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M. Amiri

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Journal article (2025) - Mahsa Amiri, Majid Ahmadi, Alexander Vanetsev, Poulumi Dey, Peyman Taheri, Nabil Khossossi, Prasad Gonugunta, Khatereh Roohi, Bart Kooi, Mahinder Ramdin, Prasaanth Ravi Anusuyadevi, Tanel Tätte, Nadezda Kongi
Titanium dioxide (TiO2) has been widely used as a photocatalyst in CO2 reduction reaction (CO2RR) due to its low cost, high stability, and strong absorption in the close-to-visible ultra-violet (UV) range. However, TiO2 films suffer from poor selectivity in CO2 reduction due to their unfavorable electronic properties. In this work, we address this challenge by fabricating ultra-thin (14 nm) defective TiO2 films (TiO2-DTF) to enhance the selectivity of CO2RR towards formate. TiO2 sol was prepared using a facile and reproducible sol-gel method and directly deposited onto the surface of the electrode, forming a uniform, ultra-thin TiO2 layers with a high number of defects. The activity of the TiO2-DTF catalyst was studied in both photochemical and photoelectrochemical CO2RR, indicating that the applied potential increases both the yield and selectivity of CO2RR to formate. The TiO2-DTF photocathode exhibited remarkable formate production during CO2 reduction, achieving exceptional Faradaic efficiencies of up to 45 %. To elucidate the mechanism of photoelectrochemical CO2RR on TiO2-DTF, an in-situ attenuated total reflection Fourier-transform infrared spectroscopy (in-situ ATR-FTIR) was used and experimental results were supported by density functional theory (DFT) calculations. This study demonstrates that ultra-thin highly defective TiO2 film, prepared using the cost-effective and environmentally friendly sol-gel method, can be used as photoelectrocatalyst for CO2 reduction. ...