The goal of limiting global warming to 1.5° C requires a drastic reduction in CO2 emissions
across many sectors of the world economy. Batteries are vital to this endeavor, whether used …

Nonaqueous lithium–air batteries have garnered considerable research interest over the
past decade due to their extremely high theoretical energy densities and potentially low cost …

A major impediment to Li–O2 battery commercialization is the low discharge capacities
resulting from electronically insulating Li2O2 film growth on carbon electrodes. Redox …

Lithium–air batteries (LABs) have attracted tremendous attention since the proposal of the
LAB concept in 1996 because LABs have a super high theoretical/practical specific energy …

Lithium–oxygen (Li–O2) batteries have been intensively investigated in recent decades for
their utilization in electric vehicles. The intrinsic challenges arising from O2 (electro) …

The lithium–O2 battery is one of most promising energy storage and conversion devices due
to its ultrahigh theoretical energy density and hence has broad application potential in …

Li–O2 batteries have received much attention due to their extremely large theoretical energy
density. However, the high overpotentials required for charging Li–O2 batteries lower their …

Lithium–air batteries are promising devices for electrochemical energy storage because of
their ultrahigh energy density. However, it is still challenging to achieve practical Li–air …

Redox mediators (RMs) play pivotal roles in enhancing the performance of electrochemical
energy storage and conversion systems. Unlike the widely explored areas of electrode …

Understanding the bulk and interfacial behaviors during the operation of batteries (eg, Li-
ion, Na-ion, Li–O2 batteries, etc.) is of great significance for the continuing improvement of …