Zeitler, E., Bocarsly, A. B., & Department, C. (2014). Mechanism of Acid Reduction at Low and High Overpotential Metal Electrodes in the Presence and Absence of CO2: Implications for CO2 Reduction by N-Heterocycles. Princeton, NJ : Princeton University.
Chicago Style (17th ed.) CitationZeitler, Elizabeth, Andrew B. Bocarsly, and Chemistry Department. Mechanism of Acid Reduction at Low and High Overpotential Metal Electrodes in the Presence and Absence of CO2: Implications for CO2 Reduction by N-Heterocycles. Princeton, NJ : Princeton University, 2014.
MLA (9th ed.) CitationZeitler, Elizabeth, et al. Mechanism of Acid Reduction at Low and High Overpotential Metal Electrodes in the Presence and Absence of CO2: Implications for CO2 Reduction by N-Heterocycles. Princeton, NJ : Princeton University, 2014.