Ziqiang Liu

TL;DR: In this paper, the authors developed a composite electrode consisting of NiCo2O4 nanowires on ultralight nickel foam, which provided a large surface for rapid charge transports.

TL;DR: This study not only develops a new Co2 VO4 anode with high capacity and good cyclability, but also demonstrates an alternative approach to improve the electrochemical properties of high capacity anode materials by using ultralight porous metallic current collector instead of heavy copper foil.

TL;DR: A new carbon- and binder-free O2 cathode was fabricated by electroplating Ru-nanoparticle-coated ultralight Ni foam, which has good electron-conducting and electrocatalytic properties.

TL;DR: This study demonstrates that combining the scaffolding function of ultralight porous nickel and the high capacity of the SnSb alloy can significantly enhance the electrochemical performances of Li/Na-ion batteries.

TL;DR: A general electrochemical route to fabricate monolithic core/shell sandwiched structures is developed, which is able to significantly improve the electrochemical properties of TMO electrodes by electrically wiring the insulating active materials and alleviating the adverse effects caused by volume changes using engineered porous structures.