Solid-state electrolytes (SEs) have attracted overwhelming attention as a promising
alternative to traditional organic liquid electrolytes (OLEs) for high-energy-density sodium …

Li-ion batteries (LIBs) are meeting the emerging bottleneck originated from the low
elemental abundance and high cost of lithium. Therefore, other energy-storage batteries …

Anodes for lithium metal batteries, sodium metal batteries, and potassium metal batteries are
susceptible to failure due to dendrite growth. This review details the structure–chemistry …

The energy density of lithium metal batteries (LMBs) could be much higher than that of
current graphite anode-based LIBs. When a metallic current collector is used for plating/de …

Since the discovery in 2011, MXenes have become the rising star in the field of two-
dimensional materials. Benefiting from the metallic-level conductivity, large and adjustable …

Abstract Lithium–sulfur (Li–S) batteries with high theoretical energy density have been long
considered as an alternative energy storage device to lithium‐ion batteries. Nevertheless …

Sodium metal with a~ 1166 mA hg− 1 high theoretical specific capacity and a− 2.71 V low
redox potential shows tremendous application prospects in the sodium metal batteries …

Developing high energy density lithium secondary batteries is pivotal for satisfying the
increasing demand in advanced energy storage systems. Lithium metal batteries (LMBs) …

Prelithiation/presodiation techniques are regarded as indispensable procedures in
electrochemical energy storage (EES) systems, which can effectively compensate …

Sodium metal anodes have attracted significant attention due to their high specific capacity
(1166 mA hg− 1), low redox potential (− 2.71 V vs the standard hydrogen electrode), and …