Engineers have developed new energy-packed lithium-ion batteries that perform well at frigid cold and blazing hot temperatures. Engineers at the University of California San Diego…
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A University of Chicago scientist is demystifying the dark art of electrolyte design. Creating the Building Blocks for Next-Generation Batteries With more than a trillion…
Scientists have improved the electrical performance of lithium-ion batteries in extreme cold with a new anode made with a bumpy carbon-based material. If you have…
Newly published research proposes optimal design elements of aqueous electrolytes for use in low-temperature aqueous batteries. Energy storage via rechargeable battery technology powers our digital…
The supercapacitor device, which is similar to a rechargeable battery, is about the size of a quarter, and is made in part from sustainable materials…
Silicon chip with 30 individual glucose micro fuel cells, seen as small silver squares inside each gray rectangle. Credit: Kent Dayton Engineers have created a…
This system, containing blue-green algae, powered a microprocessor continuously for a year using nothing but ambient light and water. Credit: Paolo Bombelli Algae-Powered Computing Scientists…
Islands of inactive lithium creep like worms to reconnect with their electrodes, restoring a battery’s capacity and lifespan. Researchers at the Department of Energy’s SLAC…
Cryo-EM snapshots of the solid-electrolyte interphase, or SEI, reveal its natural swollen state and offer a new approach to lithium-metal battery design. Lithium metal batteries…
Hundreds of batteries sit on massive racks, blinking red and green, and are tested every day inside Feng Lin’s lab. The green and red lights…
Prospects to leverage overcoming the limitations of ‘zinc-air batteries’, promising next-generation batteries. Developed bifunctional electrocatalyst with staggered p-n heterojunction applying solar cell/semiconductor interface characteristics. Zinc-air…
Quantum charging will cut the charging time of electric vehicles from ten hours to three minutes. Whether it’s photovoltaics or fusion, sooner or later, human…
The addition of an ionic liquid to the cathode material fills structural voids and provides a better interface with the solid electrolyte. Credit: Tokyo Metropolitan…
New battery material offers promise for the development of all-solid batteries. In the quest for the perfect battery, scientists have two primary goals: create a…
A method for stabilizing the interfaces in solid-state lithium-ion batteries opens new possibilities. In the endless quest to pack more energy into batteries without increasing…
Researchers at the University of Adelaide and their overseas partners have taken a key step in making quantum batteries a reality. They have successfully proved…
Scientists Reduce All-Solid-State Battery Resistance by Heating All-solid-state batteries are now one step closer to becoming the powerhouse of next-generation electronics as researchers from Tokyo…
This submarine drone is powered by a 20-meter-long fiber battery that is wrapped on its surface. Credit: Courtesy of the researchers The rechargeable battery can…
Pictured are rare earth oxides of neodymium, praseodymium, and dysprosium – all critical components for magnets – that have been processed with sulfidation technology. The…
Geothermal power plants at the Salton Sea like this one, the John Featherstone plane, produce superheated brine, which is full of lithium and other minerals.…