Exploring copper β-diketiminate complexes for heterogeneous ammonia oxidation anchored on graphitic surfaces via CH-π and π-π interactions

Indexed in

License and use

Citations

Altmetrics

Grant support

J. A. G.-O. acknowledges Ministerio de Ciencia e Innovacion (MICINN) for the PhD grant FPU21/04681 and ICIQ Research Support Area. MN acknowledges MICINN for the grant PRE2020-093521. C. B. acknowledges the Spanish Ministry of Science, Innovation and Universities MCIN/AEI/10.13039/501100011033 (PID2023-153344NB-I00, and CEX2019-000925-S), the ICIQ Foundation and the CERCA program of the Generalitat de Catalunya for funding. X. S. acknowledges MINECO/FEDER (PID2019-104171RB-I00, and PID2023-146787OB-I00), MICINN (PID2023-146787OB-I00) and AGAUR (2023CLIMA 00036). AL acknowledges MICINN through project PID2022-140143OB-I00, Generalitat de Catalunya for the project 2021 SGR 01583, CERCA Program/Generalitat de Catalunya, and Severo Ochoa Excellence Accreditation CEX2024-001469-S funded by MCIU/AEI/10.13039/501100011033.

Analysis of institutional authors

Bo, CarlesAuthor

July 31, 2025

Publications

Early Access

Publicated to:INORGANIC CHEMISTRY FRONTIERS (): - - 2025-07-14 (), DOI: 10.1039/d5qi01170a

Authors: Gutierrez-Orgaz, Josep A; Nicaso, Marco; Beiler, Anna M; Martinez-Belmonte, Marta; Benet-Buchholz, Jordi; Segado-Centellas, Mireia; Sala, Xavier; Bo, Carles; Llobet, Antoni

Affiliations

Barcelona Inst Sci & Technol BIST, Inst Chem Res Catalonia ICIQ, Avda Paisos Catalans 16, Tarragona 43007, Spain - Author

Univ Autonoma Barcelona UAB, Dept Quim, Cerdanyola Del Valles 08193, Spain - Author

Univ Rovira & Virgili URV, Dept Quiim Fis & Inorgan, Marcelli Domingo S-N, Tarragona 43007, Spain - Author

Abstract

Ammonia is a compelling candidate for a carbon-free energy carrier, offering potential applications as both a hydrogen vector and a fuel. Unlocking these applications requires the development of efficient ammonia oxidation catalysts. Building on recent work with a fluorinated Cu(i) beta-diketiminate catalyst for homogeneous ammonia oxidation, we present the first examples of hybrid electrodes employing first-row metal complexes and supramolecular anchoring for heterogeneous ammonia oxidation. In this study, we developed innovative synthetic methodologies to produce a family of beta-diketiminate ligands and complexes. Some analogues clarified the role of each functional group in the original ligand, while others incorporated moieties designed to facilitate immobilization on graphitic surfaces via CH-pi and pi-pi interactions. These structural modifications not only broadened the scope of ligand design but also advanced our understanding of their roles in catalysis and immobilization. Unexpectedly, all synthesized Cu complexes, including the previously reported catalyst, formed an equilibrium with [CuI(NH3)4]+ or [CuII(NH3)4]2+ in the presence of ammonia, leading to ligand dissociation and subsequent catalyst deactivation. Despite these challenges, we demonstrated that anchoring these complexes is feasible and confirmed that heterogeneous ammonia oxidation is possible with this system. This work represents a pivotal step toward the construction of ammonia oxidation systems based on earth-abundant metals, highlighting the promise of Cu beta-diketiminate complexes. Addressing the challenges of ligand loss and catalyst stability will pave the way for robust and efficient systems, driving advancements in sustainable ammonia-based energy technologies.

Keywords

Quality index

Leadership analysis of institutional authors

There is a significant leadership presence as some of the institution’s authors appear as the first or last signer, detailed as follows: First Author (Gutierrez-Orgaz, Josep A) and Last Author (Llobet, Antoni).