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Computational design of quinone electrolytes for redox flow batteries using high-throughput machine learning and theoretical calculations
2023
Frontiers in Chemical Engineering
Molecular design of redox-active materials with higher solubility and greater redox potential windows is instrumental in enhancing the performance of redox flow batteries Here we propose a computational procedure for a systematic evaluation of organic redox-active species by combining machine learning, quantum-mechanical, and classical density functional theory calculations. 1,517 small quinone molecules were generated from the building blocks of benzoquinone, naphthoquinone, and anthraquinone
doi:10.3389/fceng.2022.1086412
fatcat:s7mgvdvnlvc7dlbobjlw3jsnjm