Catalysts, Vol. 15, Pages 861: Structure of Cu, Ni, and CuNi Bimetallic Small Clusters Incorporated in g-C3N4: A DFT Study

Catalysts doi: 10.3390/catal15090861

Authors:
Agnieszka Drzewiecka-Matuszek
Priti Sharma
Dorota Rutkowska-Zbik

Graphitic carbon nitride is recognized as a very promising support structure to anchor single atoms and small, sub-nanometric metal clusters, with vast applications in catalysis. In the current manuscript, we aim to study the geometry and electronic structures of the small, sub-nanometric monometallic (copper or nickel) and bimetallic (copper–nickel) clusters anchored to the graphitic carbon nitride. Our Density Functional Theory (DFT) study reveals that Cu and Ni, when in the form of isolated single atoms, lie in the plane of the support. Once the atoms agglomerate and form small clusters, they tend to bind above the carbon nitride (C3N4) plane. The nickel atoms form shorter bonds with the support than the copper atoms do, which is reflected by the binding energies. Atoms directly bound to the support become oxidized, forming electrophilic sites at the surface. The computed negative metal–support binding energies mean that the investigated Cu/Ni-C3N4 composites are stable, and the metal species will not easily leach from the support.

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Agnieszka Drzewiecka-Matuszek www.mdpi.com