Every performance claim on this website anchors to work undertaken by one of six independent institutions. This page is the index.
Extreme-temperature thermal-cycling metallurgy. NP1 wire characterised across –196°C to 1,000°C under 500+ thermal cycles.
EMI attenuation characterisation across 30 MHz – 16 GHz under MIL-STD-285 and IEEE 299 shielded-enclosure test protocols. 65 – 75 dB attenuation profile validated.
Aerospace material qualification. NAS 907-aligned qualification of NP1 wire and derived tooling for composite-cure and airframe applications.
Electrolyser-substrate Faradaic efficiency benchmarking. RuO₂-coated NiMesh at 94.3% Faradaic efficiency under 1,000-hour durability run.
Specification-conformance auditing across the full GTX product range. Lot-level certificate issuance for industrial procurement-grade sourcing.
Chemistry verification to ppm resolution. 99.99% NP1 purity verified per lot; impurity-signature characterisation available to customers under NDA.
| Finding | Validator | Reference |
|---|---|---|
| Thermal cycling –196°C to 1,000°C · 500+ cycles | NTU Singapore (Ramamurty) | NTU-RMG-2025-017 |
| EMI attenuation 65 – 75 dB · 30 MHz – 16 GHz | IIT Delhi | IIT-EMC-2026-003 |
| Aerospace NAS 907 qualification | Lectromec (NASA-cert.) | LM-2026-GTX-007 |
| Faradaic efficiency 94.3% · 1,000-hour durability | IISc Bangalore | IISc-ECR-2026-012 |
| Specification conformity (full SKU range) | ASACERT UK | ASA-GTX-01 / 06 |
| 99.99% NP1 purity chemistry | NSL Analytical (USA) | NSL-A-2026-0041 |
| 2,000-hour ASTM B117 salt-spray · no pitting | GTX metrology · ASACERT audited | GTX-M-MAR-2026-01 |
| 400-mesh · 95% PGM/REE recovery efficiency | GTX metrology · independent verification | GTX-M-REE-2026-04 |