Yayuan Liu

TL;DR: With its roll-to-roll compatible fabrication procedure, WGC serves as a highly promising material for the practical realization of Li metal anodes in next-generation high energy density secondary batteries.

TL;DR: The abundant nitrogen species within g-C3 N4 nanosheets can form transient LiN bonds to powerfully stabilize the lithium-ion flux and thus enable a CE over 99% for 900 cycles and smooth deposition at high current densities and capacities, surpassing most previous works.

TL;DR: It is revealed that the transition metal dichalcogenides are easily oxidized in strong alkaline media via an in situ electrochemical oxidation process, producing nanoporous transition metal oxides toward much enhanced water oxidation activity due to their increased surface area and more exposed electroactive sites.

TL;DR: The fabrication of an all-integrated PI/Cu/PI bifunctional separator for dendrite detection can be fulfilled and the as-fabricated all-Integrated separators prove efficient as early alarms of Li penetration, opening up the opportunity for safer battery design by separator engineering.

TL;DR: In this article, the authors study the effects of temperature, surface chemistry and surface topography on the wettability of Li-matrix composite anodes for batteries and conclude that gold is the best substrate material for the Li-Au reaction.