Rubidium could be the next key player in oxide-ion conductors. Researchers at Institute of Science Tokyo have discovered a rare rubidium (Rb)-containing oxide-ion conductor, Rb₅BiMo₄O₁₆ ...

Rubidium could be the next key player in oxide-ion conductors. Researchers at the Institute of Science Tokyo have discovered a rare rubidium (Rb)-containing oxide-ion conductor, Rb 5 BiMo 4 O 16 ...

At ultracold temperatures, interatomic collisions are relatively simple, and their outcome can be controlled using a magnetic ...

Lithium and rubidium are bonded with oxygen within pegmatite. The acidic solution dissolves pegmatite, similar to how hot water dissolves sugar. When this dissolved solution passes through an ion ...

At ultracold temperatures, interatomic collisions are relatively simple, and their outcome can be controlled using a magnetic ...

Examples of mutually competing ions are the pairs potassium–rubidium 1 and calcium–strontium 2. Neither sodium nor lithium competes readily for the potassium–rubidium sites, at low to ...

New atomic clocks are more accurate than those used to define the second, suggesting the definition might need to change ...

Researchers from the Institute of Science Tokyo have discovered a rubidium-based material that conducts well and stays stable, which could help make solid oxide fuel cells work better. Advancing Oxide ...