Our catalyst development efforts are at the forefront of revolutionizing sustainable, low-carbon energy solutions. We are experts in creating high-performance catalytic materials that drive breakthroughs in electrochemical hydrogen production, fuel cells, metal-air batteries, and supercapacitors. Our advanced techniques, including cutting-edge electrochemical processes, ensure our materials deliver exceptional results.

We specialize in engineering noble and non-noble metal alloy coatings with unparalleled electrochemical surface areas, designed to excel in critical reactions. These coatings, applied to a wide range of substrates—from metals to advanced polymers, graphene, and biowaste-derived carbon—are optimized for superior catalytic performance in energy conversion.

Our team’s deep expertise ensures we offer materials with industry-leading electrocatalytic activity, verified through state-of-the-art techniques. These materials are designed to maximize efficiency and durability in demanding applications.

In addition, we are pioneering bio-based carbon materials from wood industry waste, offering a sustainable and cost-effective alternative for low-carbon energy technologies. Our high-surface-area nanocarbon materials provide exceptional conductivity, durability, and electrocatalytic activity, making them ideal for ultracapacitors, batteries, and fuel cell catalysts.