Influence of Fe–N–C morphologies on the oxygen reduction reaction in acidic and alkaline media

Abstract: The development of nonnoble metal oxygen reduction reaction (ORR) catalysts for fuel cells has been motivated by the high cost and limited supply of noble metals, as well as the desire to improve the performance and durability of this type of energy conversion device. In this study, nonnoble Fe–N–C catalyst was synthesized using a zeolitic imidazole framework (ZIF‐8), poly (aniline), and 10,10′‐dibromo‐9,9′‐bianthry as precursors to produce Fe–N–C with hollow sphere (HS), amorphous bulky structure (B), and she… Show more

“…They found that the calcium stearate Pickering W/O emulsion system is suitable for a long‐term “open” cultivation of microorganisms without the use of any special equipment such as a jar‐fermenter. Junaidi et al 16 used highly porous Fe–N–C hollow sphere catalyst with demonstration active site activation and excellent stability compared with the other samples as well as commercial Pt/C in acidic electrolyte, which suggests its potential for application in proton exchange membrane fuel cells (PEMFCs).…”

19th Asian Pacific Confederation of Chemical Engineering (APCChE) Congress 2022: Working towards a sustainable society—Special issue

“…They found that the calcium stearate Pickering W/O emulsion system is suitable for a long‐term “open” cultivation of microorganisms without the use of any special equipment such as a jar‐fermenter. Junaidi et al 16 used highly porous Fe–N–C hollow sphere catalyst with demonstration active site activation and excellent stability compared with the other samples as well as commercial Pt/C in acidic electrolyte, which suggests its potential for application in proton exchange membrane fuel cells (PEMFCs).…”

19th Asian Pacific Confederation of Chemical Engineering (APCChE) Congress 2022: Working towards a sustainable society—Special issue

Template-free modulation of MOF-derived atomically dispersed Fe-N-C catalyst for enhanced oxygen reduction reaction and durability in acidic medium

Preparation of Fe-BN-C catalysts derived from ZIF-8 and their performance in the oxygen reduction reaction