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Blake A. Johnson
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Ordered hydrogen-bonded alcohol networks confined in lewis acid zeolites accelerate transfer hydrogenation turnover rates
JR Di Iorio, BA Johnson, Y Román-Leshkov
Journal of the American Chemical Society 142 (45), 19379-19392, 2020
642020
A method for assessing catalyst deactivation: a case study on methanol-to-hydrocarbons conversion
BL Foley, BA Johnson, A Bhan
ACS Catalysis 9 (8), 7065-7072, 2019
362019
Mechanistic study of methylbenzene dealkylation in methanol-to-olefins catalysis on HSAPO-34
A Hwang, BA Johnson, A Bhan
Journal of catalysis 369, 86-94, 2019
352019
Kinetic evaluation of deactivation pathways in methanol-to-hydrocarbon catalysis on HZSM-5 with formaldehyde, olefinic, dieneic, and aromatic co-feeds
BL Foley, BA Johnson, A Bhan
ACS Catalysis 11 (6), 3628-3637, 2021
282021
Identification and quantification of distinct active sites in Hf-Beta zeolites for transfer hydrogenation catalysis
BA Johnson, JR Di Iorio, Y Román-Leshkov
Journal of Catalysis 404, 607-619, 2021
252021
Tailoring distinct reactive environments in lewis acid zeolites for liquid phase catalysis
BA Johnson, JR Di Iorio, Y Román-Leshkov
Accounts of Materials Research 2 (11), 1033-1046, 2021
122021
Ordered Hydrogen-Bonded Alcohol Networks Confined in Lewis Acid Zeolites Accelerate Transfer Hydrogenation Turnover Rates
B Johnson, J Di Iorio, Y Roman
2021 AIChE Annual Meeting, 2021
2021
Mechanistic Study of Methylbenzenes Dealkylation during Methanol-to-Olefins Catalysis on HSAPO-34
A Hwang, B Johnson, A Bhan
2019 North American Catalysis Society Meeting, 2019
2019
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