Ni–Pt/C as anode electrocatalyst for a direct borohydride fuel cell

In this study, carbon-supported PtNi alloys with different molar ratios synthesized by borohydride reduction were evaluated as anode catalysts for sodium borohydride fuel cells. The higher angle shifts of the Pt peaks from X-ray diffraction (XRD) account for the alloy formation between Pt and Ni. Th

Hollow carbon spheres (HCSs) were prepared through a simple hydrothermal method using silica particles and glucose as the template and carbon precursor, respectively. HCSs used as supports for platinum catalysts deposited with cerium oxide (CeO 2 ) were prepared for application as anode catalysts in

Low-temperature direct alcohol fuel cells fed with different kinds of alcohol (methanol, ethanol and 2-propanol) have been investigated by employing ternary electrocatalysts (PteRueSn) as anode catalysts. Combinatorial chemistry has been applied to screen the 66-PtRuSn-anode arrays at the same time

In this study, the electrooxidation of ethanol on carbon supported Pt-Ru-Ni and Pt-Sn-Ni catalysts is electrochemically studied through cyclic voltammetry at 50 • C in direct ethanol fuel cells. All electrocatalysts are prepared using the ethylene glycol-reduction process and are chemically characte

Direct borohydride fuel cell Au (1Àx) Zn x bimetallic Anode electrocatalyst Stability Borohydride oxidation a b s t r a c t The carbon supported Au-base electrocatalysts (Au (1Àx) Zn x /C, 0 x < 1) modified by Zn were synthesized by reverse microemulsion method and employed as anode electrocatalysts