The company’s newly developed non-precious-metal electrodes have demonstrated strong electrochemical performance, with hydrogen evolution and oxygen evolution overpotentials of 180 mV and 245 mV respectively at 100 mA·cm⁻². The AEM system demonstrated over 70% energy conversion efficiency and 99.9% hydrogen purity, according to the company.
Building on these results, VERDE HYDROGEN plans to produce a larger-scale AEM electrolyzer prototype to assess long-term performance stability and system integration within a modular configuration. The company stated that this stage will help confirm operational reliability and readiness for commercial scaling.
In parallel, VERDE HYDROGEN is launching a feasibility study on hybrid AEM-alkaline systems to evaluate how the two technologies might be combined for future deployment. According to the company, this hybrid approach aims to leverage the compact design and efficiency of AEM technology alongside the robustness and maturity of alkaline electrolyzers.
