Growth in intermittent renewable sources including solar and wind has sparked increasing
interest in electrical energy storage. Grid‐scale energy storage integrated with renewable …

Organic batteries using redox-active polymers and small organic compounds have become
promising candidates for next-generation energy storage devices due to the abundance …

As potential alternatives to conventional inorganic materials, organic compounds are
attractive for use as the cathodes of aqueous zinc-ion batteries (ZIBs), due to their high …

Stable cathodes with multiple redox-active centres affording a high energy density, fast
redox kinetics and a long life are continuous pursuits for aqueous zinc-organic batteries …

Organic small molecules as high‐capacity cathodes for Zn‐organic batteries have inspired
numerous interests, but are trapped by their easy‐dissolution in electrolytes. Here we knit …

Compared with Zn2+ storage, non‐metallic charge carrier with small hydrated size and light
weight shows fast dehydration and diffusion kinetics for Zn‐organic batteries. Here we first …

With fast (de) coordination kinetics, the smallest and the lightest proton stands out as the
most ideal charge carrier for aqueous Zn‐organic batteries (ZOBs). Hydrogen‐bonding …

Designing multiple redox sites in electroactive organic cathodes that allow more electron
transfer is a permanent target for energy storage. Here, six‐electron zinc–organic batteries …

Most current research is devoted to electrochemical nitrate reduction reaction for ammonia
synthesis under alkaline/neutral media while the investigation of nitrate reduction under …

Although additives are widely used in aqueous electrolytes to inhibit the formation of
dendrites and hydrogen evolution reactions on Zn anodes, there is a lack of rational design …