| Literature DB >> 31179591 |
Stephan Wagner1,2, Hendrik Auerbach3, Claudia E Tait4, Ioanna Martinaiou1,5, Shyam C N Kumar6, Christian Kübel2,6,7, Ilya Sergeev8, Hans-Christian Wille8, Jan Behrends4, Juliusz A Wolny3, Volker Schünemann3, Ulrike I Kramm1,2,5.
Abstract
Fe-N-C catalysts are very promising materials for fuel cells and metal-air batteries. This work gives fundamental insights into the structural composition of an Fe-N-C catalyst and highlights the importance of an in-depth characterization. By nuclear- and electron-resonance techniques, we are able to show that even after mild pyrolysis and acid leaching, the catalyst contains considerable fractions of α-iron and, surprisingly, iron oxide. Our work makes it questionable to what extent FeN4 sites can be present in Fe-N-C catalysts prepared by pyrolysis at 900 °C and above. The simulation of the iron partial density of phonon states enables the identification of three FeN4 species in our catalyst, one of them comprising a sixfold coordination with end-on bonded oxygen as one of the axial ligands.Entities:
Keywords: Fe-N-C catalysts; energy conversion; oxygen reduction reaction; spectroscopy
Year: 2019 PMID: 31179591 DOI: 10.1002/anie.201903753
Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN: 1433-7851 Impact factor: 15.336