With ever-increasing demand for balancing CO2 emissions and maximizing electrical
energy supplies, Li–CO2 electrochemistry, coupled with dual characteristics of advanced …

Recently, a promising energy storage technology, high energy density rechargeable Li–CO2
batteries, has attracted considerable attention. Li–CO2 batteries are anticipated to mitigate …

Heterojunctions have attracted considerable attention for efficiently utilizing solar energy
and improving conversion efficiency during pollutant degradation. Herein, carbon nitride and …

Constructing well‐designed catalysts to accelerate OER catalytic activity and alleviate the
charge overpotential is prevailing for achieving sophisticated Li− O2 batteries. Herein, we …

For lithium‐oxygen batteries (LOBs), the strong oxidant intermediate and byproducts during
the charge/discharge process are the main reasons for the degradation of the …

Designing oxygen catalysts with well-defined shapes and high-activity crystal facets is of
great importance to boost catalytic performance of Li–O2 batteries but challenging. Herein …

High theoretical specific energy of rechargeable lithium–oxygen (Li–O2) batteries makes
them very promising in the development of long driving range electric vehicles and energy …

Abstract Aprotic Li-air (O 2) batteries (ALBs), with theoretical energy density 3∼ 5 times
higher than that of state-of-the-art Li-ion batteries, could potentially power an electric vehicle …

The development of electrocatalysts for N 2 reduction reaction (NRR) is significant for
scalable and renewable NH 3 synthesis, but calls for a technology innovation to overcome …

Promising lithium–oxygen batteries (LOBs) with extra‐high capacities have attracted
increasing attention for use in future electric devices. However, the challenges facing this …