Jinyong Liu

TL;DR: Investigating critical structure-reactivity relationships within 34 representative per- and polyfluoroalkyl substances (PFASs) undergoing defluorination with UV-generated hydrated electrons provides critical information for developing PFAS treatment processes and technologies to destruct a wide scope of PFAS pollutants and for designing fluorochemical formulations to avoid releasing recalcitrant PFASs into the environment.

TL;DR: In this paper, carbon-and alumina-supported Ru oxides were investigated for hydrogenation of nitrate-contaminated water, and they were found to have high activity for reducing nitrate by removing catalyst surface contaminants.

TL;DR: Kinetic measurements, theoretical calculations, and transformation product analyses provide a comprehensive understanding of the PFECA degradation mechanisms and pathways and provide mechanistic insights for an improved design and efficient degradation of fluorochemicals.

TL;DR: Results indicate that while UV-sulfite treatment can be effective for treating PFOS and PFOA to meet health advisory levels, remediation of the wider range of PFASs in AFFF will prove more challenging.

TL;DR: In this article, a core-shell-structured catalyst with encapsulated Pd nanoparticles and its enhanced catalytic activity in reduction of bromate (BrO3)-, a regulated carcinogenic oxyanion produced during drinking water disinfection process.