Lithium–oxygen (Li–O₂) batteries are poised to revolutionize energy storage with their ultrahigh theoretical energy density.

Use precise geolocation data and actively scan device characteristics for identification. This is done to store and access ...

Engineers have found that a couple of electric volts - about what a toy flashlight uses - can lock loose coastal sand into a ...

Poly(3,4-ethylenedioxythiophene) (PEDOT) was electrochemically polymerized to in situ modify stainless steel (SS) plate electrode to improve its microbial bioelectrocatalytic activity as ...

Skoltech researchers have investigated the use of polyaromatic hydrocarbons as anode materials in metal-ion batteries. The ...

South Korean researchers have developed a technology that improves the lifespan of next-generation anode-free all-solid-state ...

Acid vapor prevents salt buildup in CO2 reactors, enabling longer, more efficient operation. A team of researchers at Rice ...

The inclusion of LiPF6 in sodium-ion battery electrolytes leads to improved cycle stability and capacity retention, paving ...

HPQ Silicon Inc. and Novacium SAS launch industrial production of advanced lithium-ion battery cells, leveraging innovative GEN3 silicon-based anode technology.

ZnO/Zn(OH)2 nanosheets on copper foil enhance lithiophilicity and stabilize lithium metal anodes for improved cycling ...

These cathode materials work relatively quickly. Getting the lithium ions to dissolve in the electrolyte and cramming them into the anode are significantly slower steps, Srinivasan says.

College of Materials Science and Engineering, National Engineering Research Center for Magnesium Alloys, National Innovation Center for Industry-Education Integration of Energy Storage Technology, ...