The article discusses research on innovative strategies for efficient hydrogen storage, focusing on the development of adsorbents with high gravimetric and volumetric capacities. A catenation strategy guided by hydrogen bonding is demonstrated for the construction of supramolecular crystals that exhibit high volumetric and large gravimetric surface areas, robustness, and ideal pore diameters, contributing to their effectiveness in hydrogen storage applications. Prior studies, referenced in the article, underscore the significance of achieving a balance between volumetric and gravimetric hydrogen density in materials like metal-organic frameworks (MOFs) to facilitate clean energy storage and delivery. The research highlights the potential of hydrogen-bonded organic frameworks (HOFs) for diverse applications and emphasizes the importance of stability and porosity in designing materials for high-capacity clean energy gas storage. Additionally, circular chemistry concepts are introduced to enhance sustainability across the chemical product lifecycle and establish a waste-free industry. Overall, the sentiment of the article is positive towards the development of innovative materials and strategies for efficient hydrogen storage.