Hill, A., Jeong-Potter, C., McNeary, W., Arellano-Treviño, M.A., Ruddy, D., & To, A. “Metallic phase-free Zn-Al mixed oxide dual function materials enable high CO selectivity in reactive carbon capture from dilute CO2 streams.” Applied Catalysis B: Environment and Energy, 372 (2025).

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Jeong-Potter, C., Arellano-Treviño, M.A., McNeary, W., Hill, A., Ruddy, D.*, & To, A. “Modified Cu-Zn-Al mixed oxide dual function materials enable reactive carbon capture to methanol.” Energy and Environmental Science – Catalysis, 2 (2024).

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Jeong-Potter, C.*, Zangiabadi, A., & Farrauto, R. “Extended aging of Ru-Ni, Na2O/Al2O3 dual function materials (DFM) for combined capture and subsequent catalytic methanation of CO2 from power plant flue gas.” Fuel, 328 (2022) 125283.

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Jeong-Potter, C.*, Abdallah, M.J., Kota, S., & Farrauto, R.* “Enhancing CO2 adsorption capacity of g-Al2O3 supported alkali and alkaline earth metals: impacts of DFM preparation methods.” Industrial & Engineering Chemistry Research, 61, 29 (2022) 10474-10482.

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Jeong-Potter, C., Porta, A., Lietti, L., & Farrauto, R. “Aging of low Ru content Dual Function Materials for combined CO2 capture and methanation for point source applications.” Applied Catalysis B: Environmental, 310 (2022) 121294.

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Jeong-Potter, C., Abdallah, M.J., Cory Sanderson, Mark Goldman, Raghubir Gupta, & Farrauto, R. “Dual function materials (Ru+Na2O/Al2O3) for direct air capture of CO2 and in situ catalytic methanation: the impact of realistic ambient conditions.” Applied Catalysis B: Environmental, 307 (2022) 120990.

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Jeong-Potter, C., Farrauto, R.J. “Feasibility Study of Combining Direct Air Capture of CO2 and Methanation at Isothermal Conditions with Dual Function Materials.” Applied Catalysis B: Environmental, 282 (2021) 119416.

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