A split pH direct liquid fuel cell powered by propanol or glycerol

A split pH fuel cell was constructed using an alkaline fuel stream containing NaOH and an alcohol fuel (glycerol, 1-propanol, or 2-propanol) with an acidic oxidant stream containing H2SO4 and 3% H2O2 ; the electrodes were Pd black anode and N black or carbon black cathode separated by a cation exchange membrane with Na+ substituted for H+. The split pH environment improves the thermodynamics of the fuel cell by creating a large potential difference between electrodes, and it provides improved kinetics by lowering the pH of the anode to optimum conditions for alcohol oxidation. When the fuel cell was constructed with a carbon black cathode, significant performance was observed, with maximum power density as high as 115 mW cm(-2) for 1-propanol, 105 for glycerol, and 101 for 2-propanol. When the cathode was constructed with N black, the power densities increased as high as 275 mW cm(-2) for glycerol, 241 for 1-propanol, and 228 for 2-propanol. This performance with N is the highest to our knowledge for these fuels in the open literature.