First-Principles Study of Penta-CN2 Quantum Dots for Efficient Hydrogen Evolution Reaction

Abstract

The objective of our research is to investigate the electrocatalytic properties of novel metal-free quantum dots (QDs) composed of the recently discovered 2D material penta-CN2, with the aim of replacing costly and scarce catalysts such as Pt and Pd. Employing a first-principles density functional theory (DFT) based approach, the geometries of the three penta-CN2 quantum dots (QDs) of increasing sizes, 3 x 3, 3 x 4, 4 x 4 are optimized. Through comprehensive analysis, our research extensively explored the structural stability of penta-CN2 QDs, delved into their electronic properties, and assessed their catalytic performance concerning the Hydrogen Evolution Reaction (HER). Notably, the H-adsorbed penta-CN2 QDs exhibit a significant reduction in the HOMO-LUMO gap (Eg) ranging from 35% to 49% compared to the pristine QD. Next, we investigated their catalytic performance relevant to HER, using well-known descriptors: (i) adsorption energy, (ii) over-potential, (iii) Gibbs free energy and (iv) exchange current density along with the volcano curve. As far as size dependence of the catalytic performance is concerned, the value of Delta G(av) is minimum for 3 x 3 penta-CN2 QD, with those of 3 x 4 and 4 x 4 QDs being slightly larger. Our calculations predict a high value of exchange current density 2.24 x 10-3 A-cm-2 for one of the sites (N11 for 3 x 3 QD), which we believe will lead to significantly enhanced HER properties. Our research outcomes hold great promise in advancing the discovery of abundant, non-toxic, and cost-effective catalysts for HER, playing a vital role in facilitating large-scale hydrogen production.

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