Defect Engineering and Opening of the Ion tracks in the Swift Heavy Ion Irradiated Thin Films of Bismuth Vanadate: Impact on Oxygen Evolution Reaction for Solar Water Splitting

Abstract

Swift heavy ion (SHI) irradiation (Xe ions, 150 MeV, 5 × 109 – 5 × 1011 ions cm-2) is utilized to engineer defect landscape in hydrothermally synthesized BiVO4 (BVO) thin films, aiming to understand its role in photoelectrochemical (PEC) performance toward oxygen evolution reaction (OER). Our findings show that SHI irradiation, from individual to overlapping ion tracks, induces residual stress and amorphization in BVO, accompanied by the formation of bismuth-rich hillocks above oxygen-depleted ion tracks. While high fluence irradiation results in the irreversible reduction of PEC activity, the lower fluences (5 × 109 ions cm-2 and 1 × 1010 ions cm-2), induce defects that initially trap charge carriers, but over time lead to 58.6 % and 25.2 % increase in the photocurrent density, respectively. Detailed post-PEC morphological analysis reveals opening of ions tracks and the formation of nanoscale holes, reaching up to 30 nm in diameter and up to 200 nm in depth. Our study establishes a link between defect creation and PEC performance in BVO thin films, paving the way for innovative approaches to its morpho-structural manipulation and nano-structuring while simultaneously contributing to the fundamental understanding of SHI-induced phenomena in BVO films.This is the peer-reviewed version of the paper: Jelić, M., Jovanovic, Z., Kornieieva, K., Daneu, N., Gupta, S., O’Connell, J., Vershinina, T., Kirilkin, N., Orelovitch, O. L., Stojković Simatović, I., Skuratov, V., & Jovanović, S. (2025). Defect Engineering and Opening of the Ion tracks in the Swift Heavy Ion Irradiated Thin Films of Bismuth Vanadate: Impact on Oxygen Evolution Reaction for Solar Water Splitting. J. Mater. Chem. A. [https://doi.org/10.1039/D4TA09066G