The Universe's first molecule is found at last! That's what the headlines have been proclaiming this week, as NASA's Stratospheric Observatory for Infrared Astronomy (SOFIA) has observed a hitherto ...

Researchers led by Genki Kobayashi at the RIKEN Pioneering Research Institute (PRI) in Japan have discovered a way to max out the amount of hydrogen that can be stored in perovskite crystalline powder ...

Ionic transport has been studied extensively over the years for energy devices such as fuel cells and batteries using Li+, H+, Ag+, Cu+, F-, and O2-. Yet as researchers point out in a recent report, ...

Gold has long been regarded as one of the most chemically inert elements, a stable constant in both scientific ...

Figure 1: Substrate/product transfer and heterolytic H 2 splitting in [FeFe]-hydrogenases. Figure 3: Crystal structure of the PTP in wild-type CpI and PTP-defective CpI variant E279A. Plasmids ...

Superconductivity came with a lot of unfulfilled promises. Power without loss? Sign me up. Superconducting magnetic resonance imaging magnets? They’re, ahem, cool. And CERN couldn’t operate without ...

A research team led by Prof. Ping Chen at the Dalian Institute of Chemical Physics (DICP), Chinese Academy of Sciences (CAS), reported in Nature on September 17 that they created a new core–shell ...

BEIJING -- Chinese scientists have developed the first superionic hydride ion conductor at ambient conditions, according to the Dalian Institute of Chemical Physics under the Chinese Academy of ...

Hydride ion (H⁻), with their low mass and high redox potential, are considered promising charge carriers for next-generation electrochemical devices. However, the lack of efficient electrolyte with ...

TOKYO — In a world where lithium ion power packs are the norm and buzz is building around solid-state batteries, old nickel-metal hydride batteries seem like yesterday's news. After all, Toyota has ...

Ionic transport has been studied extensively over the years for energy devices such as fuel cells and batteries using Li+, H+, Ag+, Cu+, F-, and O2-. Yet as Genki Kobayashi and Ryoji Kanno point out ...