Hydrogenated borophene with cobalt nickel compounds enables stable lithium hydroxide chemistry in water, activating oxygen ...

AMHERST, Mass. – A groundbreaking new study recently published in the journal Earth’s Future and led by researchers at the University of Massachusetts Amherst in collaboration with the University of ...

Batteries supply electrons by undergoing reversible chemical reactions. That has meant that all the reactants have to be inside the battery, which adds to its weight and volume. Lithium-air batteries ...

ADELPHI, Md. -- Researchers at the U.S. Army Research Laboratory and the University of Maryland have developed for the first time a lithium-ion battery that uses a water-salt solution as its ...

They recover lithium from used batteries with a purity of 99.79% and simplify solid-state batteries, promoting the safety of ...

A lithium-air battery generates electricity by allowing lithium ions (Li⁺) to move from the lithium anode through the electrolyte to the porous cathode, where they react with oxygen from the air to ...

New research led by UMass Amherst hydrologists sounds the alarm over mining practices that have immediate implications for transition to low-carbon economy AMHERST, Mass. — New research into lithium ...

Chengcheng Fang, lead author of the work, preparing a sample for titration gas chromatography analysis she invented with her colleagues. Credit: David Baillot, UC San Diego Jacobs School of ...

For the first time a lithium-ion battery has been developed that uses a water-salt solution as its electrolyte and reaches the 4.0 volt mark desired for household electronics, such as laptop computers ...

A groundbreaking new study comprehensively accounts for the hydrological impact of lithium mining. Since lithium is the key component of the lithium-ion batteries that are crucial for the transition ...