A series of carbon-based binary single-atom catalysts of Fe and Ni coordinated by nitrogen are fabricated using a glucose-chelating method. Depending on the Ni/Fe content, they exhibit a wide-range of controllable CO/H2 ratio from 0.14 to 10.86, which is meaningful to specific chemical processes. The durability of the catalyst is evaluated over an 8-hour period with no significant degradation of activity. The variation of the faradaic efficiency with Ni/Fe content is justified by density-functional-theory based calculation of the reaction barrier in both hydrogen evolution and CO2 reduction reactions.
Kyra M. K. Yap, Aisulu Aitbekova, Matthew Salazar, Tobias A. Kistler, Melanie Rodríguez Pabón, Magel P. Su, Nicholas B. Watkins, Sang‐Won Lee, Peter Agbo, Adam Z. Weber, Jonas C. Peters, Theodor Agapie, Adam C. Nielander, Harry A. Atwater, Thomas F. Jaramillo, Alexis Bell
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