Auto-dissociation of atmospheric water on TiO2: insights from sum-frequency spectroscopy of Ti–O vibrations

Abstract

The dissociation of water on TiO₂ surfaces, marked by the presence of TiOH groups, is pivotal for environmental and energy applications involving TiO₂. Yet characterizing these surface groups has remained a challenge. Here, we employ in situ sum-frequency vibrational spectroscopy (SFVS) to unveil the vibrational signatures of surface TiOH and undercoordinated Ti–O groups in the Ti–O vibrational frequency range, offering a clear structural indicator of TiO₂ hydroxylation. Our findings confirm the spontaneous dissociation of water molecules on TiO₂ surfaces, a process significantly enhanced by structural defects such as oxygen vacancies. Through methanol titration experiments, we gain molecular-level insights into the adsorption/desorption dynamics, estimating a ∼70% TiOH coverage on amorphous TiO₂ under ambient conditions. This work not only deepens our understanding of TiO₂/water interactions but also lays the groundwork for future SFVS investigations into these interfaces.