Reversible chemical delithiation/lithiation of LiFePO4: towards a redox flow lithium-ion battery

Reversible chemical delithiation/lithiation of LiFePO4 was successfully demonstrated using ferrocene derivatives, based on which a novel energy storage system - the redox flow lithium-ion battery (RFLB), was devised by integrating the operation flexibility of a redox flow battery and high energy density of a lithium-ion battery. Distinct from the recent semi-solid lithium rechargeable flow battery, the energy storage materials of RFLB stored in separate energy tanks remain stationary upon operation, giving us a fresh perspective on building large-scale energy storage systems with higher energy density and improved safety.

Reversible chemical delithiation/lithiation of LiFePO4: towards a redox flow lithium-ion battery

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Energy Management of Price-Maker Community Energy Storage by Stochastic Dynamic Programming

Electrochemical devices and computer science: water/thermal management of proton exchange membrane fuel cells and electrolyzers in different scales

Fair real-time control of energy storage systems in active distribution networks in the presence of uncertainties

Energy Management of Price-Maker Community Energy Storage by Stochastic Dynamic Programming

Electrochemical devices and computer science: water/thermal management of proton exchange membrane fuel cells and electrolyzers in different scales

Fair real-time control of energy storage systems in active distribution networks in the presence of uncertainties