ASX-listed Everest Metals Corporation (EMC) is aiming to lead Australia’s entry into the rubidium sector by leveraging its new membership in the US Defence Industrial Base Consortium (DIBC ...

China has achieved a technological breakthrough in the production of rubidium, the South China Morning Post has reported, as Beijing looks to expand its dominance in the critical minerals supply ...

Chinese scientists have achieved a breakthrough in the commercial extraction of the critical metal rubidium directly from salt lake brine, potentially slashing dependence on imports – mostly ...

The race for high-efficiency, low-cost solar is heating up, as scientists discovered a potential way to improve one of the most promising solar cell materials: perovskite. According to the École ...

Rubidium extraction technologies boost value and demand in South Koreas advanced industries Emerging techniques for cost-effective rubidium extraction are transforming its market presence in high ...

KAIST develops multifunctional bipolar transistors using indium selenide KAIST pioneers innovative technology for versatile semiconductor components based on advanced materials.

Special Report: Everest Metals Corporation has cause to break out the bubbles after delivering a world-class, maiden rubidium resource with >7,900t of the rare critical mineral at its Mt Edon ...

Phase 1 extraction test works have returned a maximum ~85% rubidium recovery at Mt Edon The results pave the way for the next step in Rubidium processing into final products A maiden resource at ...

Rubidium is a soft, highly reactive silvery-white metal in the alkali group. The global rubidium market is expected to witness significant growth due to factors such as increasing demand for ...

The novel device combines indium selenide's semiconductor qualities with graphene's superior electrical conductivity. Its exceptional performance comes from a unique combination of materials and ...

Scientists in China built for the first time a four-terminal tandem perovskite cell with a 17.88%-efficient top perovskite device and a 7.85%-efficient bottom antimony selenide bottom cell. The ...

A research team has developed a revolutionary thin film deposition process for tin selenide-based materials. This process utilizes the metal-organic chemical vapor deposition (MOCVD) method.