Highly active and stable cathodes are critical for aqueous Zn–organic batteries with high
capacity, fast redox kinetics, and long life. We herein report para‐, meta‐, and ortho …

Designing ingenious and stable carbon nanostructures is critical but still challenging for use
in energy storage devices with superior electrochemistry kinetics, durable capacitive activity …

Organic electrode active materials are widely used in the research of electrochemical
energy storage devices due to their advantages of low cost, friendly environment, strong …

The integrated photoelectric battery serves as a compact and energy-efficient form for direct
conversion and storage of solar energy compared to the traditional isolated PV-battery …

Anthraquinone have desirable redox property, high specific capacity, and structural diversity,
making them standing out as candidate cathode materials. However, they are still restricted …

Herein, the self‐reinforced inductive effect derived from coexistence of both p‐and n‐type
redox‐active motifs in a single organic molecule is presented. Molecular orbital energy …

Rechargeable organic cathodes have reignited widespread research interest in lithium
batteries. Most research attention is currently paid to their molecular chemistry to increase …

The transition toward electric‐powered devices is anticipated to play a pivotal role in
advancing the global net‐zero carbon emission agenda aimed at mitigating greenhouse …

Optimizing charge migration and alleviating volume expansion in anode materials are the
key to improve the electrochemical performance for sodium-ion storage devices. Herein, a …

Finding two-electron storage aqueous organic negolytes is crucial for increasing the charge
storage capacity in next-generation flow batteries. Inspired by the ability of gallocyanine …