Photocatalytic Degradation of an Aromatic Pharmaceutical over TiO2: Experimental and Computational Insights into Inhibition Effects of Natural Organic Acids
Andrijana Bilić, Sanja J. Armaković, Stevan Armaković

TL;DR
This study explores how natural organic acids inhibit the breakdown of a pharmaceutical compound using TiO2 under UV light, combining experiments and computational analysis.
Contribution
The study provides new mechanistic insights into the inhibition effects of organic acids on TiO2 photocatalysis through experimental and computational approaches.
Findings
TiO2 achieved complete degradation of nadolol in 120 min in ultrapure water.
Citric, oxalic, and acetic acids reduced degradation efficiency by 72%, 62%, and 29%, respectively.
Inhibition was due to competitive adsorption and blocking of active TiO2 surface sites.
Abstract
The photocatalytic degradation of the pharmaceutical compound nadolol over TiO2 under UV-LED irradiation was investigated, with particular emphasis on the inhibitory effects of common low-molecular-weight organic acids. Due to its aromatic (tetralin-like) motif and multiple heteroatom-containing functional groups, nadolol serves as a representative model for aromatic micropollutants whose fate can be governed by surface competition and noncovalent interactions. While TiO2 showed high photocatalytic activity in ultrapure water, achieving complete nadolol degradation within 120 min, the presence of citric, oxalic, and acetic acids markedly reduced the degradation efficiency by approximately 72%, 62%, and 29%, respectively. Experimental results demonstrated that this inhibition could not be attributed solely to pH changes, indicating the contribution of additional molecular-level effects.…
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Taxonomy
TopicsTiO2 Photocatalysis and Solar Cells · Water Quality Monitoring and Analysis · Advanced oxidation water treatment
