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Graphdiyne-Supported Single Iron Atom: A Promising Electrocatalyst for Carbon Dioxide Electroreduction into Methane and Ethanol

Xin Liu, Zhongxu Wang, Yu Tian, Jingxiang Zhao

2020The Journal of Physical Chemistry C108 citationsDOI

Abstract

Electrochemical reduction of carbon dioxide (CO2ER) to high-energy-density multicarbon products is a quite promising technique for large-scale renewable energy storage, for which searching for stable, inexpensive, and efficient catalysts is a key scientific issue. In this work, the potential of an experimentally available single iron (Fe) atom supported on graphdiyne (Fe/GDY) as the CO2ER catalyst was explored by means of density functional theory (DFT) computations. Our results revealed that Fe/GDY exhibits high stability due to the strong hybridization between the Fe 3d orbitals and the C 2p orbitals of GDY. Interestingly, due to the small limiting potential of −0.43 V, the anchored Fe atom can effectively reduce CO2 to CH4 along the following pathway: CO2 → HCOO* → HCOOH* → HCO* → H2CO* → H3CO* → O* + CH4 → OH* → H2O, in which the hydrogenation of HCOOH* to HCO* is the potential-determining step. Furthermore, the unsaturated HCO* species on Fe/GDY can provide an active site for further coupling with CO to generate C2H5OH with a small activation energy for C–C coupling. Our theoretical results not only propose a new approach to CO2ER to C2 products on a single-site catalyst but also further widen the potential applications of GDY.

Topics & Concepts

CatalysisElectrocatalystDensity functional theoryElectrochemistryChemistryMethaneAtomic orbitalAtom (system on chip)Carbon fibersElectrochemical reduction of carbon dioxideInorganic chemistryMaterials sciencePhysical chemistryComputational chemistryCarbon monoxideOrganic chemistryElectrodeElectronPhysicsQuantum mechanicsComposite numberComposite materialEmbedded systemComputer scienceCO2 Reduction Techniques and CatalystsElectrocatalysts for Energy ConversionAmmonia Synthesis and Nitrogen Reduction
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