| Mechanism-based design of a high-potential catholyte enables a 3.2 V all-organic nonaqueous redox flow battery Y Yan, SG Robinson, MS Sigman, MS Sanford Journal of the American Chemical Society 141 (38), 15301-15306, 2019 | 127 | 2019 |
| Developing a predictive solubility model for monomeric and oligomeric cyclopropenium-based flow battery catholytes SG Robinson#, Y Yan#, KH Hendriks, MS Sanford, MS Sigman Journal of the American Chemical Society 141 (26), 10171-10176, 2019 | 71 | 2019 |
| Bis (diisopropylamino) cyclopropenium-arene cations as high oxidation potential and high stability catholytes for non-aqueous redox flow batteries Y Yan, TP Vaid, MS Sanford Journal of the American Chemical Society 142 (41), 17564-17571, 2020 | 51 | 2020 |
| Simultaneously enhancing the redox potential and stability of multi-redox organic catholytes by incorporating cyclopropenium substituents Y Yan, SG Robinson, TP Vaid, MS Sigman, MS Sanford Journal of the American Chemical Society 143 (33), 13450-13459, 2021 | 36 | 2021 |
| Development of high energy density diaminocyclopropenium‐phenothiazine hybrid catholytes for non‐aqueous redox flow batteries Y Yan, DB Vogt, TP Vaid, MS Sigman, MS Sanford Angewandte Chemie International Edition 60 (52), 27039-27045, 2021 | 28 | 2021 |
| Comparative study of organic radical cation stability and coulombic efficiency for nonaqueous redox flow battery applications NH Attanayake, TM Suduwella, Y Yan, AP Kaur, Z Liang, MS Sanford, ... The Journal of Physical Chemistry C 125 (26), 14170-14179, 2021 | 20 | 2021 |
| Benzotriazoles as low-potential anolytes for non-aqueous redox flow batteries Y Yan, L Zhang, R Walser-Kuntz, DB Vogt, MS Sigman, G Yu, MS Sanford Chemistry of Materials 34 (23), 10594-10605, 2022 | 14 | 2022 |
| Targeted Optimization of Phenoxazine Redox Center for Nonaqueous Redox Flow Batteries Y Yan, R Walser-Kuntz, MS Sanford ACS Materials Letters 4 (4), 733-739, 2022 | 13 | 2022 |
| A Physical Organic Chemistry Approach to Developing Cyclopropenium-Based Energy Storage Materials for Redox Flow Batteries R Walser-Kuntz#, Y Yan#, MS Sigman, MS Sanford Accounts of Chemical Research, 1602027-10176, 2023 | 9 | 2023 |
| High Energy Density, Asymmetric, Nonaqueous Redox Flow Batteries without a Supporting Electrolyte Y Yan, P Sitaula, SA Odom, TP Vaid ACS Applied Materials & Interfaces 14 (44), 49633-49640, 2022 | 7 | 2022 |
| Redox mediator-stabilized wide-bandgap perovskites for monolithic perovskite-organic tandem solar cells S Wu#, Y Yan#, J Yin#, K Jiang, F Li, Z Zeng, SW Tsang, AKY Jen Nature Energy, 1-11, 2024 | 3 | 2024 |
| Molecular Engineering of N‐heteroaromatic Organic Cathode for High‐Voltage and Highly Stable Zinc Batteries Y Yan, P Li, Y Wang, L Bi, TW Lau, M Miao, S Yang, Q Xiong, FR Lin, ... Advanced Functional Materials, 2312332, 2024 | 2 | 2024 |
| Palladium-Catalyzed C–H Bond Monofluorination of 2-Arylbenzo [d] oxazinone Using Nitrate as Crucial Promoter HM Vu, XQ Li, FW Chen Synthesis 51 (07), 1578-1584, 2019 | 2 | 2019 |
| Development of highly soluble cyclopropenium salts leading to highly concentrated nonaqueous flow battery Y Yan, S Robinson, K Hendriks, M Sigman, M Sanford ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 258, 2019 | 1 | 2019 |
| Physical Organic Approach Towards High-Performance Materials for Non-Aqueous Redox Flow Battery Y Yan | | 2021 |
| Molecular engineering towards extremely high-potential catholyte for non-aqueous redox flow battery Y Yan, S Robinson, M Sigman, M Sanford ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 258, 2019 | | 2019 |
Matthew SigmanProfessor of chemistry, University of UtahVerified email at chem.utah.edu
