, J. F., Sabatini, D. A., Butler, E. C. (2015), Life cycle assessment of adsorbents for fluoride removal from drinking water in east Africa, International Journal of Life Cycle Assessment 20 (9), 1277-1286.
- Lan, Y., Butler, E. C. (2014), Monitoring the transformation of mackinawite to greigite and pyrite on polymer supports, Applied Geochemistry 50, 1-6.
- Du, J., Sabatini, D. A., Butler, E. C. (2014), Synthesis, characterization, and evaluation of simple aluminum-based adsorbents for fluoride removal from drinking water, Chemosphere 101, 21-27.
- Butler, E. C., Chen, L., Darlington, R. (2013), Transformation of trichloroethylene to predominantly non-regulated products under stimulated sulfate reducing conditions, Ground Water Monitoring and Remediation 33(3), 52-60.
- Liang, X., Zhu, X., Butler, E. C. (2011), Comparison of four advanced oxidation processes for the removal of naphthenic acids from model oil sands process water, Hazard. Mater. 190, 168-176.
- Aurandt, J. L., Butler, E. C. (2011), Sustainability education: Approaches for incorporating sustainability into the undergraduate curriculum, Professional Issues in Eng. Education & Practice, 137, 102-106.
- Dong, Y., Butler, E. C., Philp, R. P., Krumholz, L. R. (2011), Impacts of microbial community composition on isotope fractionation during reductive dechlorination of tetrachloroethylene, Biodegradation 22, 431-444.
- Liang, X., Butler, E. C. (2010), Effects of natural organic matter model compounds on the transformation of carbon tetrachloride by chloride green rust, Water Res. 44, 2125-2132.
- Shao, H., Butler, E. C. (2009), The relative importance of abiotic and biotic transformation of carbon tetrachloride in anaerobic soils and sediments, Soil Sed. Contam. 18, 455-469.
- Shao, H., Butler, E. C. (2009), The influence of soil minerals on the rates and products of abiotic transformation of carbon tetrachloride in anaerobic soils and sediments, Environ. Sci. Technol. 43, 1896-1901.
- Liang, X., Philp, R. P., Butler, E. C. (2009), Kinetic and isotope analyses of tetrachloroethylene and trichloroethylene degradation by model Fe(II)-bearing minerals, Chemosphere 75, 63-69.
- Dong, Y., Liang, X., Krumholz, L. R., Philp, R. P., Butler, E. C. (2009), The relative contributions of abiotic and microbial processes to the transformation of tetrachloroethylene and trichloroethylene in anaerobic microcosms, Sci. Technol. 43, 690-697.
- Zhu, X., Nanny, M. A., Butler, E. C. (2008), Photocatalytic oxidation of aqueous ammonia in model gray waters, Water Res. 42, 2736-2744.
- Liang, X., Dong, Y., Kuder, T., Krumholz, L. R., Philp, R. P., Butler, E. C. (2007), Distinguishing abiotic and biotic transformation of tetrachloroethylene and trichloroethylene by stable carbon isotope fractionation, Environ. Sci. Technol. 41, 7094-7100.
- Shao, H., Butler, E. C. (2007), The influence of iron and sulfur mineral fractions on carbon tetrachloride transformation in model anaerobic soils and sediments, Chemosphere 68, 1807-1813.
- Zhu, X., Nanny, M. A., Butler, E. C. (2007), Effect of inorganic anions on the titanium dioxide-based photocatalytic oxidation of aqueous ammonia and nitrite, Journal of Photochemistry and Photobiology A: Chemistry 185, 289-294.
- Robberson, K. A., Waghe, A. B., Sabatini, D. A., Butler, E. C. (2006), Adsorption of the quinolone antibiotic nalidixic acid onto anion-exchange and neutral polymers, Chemosphere 63, 934-941.
- Hanoch, R. J., Shao, H., Butler, E. C. (2006), Transformation of carbon tetrachloride by bisulfide treated goethite, hematite, magnetite, and kaolinite, Chemosphere 63, 323-334.
- Zhu, X., Castleberry, S. R., Nanny, M. A., Butler, E. C. (2005), Effects of pH and catalyst concentration on photocatalytic oxidation of aqueous ammonia and nitrite in titanium dioxide suspensions, Environ. Sci. Technol. 39, 3784-3791.
- Támara, M. L., Butler, E. C. (2004), Effects of iron purity and groundwater characteristics on rates and products in the degradation of carbon tetrachloride by iron metal, Environ. Sci. Technol. 38, 1866-1876.
- Butler, E. C., Hayes, K. F. (2001), Factors influencing rates and products in the transformation of trichloroethylene by iron sulfide and iron metal, Environ. Sci. Technol. 35, 3884-3891.
- Butler, E. C., Hayes, K. F. (2000), Kinetics of the transformation of halogenated aliphatic compounds by iron sulfide, Environ. Sci. Technol. 34, 422-429.
- Butler, E. C., Hayes, K. F. (1999), Kinetics of the transformation of trichloroethylene and tetrachloroethylene by iron sulfide, Environ. Sci. Technol. 33, 2021-2027.
- Butler, E. C., Hayes, K. F. (1998), Micellar solubilization of non-aqueous phase liquid contaminants by nonionic surfactant mixtures: Effects of sorption, partitioning, and mixing, Water Res. 32, 1345-1354.
- Butler, E. C., Hayes, K. F. (1998), Effects of solution composition and pH on the reductive dechlorination of hexachloroethane by iron sulfide, Environ. Sci. Technol. 32, 1276-1284.
- Butler, E. C., Davis, A. P. (1993), Photocatalytic oxidation in aqueous titanium dioxide suspensions: The influence of dissolved transition metals, J. Photochem. Photobiol. A: Chem. 70, 273-283.