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Electric-Field Controllable Metal-free Materials as Efficient Electrocatalysts for Nitrogen Fixation

Jie Wu, Yang‐Xin Yu

2021The Journal of Physical Chemistry C60 citationsDOI

Abstract

An electrochemical dinitrogen (N2) reduction reaction (NRR) under mild conditions has been considered as a promising and sustainable alternative to the conventional Haber–Bosch method. However, searching for an efficient, stable, and low-cost electrocatalyst is still challenging and attractive. Here, based on density functional theory, a single B atom adsorbed on a series of carbon phosphide monolayers [B/PCx single-atom catalysts (SACs), x = 2, 3, 5, and 6] was constructed as metal-free catalysts and their NRR catalytic activities were systematically investigated. Consequently, among the investigated systems, the B/PC6 SAC is identified as the most promising candidate, on which the N2 molecule can only be sufficiently activated through the enzymatic pathway with a limiting potential of −0.37 V, and importantly, it remains as a stable structure after ab initio molecular dynamics simulations at 300 K. It can be found from the electronic property calculations that the p-orbitals of the B atom have a good degree matching with the p-orbitals of the adsorbed N2 species, favoring the activation of the N2 molecule. Besides, both the N2 adsorption Gibbs free energy and the NRR-limiting overpotential decrease with the increase of the positive electric-field intensity, suggesting that an electric field can be regarded as an effective external stimulus to further improve the catalytic activity of the B/PC6 SAC. This study not only provides an eligible NRR electrocatalyst but also offers a useful tool, that is, applying an external electric field, for the NRR activity enhancement.

Topics & Concepts

OverpotentialDensity functional theoryChemistryElectrocatalystCatalysisGibbs free energyChemical physicsElectrochemistryComputational chemistryNanotechnologyMaterials sciencePhysical chemistryElectrodeThermodynamicsOrganic chemistryPhysicsAmmonia Synthesis and Nitrogen ReductionAdvanced Photocatalysis TechniquesHydrogen Storage and Materials