Issue 45, 2024

Exploring nitrogen-mediated effects on Fe and Cu cluster development in graphene: a DFT study

Abstract

The controlled growth and stability of transition metal clusters on N-doped materials have become the subject of intense investigation for unveiling comprehension on the cluster growth evolution. In this study, we investigated the growth mechanisms of non-magnetic (copper) and magnetic (iron) clusters on graphene with two atomic vacancies, with and without pyridinic nitrogen (N). Our results determine the role of pyridinic N in the growth and physicochemical properties of the mentioned metal clusters. In an N environment, Cu grows perpendicularly, whereas under N-deficient conditions, the clusters agglomerate. Fe cumulate-type clusters are formed regardless of the presence of N. However, N causes the Fe clusters to rise over one side of the surface without deforming the monolayer; meanwhile, in the absence of N, the Fe clusters protrude from both sides of the monolayer. Remarkably, the presence of N makes it feasible to induce magnetization in the Cun–N4V2 systems and aid in focalizing the magnetic properties on the Fe clusters for the Fen–N4V2 case. These findings offer insights into the role of N in cluster growth, with potential implications for diverse applications, including magnetic and electrocatalytic materials.

Graphical abstract: Exploring nitrogen-mediated effects on Fe and Cu cluster development in graphene: a DFT study

Supplementary files

Article information

Article type
Paper
Submitted
30 Jun 2024
Accepted
27 Sep 2024
First published
03 Oct 2024
This article is Open Access
Creative Commons BY-NC license

Nanoscale, 2024,16, 20955-20967

Exploring nitrogen-mediated effects on Fe and Cu cluster development in graphene: a DFT study

L. A. Alvarado-Leal, J. I. Paez-Ornelas, M. A. Ruiz-Robles, J. Guerrero-Sánchez, J. M. Romo-Herrera, H. N. Fernández-Escamilla, N. Takeuchi and E. G. Perez-Tijerina, Nanoscale, 2024, 16, 20955 DOI: 10.1039/D4NR02713B

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