Kelsey C. Potter scite author profile

Kelsey C. Potter

2Publications

27Citation Statements Received

34Citation Statements Given

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University of Oklahoma

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Reduction of the Phillips catalyst by various olefins: Stoichiometry, thermochemistry, reaction products and polymerization activity

Potter

Beckerle

Jentoft

et al. 2016

Journal of Catalysis

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The adsorption, reaction and desorption of ethylene or hexenes on Cr(VI)/SiO 2 containing 1 or 3 weight% chromium was monitored by thermogravimetry, differential scanning calorimetry and mass spectrometry. Reaction of Cr(VI)/SiO 2 with ethylene at a temperature of 200 °C always included some oligomerization, making it impossible to identify the stoichiometry of the initial redox reaction. Reaction of Cr(VI)/SiO 2 with 1-hexene or cyclohexene at 150 °C indicated an adsorption stoichiometry of one olefin per chromium. Heats of reaction were consistent with oxidation of the olefin to an aldehyde or ketone, or even to a carboxylic acid or ester. Oxidation products were retained on the surface. Thermal desorption of surface products resulted in CO 2 evolution at temperatures of 265-285 and 390-415 °C; with the co-products indicating decomposition of formate and acetate species, respectively. Reduction of Cr(VI) with ethylene led to sites active for ethylene polymerization after thermal desorption of the redox products, whereas reduction with hexenes did not generate active sites irrespective of thermal desorption of products.

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Products of the initial reduction of the Phillips catalyst by olefins

Joseph

Potter

Wulfers

et al. 2019

Journal of Catalysis

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Kelsey C. Potter

Reduction of the Phillips catalyst by various olefins: Stoichiometry, thermochemistry, reaction products and polymerization activity

Products of the initial reduction of the Phillips catalyst by olefins

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