Development of novel, high-energy organic cathode paves the way for new generation of rechargeable Li-organic batteries.
Graphene-wrapped sulfur makes for better batteries
Chinese researchers have developed a graphene-based composite material to improve the performance of lithium-sulfur batteries.
Performance Improves for Sodium-Ion Batteries
Batteries advance with improved efficiency in positive sodium-ion electrodes, achieved using copper and iron.
New air electrodes for zinc-air batteries
A*STAR researchers develop batteries with enhanced performance and lower resistance, improved charge-discharge profile, and notable cycling stability.
Driving forward: high-powered, ultra-long lifetime Li-ion batteries for electric vehicles
Prelithiated hematite nanofibers demonstrate exceptional cyclability as anodes towards high-powered Li-ion batteries for automotive applications.
Optimization of organic Li-ion batteries
High performance organic Li-ion batteries have been demonstrated after optimization of the cathode, electrolyte, and protective additives.
Following the Roadmap to Improved Lithium-Ion Batteries
Jim Yang Lee and colleagues have designed a clever method to apply the concept of traffic engineering to the electron transport in lithium-ion batteries.
High performance coated-powder cathodes for Li-ion batteries
Stable, high-performance Li-ion battery cathodes have been demonstrated from powder precursors coated with an electrochemically active coating.
Model Membrane-Free Li–S Batteries
Membrane-free lithium–sulfur batteries with enhanced performance and cycle life.
Na1.1V3O7.9 nanobelts as cathode material for Na-ion batteries
Pure single crystalline nanostructures investigated by Chinese research team.