Density Functional Theory and Machine Learning for Electrochemical Square-Scheme Prediction: An Application to Quinone-type Molecules Relevant to Redox Flow Batteries

Abstract: Proton-electron transfer (PET) reactions are rather common in chemistry and crucial in energy storage applications. How electrons and protons are involved or which mechanism dominates is strongly molecule and pH dependent. It is the nature of the participants in the reaction that dictates how electrons and protons are involved and which mechanism dominates. Quantum chemical methods can be used to assess redox potential and acidity constant values but the computations are rather time consuming. In this work, su… Show more

“…The redox properties of quinone compounds are closely linked to their chemical structure, and these properties can be modified by incorporating specific functional groups. [53] An electronwithdrawing group (EWG) is a substituent that has a higher electronegativity than the atoms it is attached to. Examples of common EWGs include nitro (─NO 2 ), cyano (─CN), carbonyl (─C═O), and halogens (─F, ─Cl, ─Br, ─I).…”

Quinones for Aqueous Organic Redox Flow Battery: A Prospective on Redox Potential, Solubility, and Stability

“…The redox properties of quinone compounds are closely linked to their chemical structure, and these properties can be modified by incorporating specific functional groups. [53] An electronwithdrawing group (EWG) is a substituent that has a higher electronegativity than the atoms it is attached to. Examples of common EWGs include nitro (─NO 2 ), cyano (─CN), carbonyl (─C═O), and halogens (─F, ─Cl, ─Br, ─I).…”

Quinones for Aqueous Organic Redox Flow Battery: A Prospective on Redox Potential, Solubility, and Stability