Alkaline Metal Oxide Assisting the Ionothermal Method for Efficient Fe-N_X/C Catalyst Preparation

Abstract: Owing to low cost and high efficiency, nonprecious metal catalysts have been widely used in various types of fuel cells. To obtain a high-activity electrocatalyst, a simple method for the synthesis of iron-modified covalent triazine frameworks by the direct heating of a mixture of FeCl3, ZnCl2, ZnO, and m-phthalodinitrile is reported. The role and a possible evolution pathway of the oxygen of metallic oxides are well discussed. To further verify our assumption, the Fe3O4 microspherical nanomaterials were synth… Show more

“…Li et al prepared Fe-N x /C materials from Fe-doped CTFs, which exhibited extraordinary ORR activity in both alkaline and acidic solution. 172,173 The authors proposed that Fe catalyzed Fe-doped CTFs to create extra Fe-N x active sites. In addition, Zhang et al prepared a series of CTFs co-decorated with Fe and I, and the derived carbon catalysts exhibited a high ORR performance in both basic and acidic conditions.…”

Emerging covalent triazine framework-based nanomaterials for electrochemical energy storage and conversion

“…Li et al prepared Fe-N x /C materials from Fe-doped CTFs, which exhibited extraordinary ORR activity in both alkaline and acidic solution. 172,173 The authors proposed that Fe catalyzed Fe-doped CTFs to create extra Fe-N x active sites. In addition, Zhang et al prepared a series of CTFs co-decorated with Fe and I, and the derived carbon catalysts exhibited a high ORR performance in both basic and acidic conditions.…”

Emerging covalent triazine framework-based nanomaterials for electrochemical energy storage and conversion