Unlock 90% Iridium Reduction for Maximum Efficiency, Durability, and Profit
As the drive for high-performance, cost-effective, and reliable PEM electrolyzers and fuel cells intensifies, so does the challenge of balancing efficiency with material costs—especially amid surging iridium and platinum prices. SparkNano’s pioneering Spatial Atomic Layer Deposition (S-ALD) technology addresses this need head-on, enabling ultra-low iridium and/or platinum coatings on porous transport layers (PTL) with high precision. By optimizing internal surface area utilization, S-ALD reduces material costs, boosts system durability through precise chemical bonding, and simplifies recycling for a sustainable lifecycle.
Join Dr. Jill S. Becker, SparkNano’s CEO and Alexander Bouman, SparkNano’s Commercial Director, as they demonstrate how S-ALD technology can drive your PEM electrolyzer development forward. They will reveal how our solution reduces iridium loading to just 0.1 mg/cm²—40 times lower than traditional methods—while simultaneously enhancing catalyst stability and electrochemical performance. Scalable and cost-efficient, S-ALD positions your team to meet 2030 performance goals today, setting a new benchmark for industrial-scale green hydrogen production.
The webinar consists of a 30-minute session where we discuss:
- Introduction: Identifying the current obstacles in PEM electrolyzer production and the path to mass-scale adoption.
- Technology Deep Dive: A comprehensive overview of S-ALD technology.
- Optimizing Iridium Loading: Delving into the specific ways S-ALD enhances the efficiency of iridium coatings.
Gain valuable insights into how SparkNano’s innovation can transform your green hydrogen projects.
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