Research Sarazen Research Group Postdoctoral fellow, nikolla research group, university of michigan, ann arbor, mi. interested in joining us?. Nov. 2018 michele sarazen gave a presentation at aiche annual meeting in pittsburgh entitled "metal organic framework derived catalysts for propane dehydrogenation.".
The Group Sarazen Research Group The sarazen research group (michele sarazen) is hiring a postdoctoral research associate interested in probing mechanisms of porous catalysts in selective reaction diffusion processes. Her research group couples synthetic, kinetic, and theoretical investigations of porous crystalline materials as catalysts and adsorbents for sustainable fuel and chemical production with an emphasis on reaction and deactivation mechanisms. Porous crystalline materials such as zeolites, metal organic frameworks, and porous organic polymers offer a large and diverse pool of catalysts and catalyst supports. our lab strives to elucidate how important catalytic properties affect reactivity and selectivity, and aims to control these properties via advanced synthesis strategies, which ar. One of the research group's primary research focuses is developing "atom efficient conversions to chemicals and fuels on porous catalytic materials.".
The Group Sarazen Research Group Porous crystalline materials such as zeolites, metal organic frameworks, and porous organic polymers offer a large and diverse pool of catalysts and catalyst supports. our lab strives to elucidate how important catalytic properties affect reactivity and selectivity, and aims to control these properties via advanced synthesis strategies, which ar. One of the research group's primary research focuses is developing "atom efficient conversions to chemicals and fuels on porous catalytic materials.". Many industrial practices that use catalysts to produce chemicals, fuels, polymers, and pharmaceuticals have strong environmental impacts. the mission of our lab is to make advances in catalysis science and active site engineering to solve both fundamental and applied chemical engineering challenges to sustainably meet our growing energy and product demands. the sarazen research group combines kinetic, synthetic, and theoretical techniques to elucidate reaction mechanisms of heterogeneous catalysts at the molecular level for atom and energy efficient conversions from conventional (petroleum), emerging (shale gas) and renewable (biomass or electrocatalytically derived) feedstocks to fuels and chemicals. We primarily focus on one class of heterogeneous catalysts: porous crystalline materials such as zeolites, metal organic frameworks, and porous organic polymers, which offer a large and diverse pool of catalysts and catalyst supports. Hullfish, c.w. and sarazen, m.l.* implications of confinement effects in reactions involving bulky polyaromatic molecules on mesoporous brønsted acid sites, in preparation. Prof. sarazen was selected to attend the national academy of engineering’s 2019 us frontiers of engineering symposium, which targets early career engineers from industry, universities, and government labs. the symposium will be held this september in charleston, sc.