Catalytic Characteristics of <i>&beta;</i>-Iron Phthalocyanine Prepared by Vacuum Heat Treatment for Fuel Cell Oxygen Reduction Reaction

Abstract: Non-precious metal catalyst materials such as carbon-based catalysts and transition metal chelate compounds have been investigated for reducing the cost of polymer electrolyte fuel cells (PEFCs). Our research on the synthesis of such catalysts has involved vacuum heat treatment for the preparation of iron phthalocyanine (FePc). When a composite of FePc and Ketjenblack carbon was synthesized by vacuum heat treatment at ;350°C for 10 h, FePc was deposited as a thin film on the Ketjenblack. Furthermore, synthesis… Show more

“…19 Figure 3 Electrochemistry, (in press) single crystal electrodes of Pt at 0.9 V (RHE). 20,21 In ultra-high vacuum, electron transfer is induced between FePc and a mental substrate, resulting in a change of electronic state of FePc. 22 The same phenomenon might occur in electrochemical environments, and the ORR activity of FePc might be enhanced.…”

The Oxygen Reduction Reaction on Pt Single Crystal Electrodes Modified with Aromatic Organic Molecules

“…19 Figure 3 Electrochemistry, (in press) single crystal electrodes of Pt at 0.9 V (RHE). 20,21 In ultra-high vacuum, electron transfer is induced between FePc and a mental substrate, resulting in a change of electronic state of FePc. 22 The same phenomenon might occur in electrochemical environments, and the ORR activity of FePc might be enhanced.…”

The Oxygen Reduction Reaction on Pt Single Crystal Electrodes Modified with Aromatic Organic Molecules