About the Company

In 2018, the first ALEM sample was synthesized in a Ridder laboratory, East Kazakhstan — silicon dioxide with 99.97% purity exceeding semiconductor specifications. That became the starting point: if quartz from Kazakhstan's deposits reaches quantum-grade purity, it can yield materials unavailable to global manufacturers.

Over six years, that laboratory discovery grew into a platform of four materials — ADIL, ALEM, ALAN-M+, ANEL — unified under a single production infrastructure. The same cold plasma + CVD chain that controls SiO₂ purity to picometer tolerance also governs sp³ bonds in diamond-like ANEL at temperatures exceeding 4,000°C.

In parallel, a technology was developed for selective extraction of platinum-group metals — osmium, iridium, rhodium — from copper ores via wave and electromagnetic action on the matrix medium. No aggressive acids. No toxic reagents. These metals integrate into the ALEM matrix, forming composites with a dense crystalline lattice virtually impervious to neutron irradiation — a key property for thermonuclear reactors such as ITER and DEMO.