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Professor McFarland's research activities are focused on coupling fundamental processes at surfaces with novel material systems for the cost-effective production and use of energy and energy related chemicals. In particular, fundamental catalytic and molecular reaction phenomena on complex surfaces are under investigation. The group develops and uses new experimental systems to investigate chemical transformations on surfaces of molten metals and strong electrolytes at high temperatures. Investigations of reactions of natural gas in molten metals and salts to produce hydrogen and solid carbon as a means of utilizing fossil resources for zero CO2 fuel production are underway to improve our understanding of heterogeneous catalysts at high temperature on liquid surfaces.
Professor McFarland's research activities are focused on coupling fundamental processes at surfaces with novel material systems for the cost-effective production and use of energy and energy related chemicals. In particular, fundamental catalytic and molecular reaction phenomena on complex surfaces are under investigation. The group develops and uses new experimental systems to investigate chemical transformations on surfaces of molten metals and strong electrolytes at high temperatures. Investigations of reactions of natural gas in molten metals and salts to produce hydrogen and solid carbon as a means of utilizing fossil resources for zero CO2 fuel production are underway to improve our understanding of heterogeneous catalysts at high temperature on liquid surfaces.
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ENERGY & FUELSno. 6 (2024): 5593-5604
Royal Society of Chemistry eBookspp.148-198, (2023)
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CHEMICAL ENGINEERING JOURNAL (2023): 145260-145260
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