Arc Events Don't Wait. Neither Does the Coating.
Electrical arc and thermal runaway are the primary ignition vectors inside server racks. Nano Stopper neutralizes them at the molecular level — before voltage, heat, or smoke registers on any sensor.
A facility carrying $200 million in active infrastructure cannot absorb the interval between detection and suppression. By the time a traditional system activates, the ignition event has already propagated across adjacent hardware.
Reaction time is the wrong metric.
Nano Stopper operates at the only scale where interruption is still possible — molecules, microseconds — before the arc completes its first oxidation cycle.
Invisible safeguard, applied directly to protected surfaces.
The coating bonds at the substrate level to server chassis, rack components, and cable trays. It requires no power, no activation signal, and no maintenance cycle.
When an arc event occurs, the coating intervenes at the molecular boundary — neutralizing the ignition without discharge, water, or gas. Adjacent hardware stays online. SLA obligations stay intact.
No collateral suppression agent. No thermal shock to adjacent systems. No unplanned downtime from the protection layer itself.
Your facility's ignition profile is specific. So is the assessment.
Our engineers evaluate rack density, thermal load, and existing suppression infrastructure to determine where uncompromised protection applies and how it integrates with your operational constraints.