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Isolation of Highly Reactive Cobalt Phthalocyanine via Electrochemical Activation for Enhanced CO<sub>2</sub> Reduction Reaction

Xuefeng Wu, Jia Zhao, Ji Wei Sun, Wen Jing Li, Hai Yang Yuan, Peng Fei Liu, Sheng Dai, Hua Gui Yang

2023Small19 citationsDOIOpen Access PDF

Abstract

Abstract Electrochemical CO 2 ‐to‐CO conversion offers an attractive and efficient route to recycle CO 2 greenhouse gas. Molecular catalysts, like CoPc, are proved to be possible replacement for precious metal‐based catalysts. These molecules, a combination of metal center and organic ligand molecule, may evolve into single atom structure for enhanced performance; besides, the manipulation of molecules’ behavior also plays an important role in mechanism research. Here, in this work, the structure evolution of CoPc molecules is investigated via electrochemical‐induced activation process. After numbers of cyclic voltammetry scanning, CoPc molecular crystals become cracked and crumbled, meanwhile the released CoPc molecules migrate to the conductive substrate. Atomic‐scale HAADF‐STEM proves the migration of CoPc molecules, which is the main reason for the enhancement in CO 2 ‐to‐CO performance. The as‐activated CoPc exhibits a maximum FE CO of 99% in an H‐type cell and affords a long‐term durability at 100 mA cm −2 for 29.3 h in a membrane electrode assembly reactor. Density‐functional theory (DFT) calculation also demonstrates a favorable CO 2 activation energy with such an activated CoPc structure. This work provides a different perspective for understanding molecular catalysts as well as a reliable and universal method for practical utilization.

Topics & Concepts

CobaltElectrochemistryPhthalocyanineMaterials scienceReduction (mathematics)Isolation (microbiology)Oxygen reduction reactionInorganic chemistryPhotochemistryChemistryNanotechnologyElectrodePhysical chemistryMathematicsGeometryMicrobiologyBiologyCO2 Reduction Techniques and CatalystsAdvanced Photocatalysis TechniquesCovalent Organic Framework Applications