The application of molecular sieves in the hydrogen production industry is indeed crucial. Thanks to their highly efficient adsorption and catalytic properties, molecular sieves provide essential technical support for the production, purification, and storage of hydrogen. As a porous material, molecular sieves leverage their regular pore structure and enormous specific surface area to selectively adsorb impurity molecules (such as CO₂, CH₄, etc.) from hydrogen, enabling purification from industrial grade (around 99%) to high-purity hydrogen (99.999%) through pressure swing adsorption (PSA) processes.
Furthermore, molecular sieves show great potential in hydrogen storage. They enable reversible hydrogen storage through physical adsorption and, when combined with new materials such as metal-organic frameworks (MOFs), offer innovative approaches to addressing the “storage and transportation bottleneck” in the hydrogen energy industry chain.
With the growth of the green hydrogen industry, the demand for molecular sieves is expected to increase significantly—particularly in purification equipment integrated with water electrolysis for hydrogen production, purification of industrial by-product hydrogen (e.g., from chlor-alkali and coke oven gas processes), and hydrogen refining applications at hydrogen refueling stations.
As an efficient and customizable porous material, Shanghai JOOZEO molecular sieves will play a key role in advancing the hydrogen production industry toward higher purity, lower energy consumption, and smarter operations. Moving forward, further breakthroughs in selectivity, stability, and cost efficiency through integrated materials science and engineering design will be essential to support the large-scale application of hydrogen energy.
Post time: Aug-26-2025