Researchers are now exploring how to accelerate the degradation of PFAS by F11 by adjusting environmental conditions and introducing competing carbon sources. This could include adding the bacterium ...

They developed a novel photocatalyst named KQGZ, which can photocatalytically defluorinate polyfluoroalkyl and perfluoroalkyl substances (PFAS ... only addresses the degradation of PFASs but ...

degradation of long-chain to short-chains). Assess the potential and efficacy of biodegradation and mineralization of short-chain PFAS Perform molecular modeling to discover, detect, and refine ...

He received a B.S. in Environmental Engineering from Yale University, where he worked on developing electrocatalytic membranes for PFAS degradation in water. Currently, he is studying novel membranes ...

As a postdoctoral fellow at UB, she will focus her research on the development of safe prototype photoactive molecular materials for PFAS capture and degradation. These nanocages function like tiny ...

The key to Xiao's innovation is the combination of GAC and heat. "Once GAC is involved, the thermal degradation of PFAS occurs much faster, and the mineralization is more intense," Xiao said.

or PFAS. Preliminary findings show levels of the so-called forever chemicals were seven to 70 times higher in the foam than levels in the underlying surface water.

PFAS degradation in water through hydrodynamic cavitation (NANOSTARS REACTOR). PFAS elimination in sludge and solid waste through high-temperature gasification. Producing syngas as a renewable ...

The carbon-fluoride bond is one of the strongest in nature, making PFAS extremely resistant to natural degradation – they are often referred to as “forever chemicals” – so can contaminate soil and ...