(24) SiO2–RuO2: A Stable Electrocatalyst Support C. P. Lo & V. Ramani, ACS Applied Materials & Interfaces, 4(11), pp. 6109-6116, (2012).
(23) CeO2 Surface Oxygen Vacancy Concentration Governs in Situ Free Radical Scavenging Efficacy in Polymer Electrolytes P. Trogadas, J. Parrondo, & V. Ramani, ACS Applied Materials & Interfaces, 4(10), pp. 5098-5102, (2012).
(22) Kinetics of the oxygen reduction reaction on Pd3M (M= Cu, Ni, Fe) electrocatalysts synthesized at elevated annealing temperatures M. Ramanathan, V. Ramani, & J. Prakash, Electrochimica acta, 75, pp. 254-261, (2012).
(21) Investigation of polymer electrolyte membrane chemical degradation and degradation mitigation using in situ fluorescence spectroscopy V. Prabhakaran, C. G. Arges, & V. Ramani, Proceedings of the National Academy of Sciences, 109(4), pp. 1029-1034, (2012).
(20) Assessing the influence of different cation chemistries on ionic conductivity and alkaline stability of anion exchange membranes C. G. Arges, J. Parrondo, G. Johnson, A. Nadhan, & V. Ramani, Journal of Materials Chemistry, 22(9), pp. 3733-3744, (2012).