Publications
360 results
360 results
Working Paper
Michael J. Aziz. “AN INTERPRETATION OF CLASSICAL TRANSITION STATE THEORY FOR KINETICS IN MATERIALS SCIENCE”. ChemRxiv
Michael J. Aziz. “AN INTERPRETATION OF CLASSICAL TRANSITION STATE THEORY FOR KINETICS IN MATERIALS SCIENCE”. ChemRxiv
2026
Haojin Li, Benli Jiang, Faith Hines, Wei-Jing Chen, Anubhav Wadehra, Walter Mendoza, Aviva Harman, Christina Wan, Derek Qin, Peco Myint, Jiaqi Tang, Joy C. Perkinson, Michael J. Aziz, and Karl F. Ludwig Jr. 2026. “The Independence of Nanopattern Formation and Stress Evolution During Low-Energy Ar+ Bombardment of Si”. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions With Materials and Atoms
Haojin Li, Benli Jiang, Faith Hines, Wei-Jing Chen, Anubhav Wadehra, Walter Mendoza, Aviva Harman, Christina Wan, Derek Qin, Peco Myint, Jiaqi Tang, Joy C. Perkinson, Michael J. Aziz, and Karl F. Ludwig Jr. 2026. “The Independence of Nanopattern Formation and Stress Evolution During Low-Energy Ar+ Bombardment of Si”. Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions With Materials and Atoms
2025
Jordan D. Sosa and Michael J. Aziz. 2025. “Evaluation of Highly Stable Redox‑active Materials for Aqueous Organic Redox Flow Batteries Using Static Cells”. MRS Energy & Sustainability, 12
Jordan D. Sosa and Michael J. Aziz. 2025. “Evaluation of Highly Stable Redox‑active Materials for Aqueous Organic Redox Flow Batteries Using Static Cells”. MRS Energy & Sustainability, 12
Dylan M. Barber, Sofía Edgar, Michael S. Emanuel, Michael D. Nelwood, Bok Yeop Ahn, Benito Román-Manso, Thomas Cochard, Justin Platero, Kiana Amini, Chris H. Rycroft, Shmuel Rubinstein, Michael J. Aziz, and Jennifer A. Lewis. 2025. “Print-and-Plate Architected Electrodes for Electrochemical Transformations Under Flow”. Advanced Functional Materials
Dylan M. Barber, Sofía Edgar, Michael S. Emanuel, Michael D. Nelwood, Bok Yeop Ahn, Benito Román-Manso, Thomas Cochard, Justin Platero, Kiana Amini, Chris H. Rycroft, Shmuel Rubinstein, Michael J. Aziz, and Jennifer A. Lewis. 2025. “Print-and-Plate Architected Electrodes for Electrochemical Transformations Under Flow”. Advanced Functional Materials
Dawei Xi, Zheng Yang, Michael Emanuel, Panlin Zhao, and Michael Aziz. 2025. “Electrochemical Acid–base Generators for Decoupled Carbon Management”. Energy & Environmental Science
Dawei Xi, Zheng Yang, Michael Emanuel, Panlin Zhao, and Michael Aziz. 2025. “Electrochemical Acid–base Generators for Decoupled Carbon Management”. Energy & Environmental Science
Abdulrahman M. Alfaraidi, Nina Ni, Jordan Sosa, Sara Lia, Mayar Alhelaili, Nathan Faialaga, Nawal M. Alghoraibi, Husain H. Al Naji, Ammar H. Alahmed, Aqil Jamal, Michael J. Aziz, and Richard Liu. 2025. “Ion Pairing Enhances Hydroquinone Stability Toward Oxygen in Aqueous Electrochemical Carbon Dioxide Capture”. Nature Communications
Abdulrahman M. Alfaraidi, Nina Ni, Jordan Sosa, Sara Lia, Mayar Alhelaili, Nathan Faialaga, Nawal M. Alghoraibi, Husain H. Al Naji, Ammar H. Alahmed, Aqil Jamal, Michael J. Aziz, and Richard Liu. 2025. “Ion Pairing Enhances Hydroquinone Stability Toward Oxygen in Aqueous Electrochemical Carbon Dioxide Capture”. Nature Communications
Jordan D. Sosa, Arunraj Balaji-Wright, Jintao Wu, Luana Cristina Italiano Faria, Abdulrahman M. Alfaraidi, Kyumin Lee, Matthew E. Suss, Ali Mani, Filipe Camargo Dalmatti Alves Lima, Frank Nelson Crespilho, and Michael J. Aziz. 2025. “Confinement of Organic Molecules in Microporous Electrodes for Enhanced Energy Storage”. ACS Applied Energy Materials
Jordan D. Sosa, Arunraj Balaji-Wright, Jintao Wu, Luana Cristina Italiano Faria, Abdulrahman M. Alfaraidi, Kyumin Lee, Matthew E. Suss, Ali Mani, Filipe Camargo Dalmatti Alves Lima, Frank Nelson Crespilho, and Michael J. Aziz. 2025. “Confinement of Organic Molecules in Microporous Electrodes for Enhanced Energy Storage”. ACS Applied Energy Materials
Xinyu Jin, Shijian Jin, Lu Li, Roy G. Gordon, Pan Wang, Michael J. Aziz, and Yunlong Ji. 2025. “Direct Air Capture of CO2 in an Electrochemical Hybrid Flow Cell With a Spatially Isolated Phenazine Electrode”. Nature Energy
Xinyu Jin, Shijian Jin, Lu Li, Roy G. Gordon, Pan Wang, Michael J. Aziz, and Yunlong Ji. 2025. “Direct Air Capture of CO2 in an Electrochemical Hybrid Flow Cell With a Spatially Isolated Phenazine Electrode”. Nature Energy
Dawei Xi, Yuheng Wu, Yuli Li, Zifei Yan, Richard Liu, and Michael J. Aziz. 2025. “Electrifying Industrial Hydrogen Peroxide Production via Soft Interfacial Molecular Mediation”. Nature Chemistry
Dawei Xi, Yuheng Wu, Yuli Li, Zifei Yan, Richard Liu, and Michael J. Aziz. 2025. “Electrifying Industrial Hydrogen Peroxide Production via Soft Interfacial Molecular Mediation”. Nature Chemistry
Jordan D. Sosa and Michael J. Aziz. 2025. “Evaluation of Highly Stable Redox-Active Materials for Aqueous Organic Redox Flow Batteries Using Static Cells”. MRS Energy & Sustainability
Jordan D. Sosa and Michael J. Aziz. 2025. “Evaluation of Highly Stable Redox-Active Materials for Aqueous Organic Redox Flow Batteries Using Static Cells”. MRS Energy & Sustainability
Kyumin Lee, Kiana Amini, and Michael J. Aziz. 2025. “Reduced Flow Battery Capacity Fade from Mixed Redox-Active Organics Beyond the Rule of Mixtures”. ACS Energy Letters
Kyumin Lee, Kiana Amini, and Michael J. Aziz. 2025. “Reduced Flow Battery Capacity Fade from Mixed Redox-Active Organics Beyond the Rule of Mixtures”. ACS Energy Letters
2024
Yan Jing, Kiana Amini, Dawei Xi, Shijian Jin, Abdulrahman Alfaraidi, Emily Kerr, Roy Gordon, and Michael Aziz. 2024. “Electrochemically Induced CO2 Capture Enabled by Aqueous Quinone Flow Chemistry”. ACS Energy Letters, 9, Pp. 3526–3535
Yan Jing, Kiana Amini, Dawei Xi, Shijian Jin, Abdulrahman Alfaraidi, Emily Kerr, Roy Gordon, and Michael Aziz. 2024. “Electrochemically Induced CO2 Capture Enabled by Aqueous Quinone Flow Chemistry”. ACS Energy Letters, 9, Pp. 3526–3535