Lanthanide Catalyzed Oxygen Reduction
Date
2019-05Author
Van Steenburgh, Hannah
Draghicchio, Jacob
Knoche Gupta, Krysti L.
Metadata
Show full item recordAbstract
Oxygen reduction reactions (ORR) are of interest in research because this type of reaction is useful in H2 powered fuel cells that can produce cleaner sources of energy. However, this type of reaction alone is not efficient, but with exploration of the salts found in the lanthanide family, we may be able to catalyze these reactions leading to increased efficiency. Additionally, lanthanide salts can be found in radioactive waste produced by nuclear power plants; lanthanide isotopes are produced during the fission of U235 and with a half-life of less than one day, decay to non-radioactive lanthanides that can be then re-used versus other nuclear waste that is left underground to decay for decades. Other uses for lanthanides in radioactive waste have been found but are specific to which element they utilize, and the separation of the different isotopes found in the waste has proven to be very difficult and costly, lanthanide catalyzed reactions however, are not selective and therefore will be able to best utilize the nuclear waste. Use of these otherwise expensive rare earth metals found in nuclear waste will allow us to explore how they can be used to catalyze reactions in electrochemical cells, use waste as a valuable resource and forge toward cleaner, renewable energy.
Subject
Oxygen reduction reactions
Rare earth elements
Posters
Department of Chemistry
Permanent Link
http://digital.library.wisc.edu/1793/81290Type
Presentation
Description
Color poster with text, images, photographs, and graphs.