Pan, A., Dykstra, C.M., Pavlostathis, S.G. (in preparation), “Laccase-adsorbed single wall carbon nanotubes as a novel cathode in microbial fuel cells”.

Dykstra, C.M., Costa, B., Pavlostathis, S.G. (under revision), “Bioanode sulfur cycling enhances biocathodic carbon dioxide reduction to methane”.

Dou, Z., Dykstra, C.M., Pavlostathis, S.G. (2018), “Bioelectrochemically assisted anaerobic digestion system for biogas upgrading and enhanced methane production”. Science of the Total Environment, 633(2018), 1012-1021.

Dykstra, C.M., Pavlostathis, S.G. (2017), “Zero valent iron enhances biocathodic carbon dioxide reduction to methane”. Environmental Science & Technology, 51(21), 12956-12964.

Dykstra, C., Pavlostathis, S.G. (2017), “Methanogenic biocathode microbial community development and the role of Bacteria”, Environmental Science & Technology, 51(9), 5306-5316.

Dykstra, C., Pavlostathis, S.G. (2017), “Evaluation of gas and carbon transport in a methanogenic bioelectrochemical system (BES)”, Biotechnology & Bioengineering, 114(5), 961-969.

Dykstra, C., Giles, H.D., Banerjee, S., Pavlostathis, S.G. (2015), “Fate of phytosterols in a simulated aerated stabilization basin”, Water Research, 68(1), 589-600.

Dykstra, C., Giles, H.D., Banerjee, S., Pavlostathis, S.G. (2014), “Biotransformation of phytosterols under aerobic conditions”, Water Research, 58(1), 71-81.

Dykstra, C., Giles, H.D., Banerjee, S., Pavlostathis, S.G. (2014), “Biotransformation potential of phytosterols under anoxic and anaerobic conditions”, Water Science and Technology, 69(8), 1661-1668.