Metal-organic frameworks (MOFs) are a class of porous materials composed of metal ions coordinated with organic ligands, offering exceptional surface area and tunable pore sizes. These properties make MOFs highly promising for hydrogen storage applications, as they can adsorb large quantities of hydrogen at relatively low pressures and moderate temperatures. MOF-based hydrogen storage systems leverage the unique adsorption properties of MOFs to achieve high storage capacity and efficient release of hydrogen. Research is focused on optimizing the synthesis of MOFs, improving their stability under cycling conditions, and enhancing their hydrogen adsorption kinetics. The development of MOF-based composite materials, combining MOFs with other advanced materials like graphene or carbon nanotubes, is also gaining traction. Applications of MOF-based hydrogen storage include fuel cell vehicles, portable power systems, and renewable energy integration, where their high capacity and safety are critical. From a futuristic perspective, MOF-based hydrogen storage could enable the widespread adoption of hydrogen as a clean energy carrier, providing a reliable and scalable solution for energy storage. The exploration of hybrid MOF systems, combining MOFs with other storage technologies like chemical hydrides or liquid organic hydrogen carriers, is opening new avenues for innovation. Beyond terrestrial applications, MOF-based hydrogen storage is being considered for space exploration, where its lightweight and high capacity are advantageous. The convergence of materials science, chemistry, and engineering is accelerating the realization of MOF-based hydrogen storage, heralding a new era of energy storage that is more efficient, sustainable, and versatile.
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