Publications

Working Paper
Meisam Bahari, Yan Jing, Shijian Jin, Marc-Antoni Goulet, Tatsuhiro Tsukamoto, Roy G. Gordon, and Michael J. Aziz. Working Paper. “200-fold lifetime extension of 2,6-dihydroxyanthraquinone during flow battery operation.” ChemRxiv. Publisher's Version
Yan Jing, Kiana Amini, Dawei Xi, Shijian Jin, Abdulrahman Alfaraidi, Emily Kerr, Roy Gordon, and Michael Aziz. Working Paper. “Electrochemically induced CO2 capture enabled by aqueous quinone flow chemistry.” ChemRxiv. Publisher's Version
Kiana Amini, Thomas Cochard, Yan Jing, Jordan Sosa, Dawei Xi, Maia Alberts, Michael Emanuel, Emily Kerr, Roy Gordon, and Michael Aziz. Working Paper. “In Situ Techniques for Quinone-Mediated Electrochemical Carbon Capture and Release in Aqueous Environments.” ChemRxiv. Publisher's Version
2024
Dawei Xi, Abdulrahman M. Alfaraidi, Jinxu Gao, Thomas Cochard, Luana C. I. Faria, Zheng Yang, Thomas Y. George, Taobo Wang, Roy G. Gordon, Richard Y. Liu, and Michael J. Aziz. 1/9/2024. “Mild pH-decoupling Aqueous Flow Battery with Practical pH Recovery.” Nature Energy. mja334.pdf
2023
Kiana Amini, Yan Jing, Jinxu Gao, Jordan Sosa, Roy Gordon, and Michael Aziz. 12/22/2023. “Electrochemical Performance of Mixed Redox-Active Organic Molecules in Redox Flow Batteries.” Journal of the Electrochemical Society, 170, Pp. 120535. Publisher's Version mja333.pdf
Abdulrahman M. Alfaraidi, Bryan Kudisch, Nina Ni, Jayden Thomas, Thomas Y. George, Khashayar Rajabimoghadam, Haihui Joy Jiang, Daniel G. Nocera, Michael J. Aziz, and Richard Y. Liu. 12/6/2023. “Reversible CO2 Capture and On-Demand Release by an Acidity-Matched Organic Photoswitch.” Journal of the American Chemical Society. Publisher's Version mja332.pdf
Thomas Y. George, Isabelle C. Thomas, Naphtal O. Haya, John P. Deneen, Cliffton Wang, and Michael J. Aziz. 12/5/2023. “Membrane-Electrolyte System Approach to Understanding Ionic Conductivity and Crossover in Alkaline Flow Cells.” ACS Applied Materials & Interfaces. Publisher's Version mja331.pdf
Abdulrahman M. Alfaraidi, Dawei Xi, Nina Ni, Thomas Y. George, Tatsuhiro Tsukamoto, Roy G. Gordon, Michael J. Aziz, and Richard Y. Liu. 12/4/2023. “An Extremely Stable and Soluble NH2 Substituted Anthraquinone Electrolyte for Aqueous Redox Flow Batteries.” ACS Applied Energy Materials. Publisher's Version mja330.pdf
Jinxu Gao, Kyumin Lee, Kiana Amini, Roy G. Gordon, Theodore A. Betley, and Michael J. Aziz. 12/4/2023. “A Highly Soluble Iron-Based Posolyte Species with High Redox Potential for Aqueous Redox Flow Batteries.” Advanced Functional Materials, Pp. 2310140. Publisher's Version mja329.pdf
Eric M. Fell and Michael J. Aziz. 10/9/2023. “High-Throughput Electrochemical Characterization of Aqueous Organic Redox Flow Battery Active Material.” Journal of the Electrochemical Society, 170, 10, Pp. 100507. Publisher's Version mja328.pdf
Shuai Pang, Shijian Jin, Fengcun Yang, Maia Alberts, Lu Li, Dawei Xi, Roy G. Gordon, Pan Wang, Michael J. Aziz, and Yunlong Ji. 8/24/2023. “A phenazine-based high-capacity and high-stability electrochemical CO2 capture cell with coupled electricity storage.” Nature Energy. Publisher's Version mja327.pdf
Eric M. Fell, Diana De Porcellinis, Yan Jing, Valeria Gutierrez-Venegas, Thomas Y. George, Roy G. Gordon, Sergio Granados-Focil, and Michael J. Aziz. 7/28/2023. “Long-term stability of ferri-/ferrocyanide as an electroactive component for redox flow battery applications: On the origin of apparent capacity fade.” Journal of the Electrochemical Society, 170, Pp. 070525. Publisher's Version mja326.pdf
Kiana Amini, Amit N. Shocron, Matthew E. Suss, and Michael J. Aziz. 7/27/2023. “Pathways to High-Power-Density Redox Flow Batteries.” ACS Energy Letters, 8, Pp. 3526-3535. Publisher's Version mja325.pdf
Thomas Y. George, Emily F. Kerr, Naphtal O. Haya, Abdulrahman M. Alfaraidi, Roy G. Gordon, and Michael J. Aziz. 4/17/2023. “Size and Charge Effects on Crossover of Flow Battery Reactants Evaluated by Quinone Permeabilities Through Nafion.” Journal of the Electrochemical Society, 170, Pp. 040509. Publisher's Version mja324.pdf
Brian H. Robb, Thomas Y. George, Casey M. Davis, Zhijiang Tang, Cy H. Fujimoto, Michael J. Aziz, and Michael P. Marshak. 3/10/2023. “Sulfonated Diels-Alder Poly(phenylene) Membrane for Efficient Ion-Selective Transport in Aqueous Metalorganic and Organic Redox Flow Batteries.” Journal of the Electrochemical Society, 170, Pp. 030515. Publisher's Version mja323.pdf
Kiana Amini, Emily F. Kerr, Thomas Y. George, Abdulrahman M. Alfaraidi, Yan Jing, Tatsuhiro Tsukamoto, Roy G. Gordon, and Michael J. Aziz. 1/25/2023. “An Extremely Stable, Highly Soluble Monosubstituted Anthraquinone for Aqueous Redox Flow Batteries.” Advanced Functional Materials, Pp. 2211338. Publisher's Version mja322.pdf
Emily F. Kerr, Zhijiang Tang, Thomas Y. George, Shijian Jin, Eric M. Fell, Kiana Amini, Yan Jing, Min Wu, Roy G. Gordon, and Michael J. Aziz. 1/13/2023. “High Energy Density Aqueous Flow Battery Utilizing Extremely Stable, Branching-Induced High-Solubility Anthraquinone Near Neutral pH.” ACS Energy Letters, 8, Pp. 600-607. Publisher's Version mja321.pdf
Yan Jing, Roy G. Gordon, and Michael J. Aziz. 2023. “Aqueous Organic Flow Batteries.” In Redox Flow Batteries. From Fundamentals to Applications. Vol. 2. Weinheim: Wiley-WCH. mja319.pdf
2022
Kiana Amini, Eric M. Fell, and Michael J. Aziz. 9/22/2022. “The Poor Academic's DC-Offset for Reversing Polarity in Electrochemical Cells: Application to Redox Flow Cells.” Journal of the Electrochemical Society, 169, Pp. 090527. Publisher's Version mja320.pdf
Jinxu Gao, Kiana Amini, Thomas Y. George, Yan Jing, Tatsuhiro Tsukamoto, Dawei Xi, Roy G. Gordon, and Michael J. Aziz. 9/18/2022. “A High Potential, Low Capacity Fade Rate Iron Complex Posolyte for Aqueous Organic Flow Batteries.” Advanced Energy Materials, Pp. 2202444. Publisher's Version mja318.pdf

Pages