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This NASF-AESF Foundation research project report covers the 12^th quarter of project work (October – December 2023) at the University of Georgia. In our previous report, we described our work on performance and effect of surface fluorinated Ti₄O₇ anodes on PFAS degradation in reactive electrochemical membrane (REM) mode. This quarter, our experiments involved utilizing porous Ti₄O₇ plates serving both as anodes and membranes. Tests compared pristine and F-18.6 Ti₄O₇ anodes at current densities of 10 mA/cm² and 40 mA/cm². This 12^th quarterly report discusses the mechanisms of the effects on EO performance by anode surface fluorination.  

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This NASF-AESF Foundation research project report covers quarterly reporting for the year 2023 at the University of Illinois at Chicago.  The objective of this work is to utilize a cost-effective reactive electrochemical membrane (REM) for the removal of PFAS from synthetic electroplating wastewater.  Discussed here are the oxidation of PFOA with three different catalysts, development of a method for detecting PFAS, as well as work on 6:2-fluorotelomersulfonic acid (6:2 FTS) and electrodeposited bismuth/tin oxide catalysts.

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In our last report, we described the performance and effect of surface fluorinated Ti₄O₇ anodes on PFAS degradation in a batch reactor operation mode. In this report, we will discuss the effect of surface fluorinated Ti₄O₇ anodes on PFAS degradation in a reactive electrochemical membrane (REM) operation mode.