Designing an efficient air electrode is of great significance for the performance of
rechargeable zinc (Zn)‐air batteries. However, the most widely used approach to fabricate …

Water splitting is an essential process for renewable energy systems, requiring efficient,
economical, and abundant catalysts for both hydrogen evolution reaction (HER) and oxygen …

Simultaneously realizing the cathode and anode protection is critical for developing practical
lithium sulfur (Li-S) batteries. Currently, many efforts have been devoted to solving problems …

Engineering non‐precious transition metal (TM)‐based electrocatalysts to simultaneously
achieve an optimal intrinsic activity, high density of active sites, and rapid mass transfer …

Engineering transition metal‐nitrogen‐carbon (TM‐N‐C) catalysts with high‐density
accessible active sites and optimized electronic structure holds great promise in the context …

The development of a thin, tunable, and high‐performance flexible electromagnetic (EM)
absorbing device that aims to solve signal interference or EM pollution is highly desirable …

Potassium‐ion hybrid capacitors (PIHCs), elaborately integrate the advantages of high
output power as well as long lifespan of supercapacitors and the high energy density of …

The incorporation of cobalt selenide (CoSe 2) anode in lithium-ion capacitors (LICs) holds
great promise for addressing the electrode kinetics mismatch issue, owing to its high …

Abstract Lithium‐ion, sodium‐ion, and potassium‐ion batteries have captured tremendous
attention in power supplies for various electric vehicles and portable electronic devices …

Exploring nanostructured transition-metal sulfide anode materials with excellent electrical
conductivity is the key point for high-performance alkali metal ion storage devices. Herein …