Single-atom catalysts templated by metal–organic frameworks for electrochemical nitrogen reduction

Author(s): Rui Zhang ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , Long Jiao ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , Weijie Yang ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵ , Gang Wan ⁶ ^, ⁷ ^, ⁸ ^, ⁹ , Hai-Long Jiang ¹ ^, ² ^, ³ ^, ⁴ ^, ⁵

Publication date (Electronic): 2019

Journal: Journal of Materials Chemistry A

Publisher: Royal Society of Chemistry (RSC)

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Abstract

Metal–organic framework precursors were employed to fabricate single-atom catalysts, where Fe implanted nitrogen-doped carbon (Fe ₁-N-C) exhibits excellent performance for electrocatalytic nitrogen reduction in acidic media.

Abstract

The electrocatalytic nitrogen reduction reaction (NRR) has much prospect for substituting the energy-consuming Haber–Bosch process. Nevertheless, its sluggish reaction kinetics and the competing hydrogen evolution reaction always result in limited ammonia yield and low faradaic efficiency (FE). In this work, an Fe-decorated porphyrinic metal–organic framework (MOF) is employed as a precursor to construct single-atom Fe implanted nitrogen-doped carbon catalysts (Fe ₁-N-C) through a mixed ligand strategy. Benefiting from the highly dispersed single-atom Fe sites, hierarchically porous structure and good conductivity, Fe ₁-N-C shows a FE of 4.51% and an ammonia yield rate of 1.56 × 10 ⁻¹¹ mol cm ⁻² s ⁻¹ at −0.05 V versus the reversible hydrogen electrode, superior to those of Co ₁-N-C and Ni ₁-N-C. Theoretical calculations reveal that Fe ₁-N-C shows the lowest energy barrier of the rate-determining step during the NRR process, consistent with its highest activity obtained in experiments. This work reveals the unique potential of single-atom catalysts for the electrochemical NRR and provides in-depth insights into the catalytic mechanism of the NRR.

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Heterogeneous single-atom catalysis

Tao Zhang, Aiqin Wang, Jun. Li (2018)

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Metal Catalysts for Heterogeneous Catalysis: From Single Atoms to Nanoclusters and Nanoparticles

Lichen Liu, Avelino Corma (2018)

Metal species with different size (single atoms, nanoclusters, and nanoparticles) show different catalytic behavior for various heterogeneous catalytic reactions. It has been shown in the literature that many factors including the particle size, shape, chemical composition, metal–support interaction, and metal–reactant/solvent interaction can have significant influences on the catalytic properties of metal catalysts. The recent developments of well-controlled synthesis methodologies and advanced characterization tools allow one to correlate the relationships at the molecular level. In this Review, the electronic and geometric structures of single atoms, nanoclusters, and nanoparticles will be discussed. Furthermore, we will summarize the catalytic applications of single atoms, nanoclusters, and nanoparticles for different types of reactions, including CO oxidation, selective oxidation, selective hydrogenation, organic reactions, electrocatalytic, and photocatalytic reactions. We will compare the results obtained from different systems and try to give a picture on how different types of metal species work in different reactions and give perspectives on the future directions toward better understanding of the catalytic behavior of different metal entities (single atoms, nanoclusters, and nanoparticles) in a unifying manner.