MXenes, the emerging 2D transition metal carbides, nitrides, and carbonitrides, have
attracted a great attention as electrodes in energy storage, including batteries and …

Li metal anode attracts tremendous attention in next‐generation battery systems with high
energy density, but volume change and dendritic growth limit its practical applications …

The drastic volume expansion and dendrite growth of lithium metal anodes give rise to poor
electrochemical reversibility. Herein, ZnO, N dually doped nanocages (c-ZNCC) were …

Li metal anode possesses the highest energy density among all anode candidates, but the
dendrite growth impedes its application. Herein, a carbon cloth-assisted two-step self …

The Ni-rich layered oxide cathode has shown high energy density, proper rate capability,
and longevity of the rechargeable battery, while poor stability and capacity fading are …

Commercial applications of lithium (Li) metal anodes are limited by the continuous presence
of Li dendrites and infinite volume variation during the plating/stripping process. Herein, the …

Batteries that are both high-energy-density and durable at sub-zero temperatures are highly
desirable for deep space and subsea exploration and military defense applications. Our …

Lithium metal is the most promising anode for high energy density batteries. However,
lithium dendrite growth resulting from poor interface activity seriously hampers its practical …

Li-metal battery (LMB) gains enormous attentions because of its high energy and power
density. However, the cycling stability of LMB is seriously harmed by the increase of internal …

Li metal, one of the anode materials with high theoretical capacity, faces challenges such as
dendrite growth during cycling due to the unstable interface, making it problematic for next …