To meet the growing demand for energy storage technologies, it is crucial to develop next-
generation energy storage and conversion devices with superior energy density, safety, low …

To meet the growing needs of public safety and sustainable development, it is highly
desirable to develop flame-retardant polymer materials using a facile and low-cost method …

Achieving high electrocatalytic activity with low amount of noble metals is critical for
improving the performance and reducing the cost of Li‒O 2 batteries. Herein we describe an …

A non-noble dual metal electrocatalyst based on CoS 2/MoS 2 embedded in reduced
graphene oxide (rGO) was synthesized as an electrocatalyst for direct methanol fuel cells …

In this work, a cost-effective ternary metal oxide nanorods, NiCo 2 O 4, and embedding in
reduced graphene oxide, NiCo 2 O 4/rGO, as electrocatalysts were synthesized to use in …

Accumulations of waste dry cell batteries create irreparable damage to the environment. To
address this issue, herewith we recycle the graphite electrode from waste dry cells to serve …

Abstract Lithium-oxygen (Li-O 2) battery is regarded as one of the potential energy storage
system due to the ultra-high theoretical energy density and environmental friendliness …

The modeling research plays a crucial role in grasping the reaction mechanisms and
forecasting the performance of lithium‑oxygen (Lisingle bondO 2) batteries. A transient …

The interaction of Li and Li+ with a B 40 all-boron fullerene was theoretically investigated at
the B3LYP, and Minnesota 2006 levels of theory. It was found that, unexpectedly, the …

Clean treatment and recycling of retired graphite are of great significance to void
environmental pollution and resource waste. For this reason, a simple chemical intercalation …