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Electrooxidation of Perfluorocarboxylic Acids by an Interfacially Engineered Magnéli Phase Titanium Oxide (Ti<sub>4</sub>O<sub>7</sub>) Electrode with MXene

Qingquan Ma, Jianan Gao, Kayla Cheng, Joshua Young, Meng‐Qiang Zhao, Avner Ronen, Wen Zhang

2024ACS ES&T Engineering26 citationsDOI

Abstract

Electrochemical advanced oxidative processes (EAOPs) offer promising pathways for the eradication of persistent organic pollutants, such as perfluoroalkanesulfonates (PFSAs) and perfluorocarboxylic acids (PFCAs). Herein, we demonstrated a hybrid electrocatalyst of Magnéli phase titanium oxide (Ti 4 O 7 )/Ti 3 C 2 T x MXene for EAOP. The perfluorooctanoic acid (PFOA) degradation rate in batch tests by the Ti 4 O 7 /MXene electrode was 2.21 × 10 –2 min –1, three times faster than that of the Ti 4 O 7 electrode (0.76 × 10 –2 min –1 ). This hybrid Ti 4 O 7 /MXene electrode significantly lowered the interfacial charge-transfer resistance from 54.36 to 7.18 Ω compared with the Ti 4 O 7 electrode. The Ti 4 O 7 /MXene electrode also exhibits excellent stability as tested by 10 consecutive cycles for 30 h under a DC current of 10 mA·cm –2 and reached a stable PFAS degradation (98.1–9.2%). Some degradation isomers and intermediates with lower fluorinated chain lengths were detected. In addition, density functional theory (DFT) calculations indicate a greater charge transfer for PFOA and a lower adsorption energy for hydroxyl radicals (•OH) on Ti 4 O 7 /MXene in comparison with the pristine Ti 4 O 7, which would facilitate the diffusion of radicals and oxidative reactions with PFCAs. A standardized electric energy consumption per log removal of PFCAs (EE/O) was found to be only 8–14 kWh m –3, which is among the lowest level of the current literature data. The integration of these hybrid nanomaterials brings forth a unique synergy that holds the capacity to drive enhanced catalytic activity, thereby contributing significantly to the field’s pursuit of efficient pollutant removal and environmental remediation.

Topics & Concepts

TitaniumElectrodePhase (matter)Titanium oxideMaterials scienceOxideInorganic chemistryChemical engineeringChemistryMetallurgyPhysical chemistryOrganic chemistryEngineeringAmmonia Synthesis and Nitrogen ReductionCovalent Organic Framework ApplicationsAdvanced Photocatalysis Techniques