%0 Journal Article
%J Chemical Engineering Journal
%D 2021
%T Adsorption and solid-phase photocatalytic degradation of perfluorooctane sulfonate in water using gallium-doped carbon-modified titanate nanotubes
%A Yangmo Zhu
%A Tianyuan Xu
%A Zhao, Dongye
%A Li, Fan
%A Liu, Wen
%A Buhua Wang
%A Byungryul An
%K Adsorbent
%K Advanced oxidation
%K Concentrate and destroy
%K Oxygen vacancy
%K Per- and polyfluoroalkyl substance
%K Photocatalysis
%X Perfluorooctane sulfonate (PFOS) has drawn increasing attention due to its omnipresence and adverse health effects. We prepared a new adsorptive photocatalyst, Ga/TNTs@AC, based on activated carbon and TiO2, and tested the adsorption and subsequent solid-phase photodegradation of PFOS. Ga/TNTs@AC showed faster adsorption kinetics and higher affinity for PFOS than the parent AC, and could degrade 75.0% and mineralize 66.2% of pre-sorbed PFOS within 4-h UV irradiation. The efficient PFOS photodegradation also regenerates Ga/TNTs@AC, allowing for repeated uses without invoking chemical regenerants. The superior photoactivity is attributed to the oxygen vacancies, which not only suppressed recombination of the e−/h+ pairs, but also facilitated O2− generation. Both h+ and O2− played critical roles in the PFOS degradation, which starts with cleavage of the sulfonate group and converts it into PFOA that is then decarboxylated and defluorinated following the stepwise defluorination mechanism. Ga/TNTs@AC holds the potential for more cost-effective PFOS degradation.
%B Chemical Engineering Journal
%V 421
%P 129676
%G eng
%U http://www.sciencedirect.com/science/article/pii/S1385894721012626
%R http://doi.org/10.1016/j.cej.2021.129676