Influences of sodium borohydride concentration on direct borohydride fuel cell performance

In this study, the influences of different operational conditions such as cell temperature, sodium hydroxide concentration, oxidant conditions and catalyst loading on the performance of direct borohydride fuel cell which consisted of Pd/C anode, Pt/C cathode and Na + form Nafion membrane as the elec

In this study, the effects of the additive thiourea (TU) have been investigated under steady state/steady-flow and uniform state/uniform-flow systems with the aim of minimizing the anodic hydrogen evolution on Pd in order to increase the performance of a direct borohydride fuel cell. The fuel cell h

The effect of adding small quantities (0.1-1 wt.%) of sodium borohydride (NaBH 4 ) to the anolyte solution of direct ethanol fuel cells (DEFCs) with membrane-electrode assemblies constituted by nanosized Pd/C anode, Fe-Co cathode and anion-exchange membrane (Tokuyama A006) was investigated by means

A fuel cell configuration using alkaline NaBH 4 -N 2 H 4 solutions as the fuel is suggested. Gas evolution behaviors and cell performances of alkaline NaBH 4 -N 2 H 4 solutions on different catalysts have been studied. It is found that gas evolution behaviors are influenced by the applied anodic cat