There are a number of critical requirements for electrolytes in aqueous redox flow batteries.
This paper reviews organic molecules that have been used as the redox‐active electrolyte …

Abstract Benzo [d]‐X‐zolyl‐pyridinyl (X O, S, NH) radicals represent a promising class of
redox‐active molecules for organic batteries. We present a multistep screening procedure to …

Aqueous organic redox flow batteries (AORFBs) face challenges of low energy density,
which can be addressed by the strategy of redox-targeting (RT) reaction integrating solid …

High-throughput computational screening (HTCS) is a powerful approach for the rational
and time-efficient design of electroactive compounds. The effectiveness of HTCS is …

Finding low‐cost and nontoxic redox couples for organic redox flow batteries is challenging
due to unrevealed reaction mechanisms and side reactions. In this study, a 3D kinetic Monte …

Quinone-hydroquinone pairs have been proposed as biologically-inspired, low-cost redox
couples for organic electrolytes for electrical energy storage, particularly in aqueous redox …

Redox flow battery is a highly promising stationary energy storage method, but the limited
energy density and high chemical cost are among the main barriers for commercialization …

Quinone–hydroquinone pairs have been proposed as biologically-inspired, low-cost redox
couples for organic electrolytes for electrical energy storage, particularly in aqueous redox …

Abstract Redox Flow Batteries (RFBs) are a versatile and durable type of electrochemical
storage and a promising option for large-scale stationary energy storage. Aqueous Organic …

New active materials are needed to improve the performance and reduce the cost of non-
aqueous redox flow batteries (RFBs) for grid-scale energy storage applications. Efforts to …