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- Title
Enhanced Electrocatalytic CO<sub>2</sub> Reduction Reactivity of S‐ and N‐Doped Fe‐Embedded Graphene.
- Authors
Hadsadee, Sarinya; Roongcharoen, Thantip; Takahashi, Kaito; Jungsuttiwong, Siriporn; Namuangruk, Supawadee
- Abstract
In this work, we studied the reaction mechanisms for CO2 reduction reaction (CRR) on the iron‐doped graphene and its coordinating sulfur (S) and nitrogen (N) variants, FeNnS4‐n (n=1–4), using density functional theory calculations. Our results revealed that the electronic property and catalytic reactivity of the surfaces can be tuned by varying the N and S atoms ratio. The CRR activities of the mixed surfaces, FeN3S1, FeN2S2, and FeN1S3, were better than FeN4 and FeS4, where the absolute value of the limiting potential of the mixed surface decreased by 0.3 V. Considering the stability, we suggest FeN3S surface to be favorable for CRR. For the bare surfaces, we found a positive linear correlation between the magnetic moment and the charge of Fe metal. For these surfaces, the reduction of CO (*CO+(H++e−)→*CHO) was important in deciding the limiting potential. We found that the adsorption energy of CO displayed a volcano relationship with the magnetic moment of the Fe atom. The study showed that the change of local coordinating structure around the Fe atom could modify the electronic and magnetic properties of the active Fe center and improve the CRR activity performance.
- Subjects
GRAPHENE; DOPING agents (Chemistry); MAGNETIC moments; IRON clusters; DENSITY functional theory; MAGNETIC properties; NITROGEN; IRON
- Publication
ChemPlusChem, 2023, Vol 88, Issue 11, p1
- ISSN
2192-6506
- Publication type
Article
- DOI
10.1002/cplu.202300306