In this article, a team of expert scientists explains why electrochemical interfaces are crucial enablers of sustainable ...

Shares are moderately higher in Asia and U.S. futures are mixed after the Bank of Japan raised its key policy rate to the ...

Nanotechnologists think the next 25 years will bring advances in quantum computing, novel materials and medicine ...

The worldwide push for sustainability requires better, more durable batteries to support renewable energy systems and ubiquitous electronic devices.

Sodium-ion batteries (SIBs) are emerging as a sustainable alternative to lithium-ion batteries, thanks to sodium’s abundance and low cost, but their true charging speed remains uncertain due to ...

Overview New recycling methods are drastically improving the recovery rates of critical materials, including lithium, cobalt, and nickel.Innovations focus on re ...

In 2001, chemists K. Barry Sharpless, Hartmuth C. Kolb, and M. G. Finn introduced click chemistry, a concept in which organic ...

Researchers at Tokyo University of Science showed that sodium-ion batteries with hard carbon anodes can charge faster than lithium-ion batteries by using a diluted electrode method that reveals sodium ...

Japanese researchers have found sodium-ion batteries using hard carbon anodes can intrinsically charge faster than lithium-ion batteries, challenging long-held assumptions in battery research.

By eliminating "ion traffic jams," researchers have uncovered the hidden potential of hard carbon anodes in sodium-ion ...

Learn how copper additives (particularly copper oxides, salts, and nanoparticles) form tribofilms, reduce friction, and ...